OccurrenceID	TaxonID	Event ID	Institution Code	Collection Code	Catalog Number	Sex	LifeStage	Reproductive Condition	Behavior	Establishment Means	Remarks	Count of Individuals	Preparations	FieldNotes	Sampling Protocol	Sampling Effort	Recorded By	Identified By	Date Identified	Event Date	Modified Date	Locality	Decimal Latitude	Decimal Longitude	Verbatim Latitude	Verbatim Longitude	Verbatim Elevation
O_1	Ambrosia_artemisiifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_2	Ambrosia_artemisiifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_3	Ambrosia_artemisiifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_4	Ambrosia_artemisiifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_5	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_6	Campsis_radicans														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_7	Campsis_radicans														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_8	Campsis_radicans														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_9	Campsis_radicans														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_10	Campsis_radicans														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_11	Campsis_radicans														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_12	Rubus_cuneifolius														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_13	Rubus_cuneifolius														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_14	Rubus_cuneifolius														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_15	Rubus_cuneifolius														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_16	Rubus_cuneifolius														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_17	Rubus_cuneifolius														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_18	Rubus_cuneifolius														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_19	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_20	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_21	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_22	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_23	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_24	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_25	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_26	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.66257	-84.22318			8
O_27	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_28	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_29	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_30	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_31	Dichanthelium_acuminatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_32	Dichanthelium_acuminatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_33	Dichanthelium_acuminatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_34	Dichanthelium_acuminatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_35	Dichanthelium_acuminatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_36	Paspalum_notatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_37	Paspalum_notatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_38	Paspalum_notatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_39	Paspalum_notatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_40	Paspalum_notatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_41	Paspalum_notatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_42	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_43	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_44	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_45	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_46	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.69911	-84.19801			60
O_47	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.94045	-83.71289			51
O_48	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.94045	-83.71289			51
O_49	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.94045	-83.71289			51
O_50	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.94045	-83.71289			51
O_51	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.94045	-83.71289			51
O_52	Rubus_cuneifolius														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.94045	-83.71289			51
O_53	Rubus_cuneifolius														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.94045	-83.71289			51
O_54	Rubus_cuneifolius														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.94045	-83.71289			51
O_55	Rubus_cuneifolius														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.94045	-83.71289			51
O_56	Rubus_cuneifolius														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.94045	-83.71289			51
O_57	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.94045	-83.71289			51
O_58	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.94045	-83.71289			51
O_59	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.94045	-83.71289			51
O_60	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.94045	-83.71289			51
O_61	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								30.94045	-83.71289			51
O_62	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_63	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_64	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_65	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_66	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_67	Dichanthelium_aciculare														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_68	Dichanthelium_aciculare														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_69	Dichanthelium_aciculare														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_70	Dichanthelium_aciculare														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_71	Dichanthelium_aciculare														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_72	Helianthemum_rosmarinifolium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_73	Helianthemum_rosmarinifolium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_74	Helianthemum_rosmarinifolium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_75	Helianthemum_rosmarinifolium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_76	Paspalum_notatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_77	Paspalum_notatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_78	Paspalum_notatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_79	Paspalum_notatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_80	Paspalum_notatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_81	Pityopsis_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_82	Pityopsis_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_83	Pityopsis_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_84	Pityopsis_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_85	Pityopsis_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_86	Tephrosia_spicata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_87	Tephrosia_spicata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_88	Tephrosia_spicata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_89	Tephrosia_spicata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_90	Tephrosia_spicata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								33.199599	-79.435113			3
O_91	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_92	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_93	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_94	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_95	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_96	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_97	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_98	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_99	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_100	Lespedeza_cuneata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_101	Lespedeza_cuneata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_102	Lespedeza_cuneata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_103	Lespedeza_cuneata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_104	Lespedeza_cuneata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_105	Lespedeza_procumbens														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_106	Lespedeza_procumbens														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_107	Lespedeza_procumbens														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_108	Lespedeza_procumbens														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_109	Lespedeza_procumbens														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_110	Paspalum_notatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_111	Paspalum_notatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_112	Paspalum_notatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_113	Paspalum_notatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_114	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_115	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_116	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_117	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_118	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_119	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								34.679947	-81.810944			92
O_120	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_121	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_122	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_123	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_124	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_125	Anthoxanthum_odoratum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_126	Anthoxanthum_odoratum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_127	Anthoxanthum_odoratum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_128	Anthoxanthum_odoratum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_129	Anthoxanthum_odoratum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_130	Daucus_carota														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_131	Daucus_carota														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_132	Daucus_carota														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_133	Daucus_carota														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_134	Daucus_carota														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_135	Lespedeza_cuneata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_136	Lespedeza_cuneata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_137	Lespedeza_cuneata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_138	Lespedeza_cuneata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_139	Lespedeza_cuneata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_140	Plantago_lanceolata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_141	Plantago_lanceolata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_142	Plantago_lanceolata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_143	Plantago_lanceolata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_144	Plantago_lanceolata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_145	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_146	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_147	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_148	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_149	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_150	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_151	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_152	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_153	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_154	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								35.059255	-81.967397			275
O_155	Achillea_millefolium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_156	Achillea_millefolium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_157	Achillea_millefolium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_158	Achillea_millefolium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_159	Achillea_millefolium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_160	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_161	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_162	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_163	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_164	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_165	Bromus_inermis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_166	Bromus_inermis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_167	Bromus_inermis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_168	Bromus_inermis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_169	Bromus_inermis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_170	Dichanthelium_clandestinum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_171	Dichanthelium_clandestinum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_172	Dichanthelium_clandestinum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_173	Dichanthelium_clandestinum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_174	Dichanthelium_clandestinum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_175	Festuca_rubra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_176	Festuca_rubra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_177	Festuca_rubra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_178	Holcus_lanatus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_179	Holcus_lanatus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_180	Holcus_lanatus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_181	Holcus_lanatus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_182	Holcus_lanatus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_183	Phleum_pratense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_184	Phleum_pratense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_185	Phleum_pratense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_186	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_187	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_188	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_189	Prunella_vulgaris														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_190	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_191	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_192	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_193	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_194	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_195	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_196	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_197	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_198	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_199	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_200	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_201	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_202	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_203	Trifolium_repens														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_204	Trifolium_repens														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_205	Trifolium_repens														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_206	Trifolium_repens														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_207	Trifolium_repens														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_208	Verbesina_alternifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_209	Verbesina_alternifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_210	Verbesina_alternifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_211	Verbesina_alternifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_212	Verbesina_alternifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.45966	-81.33758			792
O_213	Lespedeza_cuneata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_214	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_215	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_216	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_217	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_218	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_219	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_220	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_221	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_222	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_223	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_224	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_225	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_226	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_227	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_228	Verbesina_alternifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_229	Verbesina_alternifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_230	Verbesina_occidentalis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_231	Verbesina_occidentalis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_232	Verbesina_occidentalis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_233	Verbesina_occidentalis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_234	Verbesina_occidentalis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.38329	-81.02799			558
O_235	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_236	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_237	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_238	Lespedeza_cuneata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_239	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_240	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_241	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_242	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_243	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_244	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_245	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_246	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_247	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_248	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_249	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_250	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_251	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_252	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_253	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_254	Verbesina_occidentalis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_255	Verbesina_occidentalis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_256	Verbesina_occidentalis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_257	Verbesina_occidentalis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.07243	-79.00626			155
O_258	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_259	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_260	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_261	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_262	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_263	Carex_hirsutella														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_264	Carex_hirsutella														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_265	Desmodium_obtusum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_266	Desmodium_obtusum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_267	Desmodium_obtusum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_268	Desmodium_obtusum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_269	Desmodium_obtusum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_270	Dichanthelium_acuminatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_271	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_272	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_273	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_274	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_275	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_276	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_277	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_278	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_279	Scleria_pauciflora														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_280	Scleria_pauciflora														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_281	Scleria_pauciflora														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_282	Scleria_pauciflora														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.13324	-79.83965			269
O_283	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_284	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_285	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_286	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_287	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_288	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_289	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_290	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_291	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_292	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_293	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_294	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_295	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_296	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_297	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_298	Sorghum_halepense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_299	Sorghum_halepense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_300	Sorghum_halepense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_301	Sorghum_halepense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_302	Sorghum_halepense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								36.0146	-79.0031			134
O_303	Campsis_radicans														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_304	Campsis_radicans														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_305	Campsis_radicans														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_306	Campsis_radicans														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_307	Campsis_radicans														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_308	Dichanthelium_scoparium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_309	Dichanthelium_scoparium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_310	Dichanthelium_scoparium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_311	Dichanthelium_scoparium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_312	Dichanthelium_scoparium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_313	Panicum_virgatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_314	Panicum_virgatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_315	Panicum_virgatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_316	Panicum_virgatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_317	Panicum_virgatum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_318	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_319	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_320	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_321	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_322	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_323	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_324	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_325	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_326	Solidago_juncea														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_327	Solidago_juncea														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_328	Solidago_juncea														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_329	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_330	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_331	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.50157	-78.31607			57
O_332	Ambrosia_artemisiifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_333	Ambrosia_artemisiifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_334	Ambrosia_artemisiifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_335	Ambrosia_artemisiifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_336	Ambrosia_artemisiifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_337	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_338	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_339	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_340	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_341	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_342	Setaria_pumila														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_343	Setaria_pumila														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_344	Setaria_pumila														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_345	Setaria_pumila														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_346	Setaria_pumila														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_347	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_348	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_349	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_350	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_351	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								37.33222	-77.20834			9
O_352	Campsis_radicans														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_353	Campsis_radicans														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_354	Campsis_radicans														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_355	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_356	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_357	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_358	Lespedeza_cuneata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_359	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_360	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_361	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_362	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_363	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_364	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_365	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_366	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_367	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.1965	-76.93078			12
O_368	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_369	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_370	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_371	Festuca_rubra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_372	Festuca_rubra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_373	Festuca_rubra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_374	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_375	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_376	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_377	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_378	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_379	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_380	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_381	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_382	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_383	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_384	Trifolium_repens														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_385	Trifolium_repens														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_386	Trifolium_repens														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_387	Verbesina_occidentalis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_388	Verbesina_occidentalis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_389	Verbesina_occidentalis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_390	Verbesina_occidentalis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_391	Verbesina_occidentalis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								38.98989	-76.96245			252
O_392	Ambrosia_artemisiifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_393	Ambrosia_artemisiifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_394	Ambrosia_artemisiifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_395	Elymus_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_396	Elymus_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_397	Elymus_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_398	Elymus_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_399	Elymus_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_400	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_401	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_402	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_403	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_404	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_405	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_406	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_407	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_408	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_409	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_410	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_411	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_412	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_413	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_414	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.35999	-77.41032			75
O_415	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_416	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_417	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_418	Bromus_inermis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_419	Bromus_inermis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_420	Bromus_inermis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_421	Bromus_inermis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_422	Bromus_inermis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_423	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_424	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_425	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_426	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_427	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_428	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_429	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_430	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_431	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_432	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_433	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_434	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_435	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								39.45071	-77.73985			126
O_436	Achillea_millefolium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_437	Achillea_millefolium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_438	Achillea_millefolium														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_439	Anthoxanthum_odoratum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_440	Anthoxanthum_odoratum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_441	Anthoxanthum_odoratum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_442	Anthoxanthum_odoratum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_443	Anthoxanthum_odoratum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_444	Carex_swanii														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_445	Carex_swanii														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_446	Carex_swanii														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_447	Carex_swanii														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_448	Carex_swanii														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_449	Centaurea_nigra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_450	Centaurea_nigra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_451	Centaurea_nigra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_452	Centaurea_nigra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_453	Centaurea_nigra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_454	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_455	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_456	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_457	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_458	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_459	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_460	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_461	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_462	Fragaria_virginiana														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_463	Fragaria_virginiana														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_464	Fragaria_virginiana														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_465	Fragaria_virginiana														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_466	Fragaria_virginiana														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_467	Phleum_pratense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_468	Phleum_pratense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_469	Phleum_pratense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_470	Prunella_vulgaris														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_471	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_472	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_473	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_474	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_475	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_476	Solidago_juncea														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_477	Solidago_juncea														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_478	Solidago_juncea														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_479	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_480	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_481	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								42.546694	-76.073549			442
O_482	Anthoxanthum_odoratum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_483	Anthoxanthum_odoratum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_484	Anthoxanthum_odoratum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_485	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_486	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_487	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_488	Galium_mollugo														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_489	Galium_mollugo														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_490	Galium_mollugo														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_491	Galium_mollugo														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_492	Phleum_pratense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_493	Phleum_pratense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_494	Phleum_pratense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_495	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_496	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_497	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_498	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_499	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_500	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_501	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_502	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_503	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_504	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_505	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_506	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_507	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_508	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_509	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								43.17224	-75.93096			120
O_510	Coronilla_varia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_511	Coronilla_varia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_512	Coronilla_varia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_513	Danthonia_spicata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_514	Danthonia_spicata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_515	Danthonia_spicata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_516	Doellingeria_umbellata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_517	Doellingeria_umbellata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_518	Doellingeria_umbellata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_519	Doellingeria_umbellata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_520	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_521	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_522	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_523	Festuca_rubra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_524	Festuca_rubra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_525	Festuca_rubra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_526	Fragaria_virginiana														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_527	Fragaria_virginiana														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_528	Fragaria_virginiana														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_529	Holcus_lanatus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_530	Holcus_lanatus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_531	Holcus_lanatus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_532	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_533	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_534	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_535	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_536	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_537	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_538	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_539	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_540	Solidago_juncea														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_541	Solidago_juncea														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_542	Solidago_juncea														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_543	Solidago_juncea														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_544	Solidago_juncea														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_545	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_546	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_547	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.45764	-78.54881			701
O_548	Apocynum_cannabinum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_549	Apocynum_cannabinum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_550	Apocynum_cannabinum														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_551	Coronilla_varia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_552	Coronilla_varia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_553	Coronilla_varia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_554	Coronilla_varia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_555	Coronilla_varia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_556	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_557	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_558	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_559	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_560	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_561	Festuca_rubra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_562	Festuca_rubra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_563	Festuca_rubra														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_564	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_565	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_566	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_567	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_568	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_569	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_570	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_571	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_572	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_573	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_574	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_575	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_576	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_577	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_578	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.65291	-78.55676			444
O_579	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_580	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_581	Andropogon_virginicus														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_582	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_583	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_584	Panicum_anceps														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_585	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_586	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_587	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_588	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_589	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_590	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_591	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_592	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_593	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_594	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.09866	-75.43916			66
O_595	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_596	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_597	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_598	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_599	Euthamia_graminifolia														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_600	Fragaria_virginiana														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_601	Fragaria_virginiana														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_602	Fragaria_virginiana														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_603	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_604	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_605	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_606	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_607	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_608	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_609	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_610	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_611	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_612	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_613	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_614	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_615	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_616	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_617	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								40.6386	-76.019			173
O_618	Bromus_inermis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_619	Bromus_inermis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_620	Bromus_inermis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_621	Bromus_inermis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_622	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_623	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_624	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_625	Galium_mollugo														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_626	Phleum_pratense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_627	Phleum_pratense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_628	Phleum_pratense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_629	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_630	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_631	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_632	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_633	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.78147	-73.74575			93
O_634	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_635	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_636	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_637	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_638	Dactylis_glomerata														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_639	Galium_mollugo														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_640	Phleum_pratense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_641	Phleum_pratense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_642	Phleum_pratense														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_643	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_644	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_645	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_646	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_647	Poa_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_648	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_649	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_650	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_651	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_652	Schedonorus_pratensis														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_653	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_654	Solidago_altissima														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_655	Solidago_gigantea														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_656	Solidago_gigantea														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_657	Solidago_gigantea														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_658	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_659	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_660	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_661	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207
O_662	Solidago_rugosa														Ten 50-100 m transects were established in each study site. Along each transect, 20 1-m2 quadrats were established for sampling plant community composition. All vascular plant species were identified and their cover determined by visual estimation. Soil samples were collected from one randomly chosen quadrat per transect. Five individuals of each species in each site were randomly selected for trait measurements.								41.79852	-74.121936			207