Measurement ID Occurrence ID MeasurementOfTaxon Association ID Parent Measurement ID Measurement Type Measurement Value Unit Accuracy Statistical Method Determined Date Determined By Measurement Method Remarks Source Citation Contributor ReferenceID 1 Scleractinia (exposed reefs) TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 0.48 http://eol.org/schema/terms/kilogramsPerMeterSquaredPerYear http://eol.org/schema/terms/average "literature review, studies using alkalinity reduction measurement" http://www.jstor.org/stable/pdf/1743381.pdf "SMITH, BY S. V., D. W. KINSEY. 1976. Calcium Carbonate Production, Coral Reef Growth, and Sea Level Change. SCIENCE, Vol. 194, Issue 4268, pp. 937-939. DOI: 10.1126/science.194.4268.937" Smith3;Smith4;Smith5 2 Scleractinia (lagoons) TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 0.096 http://eol.org/schema/terms/kilogramsPerMeterSquaredPerYear http://eol.org/schema/terms/average "literature review, studies using alkalinity reduction measurement" http://www.jstor.org/stable/pdf/1743381.pdf "SMITH, BY S. V., D. W. KINSEY. 1976. Calcium Carbonate Production, Coral Reef Growth, and Sea Level Change. SCIENCE, Vol. 194, Issue 4268, pp. 937-939. DOI: 10.1126/science.194.4268.937" Smith2;Smith3;Smith4;Smith6;Smith7 3 Porites TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 1.812 http://eol.org/schema/terms/kilogramsPerMeterSquaredPerYear http://eol.org/schema/terms/average "average density and extension rate measurements, 328 samples" http://science.sciencemag.org/content/342/6158/559.2 "De'ath*, G., Lough, J.M., Fabricius. K.E. 2009. Declining Coral Calcification on the Great Barrier Reef. Science, Vol. 323, Issue 5910, pp. 116-119. DOI: 10.1126/science.1165283 Accessed at http://science.sciencemag.org/content/342/6158/559.2" 4 Scleractinia (Palau1) TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 0.9 http://eol.org/schema/terms/kilogramsPerMeterSquaredPerYear http://semanticscience.org/resource/SIO_001113 "average density and extension rate measurements, 4 cores" http://adsabs.harvard.edu/abs/2016AGUOSAH14A0004M "Mollica, N. R.; Guo, W.; Cohen, A. L.; Foster, G. L.; Barkley, H. 2016. Towards predicting coral calcification responses to ocean acidification: A combined modeling and experimental approach. American Geophysical Union, Ocean Sciences Meeting 2016, abstract #AH14A-0004" 5 Scleractinia (Palau1) TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 1.452 http://eol.org/schema/terms/kilogramsPerMeterSquaredPerYear http://semanticscience.org/resource/SIO_001114 "average density and extension rate measurements, 4 cores" http://adsabs.harvard.edu/abs/2016AGUOSAH14A0004M "Mollica, N. R.; Guo, W.; Cohen, A. L.; Foster, G. L.; Barkley, H. 2016. Towards predicting coral calcification responses to ocean acidification: A combined modeling and experimental approach. American Geophysical Union, Ocean Sciences Meeting 2016, abstract #AH14A-0004" 6 Scleractinia (Palau2) TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 0.996 http://eol.org/schema/terms/kilogramsPerMeterSquaredPerYear http://semanticscience.org/resource/SIO_001113 "average density and extension rate measurements, 4 cores" http://adsabs.harvard.edu/abs/2016AGUOSAH14A0004M "Mollica, N. R.; Guo, W.; Cohen, A. L.; Foster, G. L.; Barkley, H. 2016. Towards predicting coral calcification responses to ocean acidification: A combined modeling and experimental approach. American Geophysical Union, Ocean Sciences Meeting 2016, abstract #AH14A-0004" 7 Scleractinia (Palau2) TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 1.668 http://eol.org/schema/terms/kilogramsPerMeterSquaredPerYear http://semanticscience.org/resource/SIO_001114 "average density and extension rate measurements, 4 cores" http://adsabs.harvard.edu/abs/2016AGUOSAH14A0004M "Mollica, N. R.; Guo, W.; Cohen, A. L.; Foster, G. L.; Barkley, H. 2016. Towards predicting coral calcification responses to ocean acidification: A combined modeling and experimental approach. American Geophysical Union, Ocean Sciences Meeting 2016, abstract #AH14A-0004" 8 Porites irregularis TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 8.74E-05 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://eol.org/schema/terms/average "buoyant weight gain, converted to dry weight using aragonite density=2.93 g/mL, lab treatment. Interpolated @39Pa PCO2 (present day PCO2) from the linear regression of area-normalized calcification on PCO" http://onlinelibrary.wiley.com/doi/10.4319/lo.2014.59.3.1081/epdf "Comeau, P. J., Edmunds, N. B. Spindel, and R. C. Carpenter. 2014. Fast coral reef calcifiers are more sensitive to ocean acidification in short-termlaboratory incubations. Limnol. Oceanogr., 59(3), 1081–1091" 9 Pocillopora verrucosa TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 9.22E-05 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://eol.org/schema/terms/average "buoyant weight gain, converted to dry weight using aragonite density=2.93 g/mL, lab treatment. Interpolated @39Pa PCO2 (present day PCO2) from the linear regression of area-normalized calcification on PCO" http://onlinelibrary.wiley.com/doi/10.4319/lo.2014.59.3.1081/epdf "Comeau, P. J., Edmunds, N. B. Spindel, and R. C. Carpenter. 2014. Fast coral reef calcifiers are more sensitive to ocean acidification in short-termlaboratory incubations. Limnol. Oceanogr., 59(3), 1081–1091" 10 Psammocora profundacella TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 0.000134 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://eol.org/schema/terms/average "buoyant weight gain, converted to dry weight using aragonite density=2.93 g/mL, lab treatment. Interpolated @39Pa PCO2 (present day PCO2) from the linear regression of area-normalized calcification on PCO" http://onlinelibrary.wiley.com/doi/10.4319/lo.2014.59.3.1081/epdf "Comeau, P. J., Edmunds, N. B. Spindel, and R. C. Carpenter. 2014. Fast coral reef calcifiers are more sensitive to ocean acidification in short-termlaboratory incubations. Limnol. Oceanogr., 59(3), 1081–1091" 11 Porites rus TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 0.000185 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://eol.org/schema/terms/average "buoyant weight gain, converted to dry weight using aragonite density=2.93 g/mL, lab treatment. Interpolated @39Pa PCO2 (present day PCO2) from the linear regression of area-normalized calcification on PCO" http://onlinelibrary.wiley.com/doi/10.4319/lo.2014.59.3.1081/epdf "Comeau, P. J., Edmunds, N. B. Spindel, and R. C. Carpenter. 2014. Fast coral reef calcifiers are more sensitive to ocean acidification in short-termlaboratory incubations. Limnol. Oceanogr., 59(3), 1081–1091" 12 Acropora pulchra TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 0.000169 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://eol.org/schema/terms/average "buoyant weight gain, converted to dry weight using aragonite density=2.93 g/mL, lab treatment. Interpolated @39Pa PCO2 (present day PCO2) from the linear regression of area-normalized calcification on PCO" http://onlinelibrary.wiley.com/doi/10.4319/lo.2014.59.3.1081/epdf "Comeau, P. J., Edmunds, N. B. Spindel, and R. C. Carpenter. 2014. Fast coral reef calcifiers are more sensitive to ocean acidification in short-termlaboratory incubations. Limnol. Oceanogr., 59(3), 1081–1091" 13 Pocillopora damicornis TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 7.85E-05 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://eol.org/schema/terms/average "buoyant weight gain, converted to dry weight using aragonite density=2.93 g/mL, lab treatment. Interpolated @39Pa PCO2 (present day PCO2) from the linear regression of area-normalized calcification on PCO" http://onlinelibrary.wiley.com/doi/10.4319/lo.2014.59.3.1081/epdf "Comeau, P. J., Edmunds, N. B. Spindel, and R. C. Carpenter. 2014. Fast coral reef calcifiers are more sensitive to ocean acidification in short-termlaboratory incubations. Limnol. Oceanogr., 59(3), 1081–1091" 14 Pavona cactus TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 0.000114 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://eol.org/schema/terms/average "buoyant weight gain, converted to dry weight using aragonite density=2.93 g/mL, lab treatment. Interpolated @39Pa PCO2 (present day PCO2) from the linear regression of area-normalized calcification on PCO" http://onlinelibrary.wiley.com/doi/10.4319/lo.2014.59.3.1081/epdf "Comeau, P. J., Edmunds, N. B. Spindel, and R. C. Carpenter. 2014. Fast coral reef calcifiers are more sensitive to ocean acidification in short-termlaboratory incubations. Limnol. Oceanogr., 59(3), 1081–1091" 15 Acropora cervicornis TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 3.55E-05 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://eol.org/schema/terms/average calculated from buoyant weighing as calcification = dry.weight.gain/surface.area/time http://onlinelibrary.wiley.com/wol1/doi/10.1111/gcb.13481/full "Okazaki, R. R., Towle, E. K., van Hooidonk, R., Mor, C., Winter, R. N., Piggot, A. M., Cunning, R., Baker, A. C., Klaus, J. S., Swart, P. K. and Langdon, C. (2017), Species-specific responses to climate change and community composition determine future calcification rates of Florida Keys reefs. Global Change Biology, 23: 1023–1035. doi: 10.1111/gcb.13481 Table S5" 16 Agaricia agaricites TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 0.000181 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://semanticscience.org/resource/SIO_001109 calculated from buoyant weighing as calcification = dry.weight.gain/surface.area/time http://onlinelibrary.wiley.com/wol1/doi/10.1111/gcb.13481/full "Okazaki, R. R., Towle, E. K., van Hooidonk, R., Mor, C., Winter, R. N., Piggot, A. M., Cunning, R., Baker, A. C., Klaus, J. S., Swart, P. K. and Langdon, C. (2017), Species-specific responses to climate change and community composition determine future calcification rates of Florida Keys reefs. Global Change Biology, 23: 1023–1035. doi: 10.1111/gcb.13481 Table S5" 17 Dichocoenia stokesii TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 6.09E-05 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://semanticscience.org/resource/SIO_001109 calculated from buoyant weighing as calcification = dry.weight.gain/surface.area/time http://onlinelibrary.wiley.com/wol1/doi/10.1111/gcb.13481/full "Okazaki, R. R., Towle, E. K., van Hooidonk, R., Mor, C., Winter, R. N., Piggot, A. M., Cunning, R., Baker, A. C., Klaus, J. S., Swart, P. K. and Langdon, C. (2017), Species-specific responses to climate change and community composition determine future calcification rates of Florida Keys reefs. Global Change Biology, 23: 1023–1035. doi: 10.1111/gcb.13481 Table S5" 18 Montastraea cavernosa TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 4.30E-05 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://semanticscience.org/resource/SIO_001109 calculated from buoyant weighing as calcification = dry.weight.gain/surface.area/time http://onlinelibrary.wiley.com/wol1/doi/10.1111/gcb.13481/full "Okazaki, R. R., Towle, E. K., van Hooidonk, R., Mor, C., Winter, R. N., Piggot, A. M., Cunning, R., Baker, A. C., Klaus, J. S., Swart, P. K. and Langdon, C. (2017), Species-specific responses to climate change and community composition determine future calcification rates of Florida Keys reefs. Global Change Biology, 23: 1023–1035. doi: 10.1111/gcb.13481 Table S5" 19 Orbicella faveolata TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 0.000142 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://semanticscience.org/resource/SIO_001109 calculated from buoyant weighing as calcification = dry.weight.gain/surface.area/time http://onlinelibrary.wiley.com/wol1/doi/10.1111/gcb.13481/full "Okazaki, R. R., Towle, E. K., van Hooidonk, R., Mor, C., Winter, R. N., Piggot, A. M., Cunning, R., Baker, A. C., Klaus, J. S., Swart, P. K. and Langdon, C. (2017), Species-specific responses to climate change and community composition determine future calcification rates of Florida Keys reefs. Global Change Biology, 23: 1023–1035. doi: 10.1111/gcb.13481 Table S5" 20 Porites astreoides TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 2.21E-05 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://semanticscience.org/resource/SIO_001109 calculated from buoyant weighing as calcification = dry.weight.gain/surface.area/time http://onlinelibrary.wiley.com/wol1/doi/10.1111/gcb.13481/full "Okazaki, R. R., Towle, E. K., van Hooidonk, R., Mor, C., Winter, R. N., Piggot, A. M., Cunning, R., Baker, A. C., Klaus, J. S., Swart, P. K. and Langdon, C. (2017), Species-specific responses to climate change and community composition determine future calcification rates of Florida Keys reefs. Global Change Biology, 23: 1023–1035. doi: 10.1111/gcb.13481 Table S5" 21 Porites divaricata TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 9.52E-06 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://semanticscience.org/resource/SIO_001109 calculated from buoyant weighing as calcification = dry.weight.gain/surface.area/time http://onlinelibrary.wiley.com/wol1/doi/10.1111/gcb.13481/full "Okazaki, R. R., Towle, E. K., van Hooidonk, R., Mor, C., Winter, R. N., Piggot, A. M., Cunning, R., Baker, A. C., Klaus, J. S., Swart, P. K. and Langdon, C. (2017), Species-specific responses to climate change and community composition determine future calcification rates of Florida Keys reefs. Global Change Biology, 23: 1023–1035. doi: 10.1111/gcb.13481 Table S5" 22 Pseudodiploria strigosa TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 2.24E-05 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://semanticscience.org/resource/SIO_001109 calculated from buoyant weighing as calcification = dry.weight.gain/surface.area/time http://onlinelibrary.wiley.com/wol1/doi/10.1111/gcb.13481/full "Okazaki, R. R., Towle, E. K., van Hooidonk, R., Mor, C., Winter, R. N., Piggot, A. M., Cunning, R., Baker, A. C., Klaus, J. S., Swart, P. K. and Langdon, C. (2017), Species-specific responses to climate change and community composition determine future calcification rates of Florida Keys reefs. Global Change Biology, 23: 1023–1035. doi: 10.1111/gcb.13481 Table S5" 23 Siderastrea radians TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 3.17E-05 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://semanticscience.org/resource/SIO_001109 calculated from buoyant weighing as calcification = dry.weight.gain/surface.area/time http://onlinelibrary.wiley.com/wol1/doi/10.1111/gcb.13481/full "Okazaki, R. R., Towle, E. K., van Hooidonk, R., Mor, C., Winter, R. N., Piggot, A. M., Cunning, R., Baker, A. C., Klaus, J. S., Swart, P. K. and Langdon, C. (2017), Species-specific responses to climate change and community composition determine future calcification rates of Florida Keys reefs. Global Change Biology, 23: 1023–1035. doi: 10.1111/gcb.13481 Table S5" 24 Siderastrea siderea TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 0.000114 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://semanticscience.org/resource/SIO_001109 calculated from buoyant weighing as calcification = dry.weight.gain/surface.area/time http://onlinelibrary.wiley.com/wol1/doi/10.1111/gcb.13481/full "Okazaki, R. R., Towle, E. K., van Hooidonk, R., Mor, C., Winter, R. N., Piggot, A. M., Cunning, R., Baker, A. C., Klaus, J. S., Swart, P. K. and Langdon, C. (2017), Species-specific responses to climate change and community composition determine future calcification rates of Florida Keys reefs. Global Change Biology, 23: 1023–1035. doi: 10.1111/gcb.13481 Table S5" 25 Solenastrea hyades TRUE http://eol.org/schema/terms/net_carbon_fixation_rate 5.06E-05 http://eol.org/schema/terms/gramsPerCentimeterSquaredPerDay http://semanticscience.org/resource/SIO_001109 calculated from buoyant weighing as calcification = dry.weight.gain/surface.area/time http://onlinelibrary.wiley.com/wol1/doi/10.1111/gcb.13481/full "Okazaki, R. R., Towle, E. K., van Hooidonk, R., Mor, C., Winter, R. N., Piggot, A. M., Cunning, R., Baker, A. C., Klaus, J. S., Swart, P. K. and Langdon, C. (2017), Species-specific responses to climate change and community composition determine future calcification rates of Florida Keys reefs. Global Change Biology, 23: 1023–1035. doi: 10.1111/gcb.13481 Table S5" 26 Porites TRUE http://eol.org/schema/terms/skeletal_density 1.23 http://purl.obolibrary.org/obo/UO_0000084 http://eol.org/schema/terms/average http://science.sciencemag.org/content/342/6158/559.2 "De'ath*, G., Lough, J.M., Fabricius. K.E. 2009. Declining Coral Calcification on the Great Barrier Reef. Science, Vol. 323, Issue 5910, pp. 116-119. DOI: 10.1126/science.1165283 Accessed at http://science.sciencemag.org/content/342/6158/559.2" 27 Porites FALSE http://eol.org/schema/terms/SampleSize 328 28 Acropora cervicornis FALSE http://purl.obolibrary.org/obo/PATO_0000146 27 http://purl.obolibrary.org/obo/UO_0000027 29 Agaricia agaricites FALSE http://purl.obolibrary.org/obo/PATO_0000146 27 http://purl.obolibrary.org/obo/UO_0000027 30 Dichocoenia stokesii FALSE http://purl.obolibrary.org/obo/PATO_0000146 27 http://purl.obolibrary.org/obo/UO_0000027 31 Montastraea cavernosa FALSE http://purl.obolibrary.org/obo/PATO_0000146 27 http://purl.obolibrary.org/obo/UO_0000027 32 Orbicella faveolata FALSE http://purl.obolibrary.org/obo/PATO_0000146 27 http://purl.obolibrary.org/obo/UO_0000027 33 Porites astreoides FALSE http://purl.obolibrary.org/obo/PATO_0000146 27 http://purl.obolibrary.org/obo/UO_0000027 34 Porites divaricata FALSE http://purl.obolibrary.org/obo/PATO_0000146 27 http://purl.obolibrary.org/obo/UO_0000027 35 Pseudodiploria strigosa FALSE http://purl.obolibrary.org/obo/PATO_0000146 27 http://purl.obolibrary.org/obo/UO_0000027 36 Siderastrea radians FALSE http://purl.obolibrary.org/obo/PATO_0000146 27 http://purl.obolibrary.org/obo/UO_0000027 37 Siderastrea siderea FALSE http://purl.obolibrary.org/obo/PATO_0000146 27 http://purl.obolibrary.org/obo/UO_0000027 38 Solenastrea hyades FALSE http://purl.obolibrary.org/obo/PATO_0000146 27 http://purl.obolibrary.org/obo/UO_0000027 39 Acropora cervicornis FALSE http://eol.org/schema/terms/pCO2 400 http://eol.org/schema/terms/microatmosphere 40 Agaricia agaricites FALSE http://eol.org/schema/terms/pCO2 400 http://eol.org/schema/terms/microatmosphere 41 Dichocoenia stokesii FALSE http://eol.org/schema/terms/pCO2 400 http://eol.org/schema/terms/microatmosphere 42 Montastraea cavernosa FALSE http://eol.org/schema/terms/pCO2 400 http://eol.org/schema/terms/microatmosphere 43 Orbicella faveolata FALSE http://eol.org/schema/terms/pCO2 400 http://eol.org/schema/terms/microatmosphere 44 Porites astreoides FALSE http://eol.org/schema/terms/pCO2 400 http://eol.org/schema/terms/microatmosphere 45 Porites divaricata FALSE http://eol.org/schema/terms/pCO2 400 http://eol.org/schema/terms/microatmosphere 46 Pseudodiploria strigosa FALSE http://eol.org/schema/terms/pCO2 400 http://eol.org/schema/terms/microatmosphere 47 Siderastrea radians FALSE http://eol.org/schema/terms/pCO2 400 http://eol.org/schema/terms/microatmosphere 48 Siderastrea siderea FALSE http://eol.org/schema/terms/pCO2 400 http://eol.org/schema/terms/microatmosphere 49 Solenastrea hyades FALSE http://eol.org/schema/terms/pCO2 400 http://eol.org/schema/terms/microatmosphere 50 Scleractinia (Palau1) FALSE http://eol.org/schema/terms/pH 8.04 51 Scleractinia (Palau2) FALSE http://eol.org/schema/terms/pH 7.84 52 Acropora cervicornis FALSE http://eol.org/schema/terms/pH 8.1 53 Agaricia agaricites FALSE http://eol.org/schema/terms/pH 8.1 54 Dichocoenia stokesii FALSE http://eol.org/schema/terms/pH 8.1 55 Montastraea cavernosa FALSE http://eol.org/schema/terms/pH 8.1 56 Orbicella faveolata FALSE http://eol.org/schema/terms/pH 8.1 57 Porites astreoides FALSE http://eol.org/schema/terms/pH 8.1 58 Porites divaricata FALSE http://eol.org/schema/terms/pH 8.1 59 Pseudodiploria strigosa FALSE http://eol.org/schema/terms/pH 8.1 60 Siderastrea radians FALSE http://eol.org/schema/terms/pH 8.1 61 Siderastrea siderea FALSE http://eol.org/schema/terms/pH 8.1 62 Solenastrea hyades FALSE http://eol.org/schema/terms/pH 8.1 63 Acropora cervicornis FALSE http://eol.org/schema/terms/aragonite_saturation_state 3.8 64 Agaricia agaricites FALSE http://eol.org/schema/terms/aragonite_saturation_state 3.8 65 Dichocoenia stokesii FALSE http://eol.org/schema/terms/aragonite_saturation_state 3.8 66 Montastraea cavernosa FALSE http://eol.org/schema/terms/aragonite_saturation_state 3.8 67 Orbicella faveolata FALSE http://eol.org/schema/terms/aragonite_saturation_state 3.8 68 Porites astreoides FALSE http://eol.org/schema/terms/aragonite_saturation_state 3.8 69 Porites divaricata FALSE http://eol.org/schema/terms/aragonite_saturation_state 3.8 70 Pseudodiploria strigosa FALSE http://eol.org/schema/terms/aragonite_saturation_state 3.8 71 Siderastrea radians FALSE http://eol.org/schema/terms/aragonite_saturation_state 3.8 72 Siderastrea siderea FALSE http://eol.org/schema/terms/aragonite_saturation_state 3.8 73 Solenastrea hyades FALSE http://eol.org/schema/terms/aragonite_saturation_state 3.8 74 Porites irregularis FALSE http://eol.org/schema/terms/SampleSize 36 75 Pocillopora verrucosa FALSE http://eol.org/schema/terms/SampleSize 36 76 Psammocora profundacella FALSE http://eol.org/schema/terms/SampleSize 36 77 Porites rus FALSE http://eol.org/schema/terms/SampleSize 36 78 Acropora pulchra FALSE http://eol.org/schema/terms/SampleSize 36 79 Pocillopora damicornis FALSE http://eol.org/schema/terms/SampleSize 36 80 Pavona cactus FALSE http://eol.org/schema/terms/SampleSize 36 81 Acropora cervicornis FALSE http://eol.org/schema/terms/SampleSize 4 82 Agaricia agaricites FALSE http://eol.org/schema/terms/SampleSize 9 83 Dichocoenia stokesii FALSE http://eol.org/schema/terms/SampleSize 9 84 Montastraea cavernosa FALSE http://eol.org/schema/terms/SampleSize 24 85 Orbicella faveolata FALSE http://eol.org/schema/terms/SampleSize 22 86 Porites astreoides FALSE http://eol.org/schema/terms/SampleSize 25 87 Porites divaricata FALSE http://eol.org/schema/terms/SampleSize 20 88 Pseudodiploria strigosa FALSE http://eol.org/schema/terms/SampleSize 14 89 Siderastrea radians FALSE http://eol.org/schema/terms/SampleSize 24 90 Siderastrea siderea FALSE http://eol.org/schema/terms/SampleSize 21 91 Solenastrea hyades FALSE http://eol.org/schema/terms/SampleSize 24 92 Scleractinia (exposed reefs) FALSE http://purl.obolibrary.org/obo/EO_0007196 natural light 93 Scleractinia (lagoons) FALSE http://purl.obolibrary.org/obo/EO_0007196 natural light 94 Porites FALSE http://purl.obolibrary.org/obo/EO_0007196 natural light 95 Scleractinia (Palau1) FALSE http://purl.obolibrary.org/obo/EO_0007196 natural light 96 Scleractinia (Palau2) FALSE http://purl.obolibrary.org/obo/EO_0007196 natural light 97 Porites irregularis FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 700 http://eol.org/schema/terms/µmol_m-2_s-1 98 Pocillopora verrucosa FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 700 http://eol.org/schema/terms/µmol_m-2_s-1 99 Psammocora profundacella FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 700 http://eol.org/schema/terms/µmol_m-2_s-1 100 Porites rus FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 700 http://eol.org/schema/terms/µmol_m-2_s-1 101 Acropora pulchra FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 700 http://eol.org/schema/terms/µmol_m-2_s-1 102 Pocillopora damicornis FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 700 http://eol.org/schema/terms/µmol_m-2_s-1 103 Pavona cactus FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 700 http://eol.org/schema/terms/µmol_m-2_s-1 104 Acropora cervicornis FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 3.7 http://eol.org/schema/terms/mol_per_meter_squared_per_day 105 Agaricia agaricites FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 3.7 http://eol.org/schema/terms/mol_per_meter_squared_per_day 106 Dichocoenia stokesii FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 3.7 http://eol.org/schema/terms/mol_per_meter_squared_per_day 107 Montastraea cavernosa FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 3.7 http://eol.org/schema/terms/mol_per_meter_squared_per_day 108 Orbicella faveolata FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 3.7 http://eol.org/schema/terms/mol_per_meter_squared_per_day 109 Porites astreoides FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 3.7 http://eol.org/schema/terms/mol_per_meter_squared_per_day 110 Porites divaricata FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 3.7 http://eol.org/schema/terms/mol_per_meter_squared_per_day 111 Pseudodiploria strigosa FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 3.7 http://eol.org/schema/terms/mol_per_meter_squared_per_day 112 Siderastrea radians FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 3.7 http://eol.org/schema/terms/mol_per_meter_squared_per_day 113 Siderastrea siderea FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 3.7 http://eol.org/schema/terms/mol_per_meter_squared_per_day 114 Solenastrea hyades FALSE http://purl.obolibrary.org/obo/zeco.owl/ZECO_0000151 3.7 http://eol.org/schema/terms/mol_per_meter_squared_per_day 115 Scleractinia (exposed reefs) FALSE http://purl.obolibrary.org/obo/PATO_0002243 high current 116 Scleractinia (lagoons) FALSE http://purl.obolibrary.org/obo/PATO_0002243 low current