Data included in the database

Data from the publications below are archived in the Pangaea data base.

The data from the following mesocosm experiments were published in several papers. They can be obtained as a single file using the links below:

PeECE I - Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2001
PeECE II - Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2003
PeECE III- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005

Alphabetical list of references:

Albright R., Mason B. & Langdon C., 2008. Effect of aragonite saturation state on settlement and post-settlement growth of Porites astreoides larvae. Coral Reefs 27:485-490. Data set title: Seawater carbonate chemistry, larval settlement and growth rate during experiments with coral Porites astreoides.
Allen K. A., Hönisch B., Eggins S. M., Yu J., Spero H. J., & Elderfield H., in press. Controls on boron incorporation in cultured tests of the planktic foraminifer Orbulina universa. Earth and Planetary Science Letters 309(3-4):291-301. Data set title: Seawater carbonate chemistry and boron incorporation of planktic foraminifer Orbulina universa during experiments, 2011
Allgaier M., Riebesell U., Vogt M., Thyrhaug R. & Grossart H.-P., 2008. Coupling of heterotrophic bacteria to phytoplankton bloom development at different pCO₂ levels: a mesocosm study. Biogeosciences 5:1007-1022. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005.
Allison A.,Cohen I., Finch A. A., Erez J., & EMIF, 2011. Controls on Sr/Ca and Mg/Ca in scleractinian corals: The effects of Ca-ATPase and transcellular Ca channels on skeletal chemistry. Geochimica et Cosmochimica Acta 75(21):6350-6360. Data set title: Seawater carbonate chemistry, Mg/Ca, Sr/Ca, oxygen production and calcification rate during experiments with coral Pocillopora damicornis, 2011
Andersson A. J., Kuffner I. B., Mackenzie F. T., Jokiel P. L., Rodgers K. S. & Tan A., 2009. Net loss of CaCO₃ from a subtropical calcifying community due to seawater acidification: mesocosm-scale experimental evidence. Biogeosciences 6:1811-1823. Data set title: Seawater carbonate chemistry and net community calcification, 2009.

Andersson A. J., Mackenzie F. T. & Bates N. R., 2008. Life on the margin: implications of ocean acidification on Mg-calcite, high latitude and cold water marine calcifiers. Marine Ecology Progress Series 373:265-273. Data set title: Seawater carbonate chemistry in the future ocean, 2008.

Anlauf, H., D’Croz, L., & O’Dea, A., 2011. A corrosive concoction: The combined effects of ocean warming and acidification on the early growth of a stony coral are multiplicative. Journal of Experimental Marine Biology and Ecology 397(1):13-20. Data set title: Seawater carbonate chemistry and biological processes of Porites panamensis during experiments, 2011.
Anthony K. R. N., Kline D. L., Diaz-Pulido G., Dove S. & Hoegh-Guldberg O., 2008. Ocean acidification causes bleaching and productivity loss in coral reef builders. Proceedings Of The National Academy Of Sciences USA 105:17442-17446. Data set title: Seawater carbonate chemistry and processes during experiments with corals, 2008.
Antia A. N., Suffrian K., Holste L., Müller M. N., Nejstgaard J. C., Simonelli P., Carotenuto Y. & Putzeys S., 2008. Dissolution of coccolithophorid calcite by microzooplankton and copepod grazing. Biogeosciences Discussions 5:1-23. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005.
Bach L. T., Riebesell U., & Schulz K. G., 2011. Distinguishing between the effects of ocean acidification and ocean carbonation in the coccolithophore Emiliania huxleyi. Limnology and Oceanography 56(6): 2040-2050. Data set title: Seawater carbonate chemistry, growth rate and PIC and POC production during experiments with Emiliania huxleyi (B92/11), 2011
Barcelos e Ramos J., Biswas H., Schulz K. G., LaRoche J. & Riebesell U., 2007. Effect of rising atmospheric carbon dioxide on the marine nitrogen fixer Trichodesmium. Global Biogeochemical Cycles 21:GB2028. Data set title: Seawater carbonate chemistry and particulate organic particles in a semicontinuous batch culture study with Trichodesmium IMS101, 2007.
Barcelos e Ramos J., Müller M. N. & Riebesell U., 2010. Short-term response of the coccolithophore Emiliania huxleyi to an abrupt change in seawater carbon dioxide concentrations. Biogeosciences 7:177-186. Data set title: Seawater carbonate chemistry and processes during experiments with phytoplankton Emiliania huxleyi (Bergen 2005), 2010
Baumann H., Talmage S. C., & Gobler C. J., 2011. Reduced early life growth and survival in a fish in direct response to increased carbon dioxide. Nature Climate Change doi:10.1038/nclimate1291. Data set title: Seawater carbonate chemistry, length and survival of Inland silverside, Menidia beryllina, during experiments, 2012
Bates, N. R., Amat, A., & Andersson, A. J., 2010 Feedbacks and responses of coral calcification on the Bermuda reef system to seasonal changes in biological processes and ocean acidification. Biogeosciences 7(8): 2509-2530. Data set titles: (1) Seawater carbonate chemistry and calcification rate in the Bermuda reef community, 2010. (2) Seawater carbonate chemistry in Hog reef, Bermuda reef community, 2010
Beaufort L., Probert I., de Garidel-Thoron T., Bendif E. M., Ruiz-Pino D., Metzl N., Goyet C., Buchet N., Coupel P., Grelaud M., Rost B., Rickaby R. E. M., & de Vargas C., 2011. Sensitivity of coccolithophores to carbonate chemistry and ocean acidification. Nature 476:80-83. Data set title: Seawater carbonate chemistry and Emiliania huxleyi mass and size.
Bechmann R.-K., Taban I. C., Westerlund S., Godal B. F., Arnberg B. F., Vingen S., Ingvarsdottir A., & Baussant T., 2011. Effects of ocean acidification on early life stages of shrimp (Pandalus borealis) and mussel (Mytilus edulis). Journal of Toxicology and Environmental Health, Part A 74(7-9):424-438. Data set titles: (1) Seawater carbonate chemistry and biological processes of Mytilus edulis during experiments, 2011, (2) Seawater carbonate chemistry and biological processes of Pandalus borealis during experiments, 2011
Bellerby R. G. J., Schulz K. G., Riebesell U., Neill C., Nondal G., Johannessen T. & Brown K. R., 2008. Marine ecosystem community carbon and nutrient uptake stoichiometry under varying ocean acidification during the PeECE III experiment. Biogeosciences 5:1517-1527. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005.
Beniash E., Ivanina A., Lieb N. S. & Kurochkin. I., 2010. Elevated level of carbon dioxide affects metabolism and shell formation in oysters Crassostrea virginica. Marine Ecology Progress Series 419:95-108. Data set title: Seawater carbonate chemistry and biological processes of oysters Crassostrea virginica during experiments, 2010.
Bensoussan N. & Gattuso J.-P., 2007. Community primary production and calcification in a NW Mediterranean ecosystem dominated by calcareous macroalgae. Marine Ecology Progress Series 334:37-45. Data set title: Seawater carbonate chemistry and calcification at Anse des Cuivres, NW Mediterranean.
Benthien A., Zondervan I., Engel A., Hefter J., Terbrüggen A. & Riebesell U., 2007. Carbon isotopic fractionation during a mesocosm bloom experiment dominated by Emiliania huxleyi: Effects of CO₂ concentration and primary production. Geochimica et Cosmochimica Acta 71:1528-1541. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2001
Bibby R., Cleall-Harding P., Rundle S., Widdicombe S. & Spicer J., 2007. Ocean acidification disrupts induced defences in the intertidal gastropod Littorina littorea. Biology Letters 3:699-701. Data set title: Seawater carbonate chemistry during experiments with Littorina littorea.
Bibby R., Widdicombe S., Parry H., Spicer J. & Pipe R., 2008. Effects of ocean acidification on the immune response of the blue mussel Mytilus edulis. Aquatic Biology 2:67-74. Data set title: Seawater carbonate chemistry during experiments with Mytilus edulis.
Biswas H., Cros A., Yadav K., Ramana V. V., Prasad V. R., Acharyya T., & Raghunadh Babu P. V., 2011. The response of a natural phytoplankton community from the Godavari River Estuary to increasing CO2 concentration during the pre-monsoon period. Journal of Experimental Marine Biology and Ecology 407(2):284-293. Data set title: Seawater carbonate chemistry, nutrients, growth rate and phytoplnkton community response to increasing CO2 concentration during experiments, 2011
Boucher G., Clavier J. & Garrigue C., 1994. Oxygen and carbon dioxide fluxes at the water- sediment interface of a tropical lagoon. Marine Ecology Progress Series 107:195-193. Data set title: Seawater carbonate chemistry and calcification from a tropical lagoon study at SW lagoon, New Caledonia 1991.
Boucher G., Clavier J., Hily C. & Gattuso J.-P., 1998. Contribution of soft-bottoms to the community metabolism (primary production and calcification) of a barrier reef flat (Moorea, French Polynesia). Journal of Experimental Marine Biology and Ecology 225:269-283. Data set title: Seawater carbonate chemistry and calcification from a study of barrier reef flat in Moorea, French Polynesia.
Boucher G. & Clavier J., 1995. Carbon flux at the water-sediment interface of tropical lagoons. International Workshop on Carbon cycling and coral reef metabolism, Miykojima, Japan. Data set title: Seawater carbonate chemistry and calcification in a tropical lagoon study at Uvea lagoon, New Caledonia.
Brading P., Warner M. E., Davey P., Smith D. J., Achterberg E. P., & Suggett D. J., 2011. Differential effects of ocean acidification on growth and photosynthesis among phylotypes of Symbiodinium (Dinophyceae). Limnology and Oceanography 56(3):927-938. Data set title: Seawater carbonate chemistry and growth rate during experiments with phylotypes of Symbiodinium (Dinophyceae), 2011
Breitbarth E., Bellerby R. J., Neill C. C., Ardelan M. V., Meyerhöfer M., Zöllner E., Croot P. L. & Riebesell U., 2010. Ocean acidification affects iron speciation in seawater. Biogeosciences 7:1065-1073. Data set title: PeECE III- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005
Brochard C., Borges A. V., Händel N., & Engel A., 2011. Biogeochemical response of Emiliania huxleyi (PML B92/11) to elevated CO2 and temperature under phosphorous limitation: A chemostat study. Journal of Experimental Marine Biology and Ecology 410:61-71. Data set title: Seawater carbonate chemistry and biological processes of Emiliania huxleyi (PML B92/11) during experiments, 2011
Burkhardt S., Riebesell U. & Zondervan I., 1999. Stable carbon isotope fractionation by marine phytoplankton in response to daylength, growth rate, and CO₂ availability. Marine Ecology Progress Series 184:31-41. Data set title: Seawater carbonate chemistry, stable carbon isotope fractionation and growth rate in a study with marine phytoplankton.
Carotenuto Y., Putzeys S., Simonelli P., Paulino A., Meyerhöfer M., Suffrian K., Antia A. & Nejstgaard J. C., 2007. Copepod feeding and reproduction in relation to phytoplankton development during the PeECE III mesocosm experiment. Biogeosciences Discussions 4:3913-3936. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005.
Casareto, B. E., Niraula, M. P., Fujimura, H. & Suzuki, Y., 2009. Effects of carbon dioxide on the coccolithophorid Pleurochrysis carterae in incubation experiments. Aquatic Biology 7:59-70. Data set title: Seawater carbonate chemistry, primary production, biomass and calcification of plankton and bacteria, 2009.
Chan K. Y. K., Grünbaum D., & O’Donnell M. J., 2011. Effects of ocean-acidification-induced morphological changes on larval swimming and feeding. Journal of Experimental Biology 214(22):3857-3867. Data set title:
Seawater carbonate chemistry and biological processes of sand dollars Dendraster excentricus during experiments, 2011
Chauvin A., Denis V., & Cuet P., 2011. Is the response of coral calcification to seawater acidification related to nutrient loading? Coral Reefs 30(4):911-923. Data set titles: 1) Seawater carbonate chemistry, photosynthesis and calcification rate during experiments with coral Acropora muricata, 2011, 2) Seawater carbonate chemistry and protein and chlorophyll a content per nubbin of Acropora muricata during observations of La Saline fringing reef, La Reunion Island, western Indian Ocean, 2011
Checkley D. M., Dickson A. D., Takahashi M., Radich J. A., Eisenkolb N. & Asch R., 2009. Elevated CO₂ enhances otolith growth in young fish. Science 324:1683. Data set title: Seawater carbonate chemistry and biological parameters during experiments with white sea bass Atractoscion nobilis, 2009
Clavier J., Boucher G. & Garrigue C., 1994. Benthic respiratory and photosynthetic quotients in a tropical lagoon. Comptes Rendus de l'Académie des Sciences - Series III - Sciences de la Vie 317:937-942. Data set title: Seawater carbonate chemistry and calcification in a tropical lagoon study at SW lagoon of New Caledonia, 1993.
Comeau S., Gorsky G., Jeffree R., Teyssié J. L. & Gattuso J.-P., 2009. Impact of ocean acidiﬁcation on a key Arctic pelagic mollusc (Limacina helicina). Biogeosciences 6:1877-1882. Data set title: Seawater carbonate chemistry, shell linear extension and calcification during calcein staining and ⁴⁵Ca experiments with pteropod Limacina helicina.
Comeau S., Gorsky G., Alliouane S. & Gattuso J.-P., 2010. Larvae of the pteropod Cavolinia inflexa exposed to aragonite undersaturation are viable but shell-less. Marine Biology in press:1-5. Data set title: Seawater carbonate chemistry and shell length of Mediterranean pteropod Cavolinia inflexa larvae during experiments, 2009. (Restricted access).
Comeau S., Jeffree R., Teyssié J.-L. & Gattuso J.-P., 2010. Response of the Arctic pteropod Limacina helicina to projected future environmental conditions. PLOS ONE 5:e11362. Data set title: Seawater carbonate chemistry during expriments with Limacina helicina, 2009
Connell, S. D., & Russell, B. D., 2010. The direct effects of increasing CO2 and temperature on non-calcifying organisms: increasing the potential for phase shifts in kelp forests. Proceedings of The Royal Society B: Biological Sciences 277(1686):1409-1415. Data set title: Seawater carbonate chemistry and coverage and dry weight of Ecklonia radiata during experiments, 2010
Crawley, A., Kline, D. I, Dunn, S., Anthony, K., & Dove, S., 2009. The effect of ocean acidification on symbiont photorespiration and productivity in Acropora formosa. Global Change Biology 16(2): 851-863. Data set title: Seawater carbonate chemistry and dark respiration and photosynthetic capacity during experiments with coral Acropora formosa, 2010
Crim R. N., Sunday J. M., & Harley C. D. G., 2011. Elevated seawater CO2 concentrations impair larval development and reduce larval survival in endangered northern abalone (Haliotis kamtschatkana). Journal of Experimental Marine Biology and Ecology 400(1-2):272-277. Data set title: Seawater carbonate chemistry and shell length of northern abalone (Haliotis kamtschatkana) during experiments, 2011
Czerny J., Barcelos e Ramos J. & Riebesell U., 2009. Influence of elevated CO₂ concentrations on cell division and nitrogen fixation rates in the bloom-forming cyanobacterium Nodularia spumigena. Biogeosciences 6:1865-1875. Data set title: Seawater carbonate chemistry and processes during experiments with cyanobacterium Nodularia spumigena
De Bodt, C., Van Oostende, N., Harlay, J., Sabbe, K., & Chou, L., 2010. Individual and interacting effects of pCO2 and temperature on Emiliania huxleyi calcification: study of the calcite production, the coccolith morphology and the coccosphere size. Biogeosciences 7(5): 1401-1412. Data set title: Seawater carbonate chemistry, growth rate and Emiliania huxleyi (strain AC481) biological processes during experiments, 2010
Delille B., Harlay, J., Zondervan, I., Stephan, J., Chou, L., Wollast, R., Bellerby, R. G. J., Frankignoulle, M., Borges, A., Riebesell, U., Gattuso, J.-P., 2005. Response of primary production and calcification to changes of pCO₍₂₎ during experimental blooms of the coccolithophorid Emiliania huxleyi. Global Biogeochemical Cycles 19:GB2023. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2001
de Putron S. J., McCorkle D. C., Cohen A. L., & Dillon A. B., 2011. The impact of seawater saturation state and bicarbonate ion concentration on calcification by new recruits of two Atlantic corals. Coral Reefs 30(2):321-328. Data set title: Seawater carbonate chemistry and weight of two Atlantic corals Favia fragum and Porites astreoides during experiments, 2011
Diaz-Pulido G., Gouezo M., Tilbrook B., Dove S. & Anthony K. R., 2011. High CO2 enhances the competitive strength of seaweeds over corals. Ecology Letters 14(2):156-162. Data set title: Seawater carbonate chemistry, nutrients and growth rate of coral (Acropora intermedia) and coral-reef seaweed (Lobophora papenfussii) during experiments, 2011
Dissard D., Nehrke G., Reichart G. J. & Bijma J., 2010. Impact of seawater pCO₂ on calcification and Mg/Ca and Sr/Ca ratios in benthic foraminifera calcite: results from culturing experiments with Ammonia tepida. Biogeosciences 7:81-93. Data set title: Seawater carbonate chemistry and processes during experiments with benthic foraminifera Ammonia tepida.
Dueñas-Bohórquez A., Raitzsch M., de Nooijer L. J., & Reichart G.-J., 2011. Independent impacts of calcium and carbonate ion concentration on Mg and Sr incorporation in cultured benthic foraminifera. Marine Micropaleontology 81(3-4):122-130. Data set title: Seawater carbonate chemistry and impacts of calcium and carbonate ion concentration on Mg and Sr incorporation in cultured benthic foraminifera (Ammonia tepida and Heterostegina depressa), 2011
Dupont S., Moya A., & Bailly X., 2012. Stable photosymbiotic relationship under CO2-induced acidification in the acoel worm Symsagittifera roscoffensis. PLoS ONE 7(1): e29568. Data set title: Seawater carbonate chemistry, growth rate and hatching processes of Symsagittifera roscoffensis during experiments, 2012
Dupont, S., Lundve, B., & Thorndyke, M., 2010. Near future ocean acidification increases growth rate of the lecithotrophic larvae and juveniles of the sea star Crossaster papposus. Journal of Experimental Zoology Part B: Molecular and Developmental Evolution 31B(5):382-389. Data set title: Seawater carbonate chemistry and biological processes during experiments with a Sea Star Crassaster papposus, 2010
Dupont S., Havenhand J., Thorndyke W., Peck L. & Thorndyke M., 2008. Near-future level of CO2-driven ocean acidification radically affects larval survival and development in the brittlestar Ophiothrix fragilis. Marine Ecology Progress Series 373:285-294. Data set title: Seawater carbonate chemistry and morphometric coordinates and morphology of the control 8-arm pluteus of brittlestar Ophiothrix fragilis, 2008
Edmunds P. J., 2011. Zooplanktivory ameliorates the effects of ocean acidification on the reef coral Porites spp. Limnology and Oceanography 56(6): 2402-2410. Data set title: Seawater carbonate chemistry, biomass and calcification or Porites spp. corals during experiments, 2011
Egge J. K., Thingstad, T. F., Engel, A., Bellerby R. G. J., & Riebesell, U., 2009. Primary production during nutrient-induced blooms at elevated CO₂ concentrations. Biogeosciences 6:877-885. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005.
Ellis R. P., Bersey J., Rundle S. D., Hall-Spencer J. M. & Spicer, J. I., 2009. Subtle but significant effects of CO2 acidified seawater on embryos of the intertidal snail,Littorina obtusata. Aquatic Biology 5(1):41-48 Data set title: Seawater carbonate chemistry and Littorina obtusata biological processes during experiments, 2009
Engel A., 2002. Direct relationship between CO₂ uptake and transparent exopolymer particles production in natural phytoplankton. Journal of Plankton Research 24:49-53. Data set title: Seawater carbonate chemistry and particulate organic particles in an incubation study with natural phytoplankton, 2002.

Engel A., Delille B., Jacquet S., Riebesell U., Rochelle-Newall E., Terbrüggen A. & Zondervan I., 2004. Transparent exopolymer particles and dissolved organic carbon production by Emiliania huxleyi exposed to different CO₂ concentrations: a mesocosm experiment. Aquatic Microbial Ecology 34:93-104. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2001

Engel A., Schulz K., Riebesell U., Bellerby R. G. J., Delille B. & Schartau M., 2008. Effects of CO₂ on particle size distribution and phytoplankton abundance during a mesocosm bloom experiment (PeECE II). Biogeosciences 5:509-521. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2003
Engel A., Zondervan I., Aerts K., Beaufort L., Benthien A., Chou L., Delille B., Gattuso J.-P., Harlay J., Heemann C., Hoffmann L., Jacquet S., Nejstgaard J., Pizay M.-D., Rochelle-Newall E., Schneider U., Terbreuggen A. & Riebesell U., 2005. Testing the direct effect of CO₂ concentration on a bloom the coccolithophorid Emiliania huxleyi in mesocosm experiments. Limnology and Oceanography 50:493-507. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2001
Findlay, H. S., Kendall, M. A., Spicer, J. I., & Widdicombe, S., 2010. Relative influences of ocean acidification and temperature on intertidal barnacle post-larvae at the northern edge of their geographic distribution. Estuarine, Coastal and Shelf Science 86(4): 675-682. Data set title: Seawater carbonate chemistry and biological processes during experiments with barnacle Semibalanus balanoides, 2010
Findlay H. S., Kendall M. A., Spicer J. I. & Widdicombe S., 2010. Post-larval development of two intertidal barnacles at elevated CO2 and temperature. Marine Biology 157: 725-735. Data set title: Seawater carbonate chemistry and biological processes during experiments with postlarvae of barnacle of Semibalanus balanoides and Elminius modestus, 2010
Fiorini, S., Middelburg, J. J., & Gattuso, J.-P., in prep. Seawater carbonate chemistry and biological processes during experiments with haploid and diploid life stages of Emiliania huxleyi, Calcidiscus leptoporus and Syracosphaera pulchra, 2009.
Fiorini S., Middelburg J. J., & Gattuso J.-P., 2011. Testing the effects of elevated pCO2 on coccolithophores (Prymnesiophyceae): comparison between haploid and diploid life stages. Journal of Phycology 47(6):1281-1291. Data set title: Seawater carbonate chemistry, nutrients, particulate carbon and growth rate of Emiliania huxleyi (AC472), Calcidiscus leptoporus (AC370) and Syracosphaera pulchra (AC418) during experiments, 2011
Franke A., & Clemmesen C., 2011. Effect of ocean acidification on early life stages of Atlantic herring (Clupea harengus L.). Biogeosciences 8(12): 3697-3707. Data set title: Seawater carbonate chemistry, mortality and hatching rate, size and mass of Clupea harengus during experiments, 2011
Frommel, A. Y., Stiebens, V., Clemmesen, C., & Havenhand, J., 2010. Effect of ocean acidification on marine fish sperm (Baltic cod: Gadus morhua). Biogeosciences7(12): 3915-3919. Data set title: Seawater carbonate chemistry and Gadus morhua length, weight and sperm biological processes, 2010
Gao K., Ruan Z., Villafañe V. E., Gattuso J.-P. & Helbling E. W., 2009. Ocean acidification exacerbates the effect of UV radiation on the calcifying phytoplankter Emiliania huxleyi. Limnology and Oceanography 54:1855-1862. Data set titles: (1) Seawater pH(NBS) and growth rate during experiments with phytoplankton Emiliania huxleyi (CS369), 2009 (2) Seawater carbonate chemistry and processes during experiments with phytoplankton Emiliania huxleyi (CS369), 2009
Gao K. & Zheng Y., 2009. Combined effects of ocean acidification and solar UV radiation on photosynthesis, growth, pigmentation and calcification of the coralline alga Corallina sessilis (Rhodophyta). Global Change Biology 16:2388-2398. Data set title: Seawater carbonate chemistry, pigments and biological processes during experiments with coralline alga Corallina sessilis.
Garrigue C., Clavier J. & Boucher G., 1992. The use of phtosynthesis inhibitor (DCMU) for in situ metabolic and primary production studies on soft bottom benthos. Hydrobiologia 246:141-145. Data set title: Seawater carbonate chemistry and calcification from a tropical lagoon study at SW lagoon, New Caledonia 1991.
Gattuso J.-P., Pichon M., Delesalle B., Canon C. & Frankignoulle M., 1996. Carbon fluxes in coral reefs. I. Lagrangian measurement of community metabolism and resulting air-sea CO2 disequilibrium. Marine Ecology Progress Series 145:109-121. Data set titles: (1) Seawater carbonate chemistry and calcification in tropical reef studies at Moorea (French Polynesia), 1992. (2) Seawater carbonate chemistry and calcification in tropical reef studies at Younge reef (Great Barrier Reef), 1993.
Gattuso J.-P., Payri C. E., Pichon M., Delesalle B. & Frankignouille M., 1997. Primary production, calcification, and air-sea CO₂ fluxes of a macroalgal-dominated coral reef community (Moorea, French Polynesia). Journal of Phycology 33:729-738. Data set title: Seawater carbonate chemistry and calcification in Moorea (French Polynesia), 1992.
Gattuso, J.-P., Frankignoulle, M., Bourge, I., Romaine, S., Buddemeier, R. W., 1998. Effect of calcium carbonate saturation of seawater on coral calcification. Global and Planetary Change 18:37-46. Data set title: Seawater carbonate chemistry and calcification rate of colonies of Stylophora pistillata, 1998
Gazeau F., Gattuso J.-P., Greaves M., Elderfield H., Peene J., Heip C. H. R., & Middelburg J. J., 2011. Effect of Carbonate Chemistry Alteration on the Early Embryonic Development of the Pacific Oyster (Crassostrea gigas). PLoS ONE 6(8):e23010. Data set title: Seawater carbonate chemistry and Pacific oyster (Crassostrea gigas) biological processes during experiments, 2011.
Gazeau F., Quiblier C., Jansen J. M., Gattuso J.-P., Middelburg J. J. & Heip C. H. R., 2007. Impact of elevated CO₂ on shellfish calcification. Geophysical Research Letters 34, L07603. doi:10.1029/2006GL028554. Data set title: Seawater carbonate chemistry and calcification in incubation studies with Mytilus edulis and Grassostrea gigas.
Gazeau, F., Gattuso, J.-P., Dawber, C., Pronker, A. E., Peene, F., Peene, J., Heip, C. H. R., & Middelburg, J. J., 2010. Effect of ocean acidification on the early life stages of the blue mussel Mytilus edulis. Biogeosciences 7(7): 2051-2060. Data set title: Seawater carbonate chemistry and biological processes during experiments with early life stages of the blue mussel Mytilus edulis, 2010
Godinot C., Houlbrèque F., Grover R., & Ferrier-Pagès C., 2011. Coral uptake of inorganic phosphorus and nitrogen negatively affected by simultaneous changes in temperature and pH. PLoS ONE 6(9):e25024. Data set title: Seawater carbonate chemistry, nutrient uptake and biological processes of coral Stylophora pistillata during experiments, 2011
Grossart H.-P., Allgaier M., Passow U. & Riebesell U., 2006. Testing the effect of CO₂ concentration on the dynamics of marine heterotrophic bacterioplankton. Limnology and Oceanography 51:1-11. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2003
Guan W. & Gao K, 2010. Enhanced calcification ameliorates the negative effects of UV radiation on photosynthesis in the calcifying phytoplankter Emiliania huxleyi. Chinese Science Bulletin 55(7):588-593. Data set title: Seawater carbonate chemistry and Emiliania huxleyi biological processes during experiments, 2010
Gutowska M. A., Pörtner H.-O. & Melzner F., 2008. Growth and calcification in the cephalopod Sepia officinalis under elevated seawater pCO₂. Marine Ecology Progress Series 373:303-309. Data set titles: (1) Sepia officinalis standard metobolic rate and seawater pH (NBS) duirng experiments (2) Seawater carbonate chemistry and biological processes during experiments with common cuttlefish Sepia officinalis
Gutowska M. A. & Melzner F., 2009. Abiotic conditions in cephalopod (Sepia officinalis) eggs: embryonic development at low pH and high pCO2. Marine Biology 156(3): 515-519. Data set title: Seawater carbonate chemistry and biological parameters of Sepia officinalis during experiments, 2009
Gutowska, M. A., Melzner, F., Langenbuch, M., Bock, C., Claireaux, G., & Pörtner, H. O., 2010. Acid–base regulatory ability of the cephalopod (Sepia officinalis) in response to environmental hypercapnia. Journal of Comparative Physiology B: Biochemical, Systemic, and Environmental Physiology 180(3): 323-335. Data set title: Seawater carbonate chemistry and biological processes of Sepia officinalis during experiments, 2010
Hale R., Calosi P., McNeill L., Mieszkowska N., & Widdicombe S., 2011. Predicted levels of future ocean acidification and temperature rise could alter community structure and biodiversity in marine benthic communities. Oikos 120(5):661-674. Data set title: Community structure and biodiversity in marine benthic communities during experiments, 2011
Hall-Spencer J. M., Rodolfo-Metalpa R., Martin S., Ransome E., Fine M., Turner S. M., Rowley S. J., Tedesco D. & Buia M.-C., 2008. Volcanic carbon dioxide vents show ecosystem effects of ocean acidification. Nature 454: 96-99. Data set titles: (1) (Supplemental table 2A) Seawater carbonate chemistry in Ischia, Italy, 18 April to 9 May 2007. (2) (Supplemental table 5) Seawater carbonate chemistry in Ischia, Italy, 24-27 April 2008.
Hansen P. J., Lundholm N. & Rost B., 2007. Growth limitation in marine red-tide dinoflagellates: effects of pH versus inorganic carbon availability. Marine Ecology Progress Series 334:63-71. Data set titles: (1) Seawater carbonate chemistry and growth rate in a study with dinoflafellates. (2) Seawater carbonate chemistry and cell numbersin a study with dinoflafellate.
Hata H., Kudo S., Yamano H., Kurano N. & Kayanne H., 2002. Organic carbon flux in Shiraho coral reef (Ishigaki Island, Japan). Marine Ecology Progress Series 232:129-140. Data set title: Seawater carbonate chemistry in a study at Shiraho coral reef (Ishigaki Island, Japan),1998.
Hauton C., Tyrrell, T., Williams, J., 2009. The subtle effects of sea water acidification on the amphipod Gammarus locusta. Biogeosciences 6:1479-1489. Data set title: Seawater carbonate chemistry and processes during experiments with amphipod Gammarus locusta, 2009.
Hernroth B., Baden S., Thorndyke M., & Dupont S., 2011. Immune suppression of the echinoderm Asterias rubens (L.) following long-term ocean acidification. Aquatic Toxicology 103(3-4): 222-224. Data set title: Seawater carbonate chemistry and echinoderm Asterias rubens biological processes during experiments, 2011
Hikami M., Ushie H., Irie T., Fujita K., Kuroyanagi A., Nojiri Y., Sakai K., Suzuki A., & Kawahata H., in press. Contrasting calcification responses to ocean acidification between two reef foraminifers harboring different algal symbionts. Geophysical Research Letters doi:10.1029/2011GL048501. Data set title: Seawater carbonate chemistry and biological processes of Amphisorus hemprichii, Amphisorus kudakajimensis and Calcarina gaudichaudii during experiments, 2011
Hoppe C. J. M., Langer G., & Rost B., 2011. Emiliania huxleyi shows identical responses to elevated pCO2 in TA and DIC manipulations. Journal of Experimental Marine Biology and Ecology 406(1-2): 54-62. Data set title: Seawater carbonate chemistry and biological processes of Emiliania huxleyi (strains RCC1256 and NZEH) during experiments, 2011
Houlbrèque F., Rodolfo-Metalpa R., Jeffree R., Oberhänsli F., Teyssié J.-L., Boisson F., Al-Trabeen K., & Ferrier-Pagès C., sbm. Effects of increased pCO2 on zinc bioaccumulation and calcification in the tropical coral Stylophora pistillata. Data set title: Seawater carbonate chemistry, calcification and Zn uptake during experiments with coral Stylophora pistillata (restricted access)
Holcomb M., McCorkle D. C., & Cohen A. L., 2010. Long-term effects of nutrient and CO2 enrichment on the temperate coral Astrangia poculata (Ellis and Solander, 1786). Journal of Experimental Marine Biology and Ecology. 386(1-2):27-33. Data set titles: (1) Seawater carbonate chemistry in Great Harbor, Woods Hole, North-West Atlantic, 2005-2009. (2) Seawater carbonate chemistry, nutrients and growth rate during experiments with coral Astrangia poculata, 2010
Hopkinson, B. M., Dalin Shi, Y. X., McGinn, P. J., & Morel, F. M. M., 2010. The effect of CO2 on the photosynthetic physiology of phytoplankton in the Gulf of Alaska.Limnology and Oceanography 55(5):2011-2024. Data set title: Seawater carbonate chemistry, pigments and proteins during experiments with phytoplankton, 2010
Hu M. Y.-A., Tseng Y.-C., Stumpp M., Gutowska M. A. , Kiko R., Lucassen M., & Melzner F.,2011. Elevated seawater pCO2 differentially affects branchial acid-base transporters over the course of development in the cephalopod Sepia officinalis. American Journal of Physiology 300(5):R1100-R1114. Data set title: Seawater carbonate chemistry, mass, length and gene expression of Sepia officinalis during experiments, 2011
Iglesias-Rodriguez M. D., Halloran P. R., Rickaby R. E. M., Hall I. R., Colmenero-Hidalgo E., Gittins J. R., Green D. R. H., Tyrrell T., Gibbs S. J., von Dassow P., Rehm E., Armbrust E. V. & Boessenkool K. P., 2008. Phytoplankton calcification in a high-CO₂ world. Science 320:336-340. Data set title: Seawater carbonate chemistry and processes from a study with Emiliania huxleyi.
Ihnken S., Roberts S., & Beardall J., 2011. Differential responses of growth and photosynthesis in the marine diatom Chaetoceros muelleri to CO2 and light availability. Phycologia 50(2): 182–193. Data set title: Seawater carbonate chemistry, growth rate and light sensitivity of marine diatom Chaetoceros muelleri during experiments, 2011
Inoue M., Suwa R., Suzuki A., Sakai K., & Kawahata H., 2011. Effects of seawater pH on growth and skeletal U/Ca ratios of Acropora digitifera coral polyps. Geophysical Research Letters 38: L12809. doi: 10.1029/2011GL047786. Data set title: Seawater carbonate chemistry, Acropora digitifera growth and skeletal U/Ca ratios during experiments, 2011
Johnson V. R., Brownlee C., Rickaby R. E. M., Graziano M., Milazzo M. & Hall-Spencer J. M., in press. Responses of marine benthic microalgae to elevated CO2. Marine Biology. doi: 10.1007/s00227-011-1840-2. Parent set title (3): Responses of marine benthic microalgae to elevated CO2
Jury C. P., Whitehead R. F. & Szmant A. M., 2009. Effects of variations in carbonate chemistry on the calcification rates of Madracis mirabilis (Duchassaing 1861): Bicarbonate concentrations best predict calcification rates. Global Change Biology 16:1632-1644. Data set title: Seawater carbonate chemistry and calcification during experiments with a coral Madracis auretenra, 2009
Kayanne H., Hata H., Kudo S., Yamano H., Watanabe A., Ikeda Y., Nozaki K., Kato K., Negishi A. & Saito H., 2005. Seasonal and bleaching-induced changes in coral reef metabolism and CO₂ flux. Global Biogeochemical Cycles 19:BG3015. Data set title: Seawater carbonate chemistry seasonal observations, 1998-2000.
Kim J.-M., Lee K., Shin K., Kang J.-H., Lee H.-W., Kim M., Jang P.-G. & Jang M.-C., 2006. The effect of seawater CO₂ concentration on growth of a natural phytoplankton assemblage in a controlled mesocosm experiment. Limnology and Oceanography 51:1629-1636. Data set title: Seawater carbonate chemistry, particulate organic particles, nutrients and species data form a study with diatoms.
Kisakürek B., Eisenhauer A., Böhm F., Hathorne E. C., & Erez J., 2011. Controls on calcium isotope fractionation in cultured planktic foraminifera, Globigerinoides ruber and Globigerinella siphonifera. Geochimica et Cosmochimica Acta 75(2):427-443. Data set title: Seawater carbonate chemistry and biological processes of foraminifera, Globigerinoides ruber and Globigerinella siphonifera during experiments, 2011
Kranz S. A., Sültemeyer D., Richter K.-U. & Rost B., 2009. Carbon acquisition by Trichodesmium: the effect of pCO₂ and diurnal changes. Limnology and Oceanography 54:548-559. Data set title: Seawater carbonate chemistry and processes during experiments with cyanobacterium Trichodesmium (IMS101), 2009
Krief S., Hendy E. J., Fine M., Yam R., Meibom A., Foster G. L., & Shemesh A., 2010. Physiological and Isotopic Responses of Scleractinian Corals to Ocean Acidification. Geochimica et Cosmochimica Acta 74(17):4988-5001. Data set title: Seawater carbonate chemistry and biological processed during experiments with corals Porites sp. & Stylophora pistillata, 2010
Krug S. A., Schulz K. G., & Riebesell U., 2011. Effects of changes in carbonate chemistry speciation on Coccolithus braarudii: a discussion of coccolithophorid sensitivities. Biogeosciences 8(3):771-777. Data set title: Seawater carbonate chemistry and biological processes during experiments with Coccolithus braarudii, 2011
Kuffner I. B., Andersson A. J., Jokiel P. L., Rodgers K. S. & Mackenzie F. T., 2008. Decreased abundance of crustose coralline algae due to ocean acidification. Nature Geoscience 1:114-117. Data set titles: (1) Seawater carbonate chemistry in a mesocosm study. (2) Seawater carbonate chemistry and encrusting algal communities in a mesocosm study.
Kurihara H. & Shirayama Y., 2004. Effects of increased atmospheric CO₂ on sea urchin early development. Marine Ecology Progress Series 274:161-169. Data set title: Seawater carbonate chemistry and processes during experiments with seaurchins Hemicentrotus pulcherrimus and Echinometra mathaei.
Kurihara H., Kato S. & Ishimatsu A., 2007. Effects of increased seawater pCO₂ on early development of the oyster Crassostrea gigas. Aquatic Biology 1:91-98. Data set title: Seawater carbonate chemistry and processes during experiments with Crassostrea gigas, 2007.
Jokiel P. L., Rodgers K. S., Kuffner I. B., Andersson A. J., Cox E. F. & Mackenzie F. T., 2008. Ocean acidification and calcifying reef organisms: a mesocosm investigation. Coral Reefs 27(3):473-483. Data set title: Seawater carbonate chemistry and calcification rate during mesocosm experiments with coral Montipora capitata.
Lacoue-Labarthe T., Martin S., Oberhänsli F., Teyssié J.-L., Markich S., Jeffree R. & Bustamante P., 2009. Effects of increased pCO₂ and temperature on trace element (Ag, Cd and Zn) bioaccumulation in the eggs of the common cuttlefish, Sepia officinalis. Biogeosciences 6:2561-2573. Data set title: Seawater carbonate chemistry and trace element accumulation during experiments with common cuttlefish, Sepia officinalis, 2009
Lacoue-Labarthe T., Martin S., Oberhänsli F., Teyssié J.-L., Jeffree R., Gattuso J.-P., Bustamante P., 2011. Temperature and pCO2 effect on the bioaccumulation of radionuclides and trace elements in the eggs of the common cuttlefish, Sepia officinalis. Journal of Experimental Marine Biology and Ecology 413: 45-49. Data set title: Seawater carbonate chemistry and trace element accumulation during experiments with common cuttlefish, Sepia officinalis, 2009
Lacoue-Labarthe T., Reveillac E., Oberhansli F., Teyssie J. L., Jeffree R., & Gattuso J. P., 2011. Effects of ocean acidification on trace element accumulation in the early-life stages of squid Loligo vulgaris. Aquatic Toxicology 105(1-2):166-176. Data set title: Seawater carbonate chemistry and accumulation of radiotracers in squid, Loligo vulgaris during experiments, 2011
Langer, G., Geisen, M., Baumann, K.-H., Kläs, J., Riebesell, U., Thoms, S.,Young J. R., 2006. Species-specific responses of calcifying algae to changing seawater carbonate chemistry. Geochemistry Geophysics Geosystems. 7: Q09006. Data set title: Seawater carbonate chemistry, growth rate and processes during experiments with Coccolithus pelagicus and Calcidiscus leptoporus.
Langer G., Nehrke G., Probert I., Ly J. & Ziveri P., 2009. Strain-specific responses of Emiliania huxleyi to changing seawater carbonate chemistry. Biogeosciences 6:2637-2646. Data set title: Seawater carbonate chemistry and biological processes during experiments with four strains of Emiliania huxleyi.
Langdon C. & Atkinson M. J., 2005. Effect of elevated pCO₂ on photosynthesis and calcification of corals and interactions with seasonal change in temperature/irradiance and nutrient enrichment. Journal of Geophysical Research- Oceans 110:C09S07. Data set title: Seawater carbonate chemistry, calcification and photosynthesis during experiments with corals, 2005.
Langdon C., Broecker W. S., Hammond D. E., Glenn E., Fitzsimmons K., Nelson S. G., Peng T.-H., Hajdas I. & Bonani, G., 2003. Effect of elevated CO₂ on the community metabolism of an experimental coral reef. Global Biogeochemical Cycles 17(1):1011. Data set title: Seawater carbonate chemistry and community metabolism during a study with a coral reef.
Langdon C., Takahashi T., Marubini F., Atkinson M., Sweeney C., Aceves H., Barnett H., Chipman D. & Goddard J., 2000. Effect of calcium carbonate saturation state on the rate of calcification of an experimental coral reef. Global Biogeochemical Cycles 14:639–654. Data set title: Seawater carbonate chemistry and processes during an experiment with coral reef, 2000
Langer G. & Bode M., 2011. CO2 mediation of adverse effects of seawater acidification in Calcidiscus leptoporus. Geochemistry Geophyssics Geosystems 12:Q05001. Data set title: Seawater carbonate chemistry, growth rate and morphology of Calcidiscus leptoporus (RCC1135) during experiments, 2011.
Lannig, G., Eilers, S., Pörtner, H.-O., Sokolova, I.M., & Bock, C., 2010. Impact of Ocean Acidification on Energy Metabolism of Oyster, Crassostrea gigas—Changes in Metabolic Pathways and Thermal Response. Marine Drugs 8(8):2318-2339. Data set title: Seawater carbonate chemistry and biological processes of mussel Crassostrea gigas during experiments, 2011.
Larsen J. B., Larsen A., Thyrhaug R., Bratbak G. & Sandaa R.-A., 2007. Marine viral populations detected during a nutrient induced phytoplankton bloom at elevated pCO₂ levels. Biogeosciences Discussions 4:3961-3985. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005.
Leclercq, N., Gattuso, J.-P., & Jaubert, J., 2000. CO2 partial pressure controls the calcification rate of a coral community. Global Change Biology 6(3): 329-334. Data set title: Seawater carbonate chemistry and calcification during experiments with coral communities, 2000.
Leclercq, N., Gattuso, J.-P., & Jaubert, J., 2002. Primary production, respiration, and calcification of a coral reef mesocosm under increased CO2 partial pressure. Limnology & Oceanography 47(2):558-564. Data set title: Seawater carbonate chemistry and calcification during experiments with coral communities, 2002
Lefebvre S. C., Benner I., Stillman J. H., Parker A. E., Drake M. K., Rossignol P. E., Okimura K. M., Komada T., & Carpenter E. J., in press. Nitrogen source and pCO2 synergistically affect carbon allocation, growth and morphology of the coccolithophore Emiliania huxleyi: potential implications of ocean acidification for the carbon cycle. Global Change Biology doi:10.1111/j.1365-2486.2011.02575.x. Data et title: Seawater carbonate chemistry and carbon allocation, growth and morphology of the coccolithophore Emiliania huxleyi (calcifying strain CCMP 371) during experiments, 2011
Lischka S., Büdenbender J., Boxhammer T. & Riebesell U., 2011. Impact of ocean acidification and elevated temperatures on early juveniles of the polar shelled pteropod Limacina helicina: mortality, shell degradation, and shell growth. Biogeosciences 8(4):919-932. Data set title: Seawater carbonate chemistry and biological processes of Limacina helicina during experiments, 2011
Lombardi, C., Rodolfo-Metalpa, R., Cocito, S., Gambi, M. C. & Taylor, P. D., 2011. Structural and geochemical alterations in the Mg calcite bryozoan Myriapora truncata under elevated seawater pCO2 simulating ocean acidification. Marine Ecology 32(2):211-221. Data set title: Seawater carbonate chemistry and MgCO3 concentration in bryozoan Myriapora truncata branches during experiments, 2011
Løvdal T., Eichner C., Grossart H.-P., Carbonnel V., Chou L., Martin-Jézéquel V. & Thingstad T. F., 2008. Competition for inorganic and organic forms of nitrogen and phosphorous between phytoplankton and bacteria during an Emiliania huxleyi spring bloom. Biogeosciences 5:371-383. Data set titles: (1) PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2003. (2) PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005.
Maier C., Watremez P., Taviani M., Weinbauer M. G., & Gattuso J.-P., in press. Calcification rates and the effect of ocean acidification on Mediterranean cold-water corals. Proceedings of the Royal Society B doi:10.1098/rspb.2011.1763. Data set title: Seawater carbonate chemistry, nutrients and calcification during experiments with cold-water scleractinian corals (Lophelia pertusa, Madrepora oculata and Desmophyllum dianthus), 2011
Martin S., Clavier J., Chauvaud L. & Thouzeau G., 2007. Community metabolism in temperate maerl beds. I. Carbon and carbonate fluxes. Marine Ecology Progress Series 335:19-29. Data set title: Seawater carbonate chemistry and calcification during experiments with maerl beds.
Martin S., Clavier J., Chauvaud L. & Thouzeau G., 2007. Community metabolism in temperate maerl beds. II. Nutrient fluxes. Marine Ecology Progress Series 335:31-41. Data set title: Seawater carbonate chemistry and calcification during experiments with maerl beds.
Martin S., Thouzeau G., Richard M., Chauvaud L., Jean F. & Clavier J., 2007. Benthic community respiration in areas impacted by the invasive mollusk Crepidula fornicata. Marine Ecology Progress Series 347:51-60. Data set title: Seawater carbonate chemistry and calcification during experiments with maerl beds.
Martin S., Richier S., Pedrotti, M.-L., Dupont S., Castejon C., Gerakis Y., Kerros M.-E., Oberhansli F., Teyssie J.-L., Jeffree R., & Gattuso J.-P., 2011. Early development and molecular plasticity in the Mediterranean sea urchin Paracentrotus lividus exposed to CO2-driven acidification. Journal of Experimental Biology 214:1357-1368. Data set title: Seawater carbonate chemistry and sea urchin Paracentrotus lividus biological processes duirng experiments, 2011
Marchant, H. K., Calosi, P., & Spicer, J. I., 2010. Short-term exposure to hypercapnia does not compromise feeding, acid–base balance or respiration of Patella vulgata but surprisingly is accompanied by radula damage. Journal of the Marine Biological Association of the United Kingdom 90(7): 1379-1384. Data set title: (1) Seawater carbonate chemistry during experiments with Patella vulgata, 2010 (2) Seawater carbonate chemistry and biological processes during experiments with Patella vulgata, 2010
Marubini F., Ferrier-Pagès C. & Cuif J.-P., 2003. Suppression of skeletal growth in scleractinian corals by decreasing ambient carbonate-ion concentration: a cross-family comparison. Proceedings of the Royal Society of London. Series B: Biological Sciences 270:179-184. Data set titles: (1) Seawater carbonate chemistry during experiments with corals. (2) Growth rate and protein content of coral during experiments with corals.
Marubini F., Ferrier-Pagès C., Furla P. & Allemand D., 2008. Coral calcification responds to seawater acidification: a working hypothesis towards a physiological mechanism. Coral Reefs 27:491-499. Data set title: Seawater carbonate chemistry and calcification during experiments with corals.
McClintock, J. B., Angus, R. A., Mcdonald, M. R., Amsler, C. D., Catledge, S. A. & Vohra, Y. K., 2009. Rapid dissolution of shells of weakly calcified Antarctic benthic macroorganisms indicates high vulnerability to ocean acidification. Antarctic Science 21(5): 449-456. Data set title: Seawater carbonate chemistry and shell weights of Laternula elliptica, Yoldia eightsi, Nacella concinna and Liothyrella uva during experiments, 2009
Melatunan S., Calosi P., Rundle S. D., Moody A. J., & Widdicombe S., 2011. Exposure to elevated temperature and pCO2 reduces respiration rate and energy status in the periwinkle Littorina littorea. Physiological and Biochemical Zoology 84(6): 583-594. Data set title: Seawater carbonate chemistry and energy status in the periwinkle Littorina littorea during experiments, 2011
Melzner F., Stange P., Trübenbach K., Thomsen J., Casties I., Panknin U., Gorb S. N., & Gutowska M. A., 2011. Food Supply and Seawater pCO2 Impact Calcification and Internal Shell Dissolution in the Blue Mussel Mytilus edulis. PLoS ONE 6(9):e24223. Data set title: Seawater carbonate chemistry and biological processes of Mytilus edulis during experiments, 2011
Michaelidis B., Ouzounis C., Paleras A. & Pörtner H. O., 2005. Effects of long-term moderate hypercapnia on acid-base balance and growth rate in marine mussels Mytilus galloprovincialis. Marine Ecology Progress Series 293:109-118. Data set title: Seawater carbonate chemistry and processes during experiments with marinemussel, Mytilus galloprovincialis, 2005.
Milligan A. J., Varela D. E., Brzezinski M. A. & Morel F. O. M. M., 2004. Dynamics of silicon metabolism and silicon isotopic discrimination in a marine diatom as a function of pCO₂. Limnology and Oceanography 49:322-329. Data set title: Seawater carbonate chemistry and silica data during a study with a marine diatom.
Moulin L., Catarino A. I., Claessens T., & Dubois P., 2011. Effects of seawater acidification on early development of the intertidal sea urchin Paracentrotus lividus (Lamarck 1816). Marine Pollution Bulletin 62(1):48-54. Data set title: Effects of seawater acidification on early development of the intertidal sea urchin Paracentrotus lividus, seawater carbonate chemistry and biological processes
Munday P. L., Dixson D. L., Donelson J. M., Jones G. P., Pratchett M. S., Devitsina G. V., & Døving K. B., 2009. Ocean acidification impairs olfactory discrimination and homing ability of a marine fish. Proceedings of the National Academy of Sciences of the United States of America 106(6):1848-1852. Data set title: Seawater carbonate chemistry and biological processes during experiments with clownfish Amphiprion percula.
Munday P. L., Crawley N. E., & Nilsson G. E., 2009. Interacting effects of elevated temperature and ocean acidification on the aerobic performance of coral reef fishes. Marine Ecology Progress Series 388: 235-242. Data set title: Seawater carbonate chemistry and aerobic performance of coral reef fishes during experiments, 2009
Munday P. L., Gagliano M., Donelson J. M., Dixson D. L., & Thorrold S. R., 2011. Ocean acidification does not affect the early life history development of a tropical marine fish. Marine Ecology Progress Series 423:211-221. Data set title: Seawater carbonate chemistry, lenght, mass and otholith development of spiny damselfish Acanthochromis polyacanthus during experiments, 2011
Müller, M. N., Schulz, K. G., & Riebesell, U., 2010. Effects of long-term high CO2 exposure on two species of coccolithophores. Biogeosciences 7(3): 1109-1116. Data set title: Seawater carbonate chemistry and processes during experiments with Emiliania huxleyi (2005 Bergen) and Coccolithus braarudii (RCC 1200), 2010
Nakamura T. & Nakamori T., 2009. Estimation of photosynthesis and calcification rates at a fringing reef by accounting for diurnal variations and the zonation of coral reef communities on reef flat and slope: a case study for the Shiraho reef, Ishigaki Island, southwest Japan. Coral Reefs 28:229-250. Data set title: Seawater carbonate chemistry, community calcification and photosynthesis during a study with coral reefs at Shiraho reef, Ishigaki Island, southwest Japan.
Nakamura M., Ohki S., Suzuki A., & Sakai K., 2011. Coral Larvae under Ocean Acidification: Survival, Metabolism, and Metamorphosis. PLoS ONE 6(1): e14521. Data set title: Seawater carbonate chemistry, survival, metamorphosis and respiration rate of coral Acropora digitifera during experiments, 2011
Nowicki J. P., Miller G. M., & Munday P. L., in press. Interactive effects of elevated temperature and CO2 on foraging behavior of juvenile coral reef fish. Journal of Experimental Marine Biology and Ecology doi:10.1016/j.jembe.2011.10.020. Data set title: Seawater carbonate chemistry and Amphiprion melanopus activity during experiments, 2011
Ohde S. & Hossain M. M. M., 2004. Effect of CaCO₃ (aragonite) saturation state of seawater on calcification of Porites coral. Geochemical Journal 38:613-621. Data set title: Seawater carbonate chemistry and calcification during a study of Porites coral.
Pane E. F. & Barry J. P., 2007. Extracellular acid-base regulation during short-term hypercapnia is effective in a shallow-water crab, but ineffective in a deep-sea crab. Marine Ecology Progress Series 334:1-9. Data set title: Seawater carbonate chemistry and processes during a study with Chionoecetes tanneri and Cancer magister.
Pascal P.-Y., Fleeger J. W., Galvez F., & Carman K. R., 2010. The toxicological interaction between ocean acidity and metals in coastal meiobenthic copepods. Marine Pollution Bulletin 60(12):2201-2208. Data set title: Seawater carbonate chemistry and biological processes of zooplankton Amphiascoides atopus and Schizopera knabeni during experiments, 2010
Paulino A. I., Egge J. K., & Larsen A., 2008. Effects of increased atmospheric CO₂ on small and intermediate sized osmotrophs during a nutrient induced phytoplankton bloom. Biogeosciences 5:739-748. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005.
Pistevos J. C. A., Calosi P., Widdicombe S., & Bishop J. D. D., in press. Will variation among genetic individuals influence species responses to global climate change? Oikos doi:10.1111/j.1600-0706.2010.19470.x. Data set title: Seawater carbonate chemistry and Celleporella hyalina biological processes during experiments, 2011
Raitzsch M., Dueñas-Bohórquez A., Reichart G.-J., de Nooijer L. J. & Bickert, T., 2010. Incorporation of Mg and Sr in calcite of cultured benthic foraminifera: impact of calcium concentration and associated calcite saturation state. Biogeosciences 7(3):869-881. Data set title: Incorporation of Mg and Sr in calcite of cultured benthic foraminifera (Heterostegina depressa and Ammonia tepida) and seawater carbonate chemistry, 2010
Range, P., ChÌcharo, M.A., Ben-Hamadou, R., PilÛ, D., Matias, D., Joaquim, S., Oliveira, A.P., & ChÌcharo, L., 2011. Calcification, growth and mortality of juvenile clams Ruditapes decussatus under increased pCO2 and reduced pH: Variable responses to ocean acidification at local scales? Journal of Experimental Marine Biology and Ecology 396(2):177-184. Data set title: Seawater carbonate chemistry and Ruditapes decussatus biological processes during experiments, 2011
Renegar D. A. & Riegl B. M., 2005. Effect of nutrient enrichment and elevated CO₂ partial pressure on growth rate of Atlantic scleractinian coral Acropora cervicornis. Marine Ecology Progress Series 293:69-76. Data set title: Seawater carbonate chemistry and growth rate during experiments with coral Acropora cervicornis.
Reynaud S., Leclercq N., Romaine-Lioud S., Ferrier-Pagès C., Jaubert J. & Gattuso J.-P., 2003. Interacting effects of CO₂ partial pressure and temperature on photosynthesis and calcification in a scleractinian coral. Global Change Biology 9:1660-1668. Data set title: Seawater carbonate chemistry, photosynthesis, respiration and calcification during experiments with scleractinian coral.
Richier, S., Fiorini, S., Kerros, M.-E., von Dassow, P., & Gattuso, J.-P., 2011. Response of the calcifying coccolithophore Emiliania huxleyi to low pH/high pCO2: from physiology to molecular level. Marine Biology 158(3):551-560. Data set title: Response of the calcifying coccolithophore Emiliania huxleyi to low pH/high pCO2: from physiology to molecular level, 2011
Rickaby, R. E. M., Henderiks, J., & Young, J. N., 2010. Perturbing phytoplankton: response and isotopic fractionation with changing carbonate chemistry in two coccolithophore species. Climate of the Past 6(6): 771-785. Data set title: Seawater carbonate chemistry and biological processes of coccolithophore (Gephyrocapsa oceanica and Coccolithus pelagicus ssp. braarudii) during experiments, 2011

Riebesell U., 2004. Effects of CO₂ enrichment on marine phytoplankton. Journal of Oceanography 60:719-729. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2001.

Riebesell U., Bellerby R. G. J., Grossart H.-P. & Thingstad F., 2008. Mesocosm CO₂ perturbation studies: from organism to community level. Biogeosciences 5:1157-1164. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005.
Riebesell U., Revill A. T., Holdsworth D. G. & Volkman J. K., 2000. The effects of varying CO₂ concentration on lipid composition and carbon isotope fractionation in Emiliania huxleyi. Geochimica et Cosmochimica Acta 64:4179-4192. Data set title: Seawater carbonate chemistry and processes during experiments with Emiliania huxleyi (PML B92/11).

Riebesell U., Zondervan I., Rost B., Tortell P. D. & Morel F. M. M., 2000. Reduced calcification of marine plankton in response to increased atmospheric CO₂. Nature 407:364-367. Data set titles: (1) Seawater carbonate chemistry and processes during experiments with Emiliania huxleyi (strain PML B93/11A) (2) Seawater carbonate chemistry and processes during experiments with coccolithophores (Emiliania huxleyi and Gephyrocapsa oceanica), 2000.

Riebesell U., Schulz K. G., Bellerby R. G. J., Botros M., Fritsche P., Meyerhöfer M., Neill C., Nondal G., Oschlies A., Wohlers J. & Zöllner E., 2007. Enhanced biological carbon consumption in a high CO₂ ocean. Nature 450:545-549. Data set title:PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005.
Ries J. B., Cohen A. L. & McCorkle D. C., 2009. Marine calcifiers exhibit mixed responses to CO₂-induced ocean acidification. Geology 37:1131-1134. Data set title: Seawater carbonate chemistry and biological processes during experiments with calcifiing organisms
Ries J. B., Cohen A. L., & McCorkle D. C., 2010. A nonlinear calcification response to CO2-induced ocean acidification by the coral Oculina arbuscula. Coral Reefs 29(3):661-674. Data set title: Seawater carbonate chemistry and biological processes during experiments with coral Oculina arbuscula, 2010
Ries J. B., 2011. A physicochemical framework for interpreting the biological calcification response to CO2-induced ocean acidification. Geochimica et Cosmochimica Acta 75(14):4053-4064. Data set title: Seawater carbonate chemistry and hydrogen ions and carbonate chemistry in calcifying fluid of coral Astrangia poculata during experiments, 2011
Ries J. B., 2011. Skeletal mineralogy in a high-CO2 world. Journal of Experimental Marine Biology and Ecology 403(1-2):54-64. Data set title: Seawater carbonate chemistry, calcification and dissolution response, and skeletal mineralogy of benthic orhanisms during experiments, 2011
Rochelle-Newall E., Delille B., Frankignoulle M., Gattuso J.-P., Jacquet S., Riebesell U., Terbruggen A. & Zondervan I., 2004. Chromophoric dissolved organic matter in experimental mesocosms maintained under different pCO₂ levels. Marine Ecology Progress Series 272:25-31. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2001
Rodolfo-Metalpa R., Lombardi C., Cocito S., Hall-Spencer J. M. & Gambi M. C., 2010. Effects of ocean acidification and high temperatures on the bryozoan Myriapora truncata at natural CO₂ vents. Marine Ecology 31:447-456. Data set title: Seawater carbonate chemistry and biological processes duirng experiments with bryozoan Myriapora truncata, 2010
Rodolfo-Metalpa R., Martin S., Ferrier-Pagès C., & Gattuso J.-P., 2010. Response of the temperate coral Cladocora caespitosa to mid- and long-term exposure to pCO2 and temperature levels projected for the year 2100 AD. Biogeosciences 7(1): 289-300. Data set title: Seawater carbonate chemistry and biological processes during experiments with temperate coral Cladocora caespitosa
Roleda M. Y., Morris J. N., McGraw C. M., & Hurd C. L., in press. Ocean acidification and seaweed reproduction: increased CO2 ameliorates the negative effect of lowered pH on meiospore germination in the giant kelp Macrocystis pyrifera (Laminariales, Phaeophyceae). Global Change Biology doi:10.1111/j.1365-2486.2011.02594.x. Data set title: Seawater carbonate chemistry and giant kelp Macrocystis pyrifera reproduction processes during experiments, 2011
Rost B., Zondervan I. & Riebesell U., 2002. Light-dependent carbon isotope fractionation in the coccolithophorid Emiliania huxleyi. Limnology and Oceanography 47:120-128. Data set title: Seawater carbonate chemistry and processes during experiments with Emiliania huxleyi (strain PML B93/11A)
Russell A. D., Hönisch B., Spero H. J. & Lea D. W., 2004. Effects of seawater carbonate ion concentration and temperature on shell U, Mg, and Sr in cultured planktonic foraminifera. Geochimica et Cosmochimica Acta 68:4347-4361. Data set title: Seawater carbonate chemistry, processes and elements during experiments with planktonic foraminifera Orbulina universa.
Russell, B. D., Thompson, J. A. I., Falkenberg, L. J. & Connell, S. D., 2009. Synergistic effects of climate change and local stressors: CO2 and nutrient-driven change in subtidal rocky habitats. Global Change Biology 15(9):2153-2162. Data set title: Seawater carbonate chemistry, and Lithophyllum sp. and Feldmannia spp. coverage and dry weight during experiments, 2009
Schram J. B., McClintock J. B., Angus R. A., & Lawrence J. M., 2011. Regenerative capacity and biochemical composition of the sea star Luidia clathrata (Say) (Echinodermata: Asteroidea) under conditions of near-future ocean acidification.Journal of Experimental Marine Biology and Ecology 407(2):266-274. Data set title: Seawater carbonate chemistry, mass, size and regenerative capacity of Luidia clathrata during experiments, 2011
Schneider K. & Erez J., 2006. The effect of carbonate chemistry on calcification and photosynthesis in the hermatypic coral Acropora eurystoma. Limnology and Oceanography 51:1284-1293. Data set title: Seawater carbonate chemistry and processes during experiments with coral Acropora eurystoma.
Schulz K., Riebesell U., Bellerby R. G. J., Biswas H., Meyerhofer M., Muller M. N., Egge J. K., Nejstgaard J. C., Neill C., Wohlers J. & Zöllner, 2008. Build-up and decline of organic matter during PeECE III. Biogeosciences 5:707-718. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005.
Sciandra A., Harlay J., Lefèvre D., Lemée R., Rimmelin P., Denis M. & Gattuso J.-P., 2003. Response of the coccolithophorid Emiliania huxleyi to elevated partial pressure of CO₂ under nitrate limitation. Marine Ecology Progress Series 261:111-122. Data set title: Seawater carbonate chemistry and processes during experiments with Emiliania huxleyi (TW1), 2003.
Shamberger K. E. F., Feely R. A., Sabine C. L., Atkinson M. J., DeCarlo E. H., Mackenzie F. T., Drupp P. S., & Butterfield D. A., 2011. Calcification and organic production on a Hawaiian coral reef. Marine Chemistry 127(1-4):64-75. Data set title: Seawater carbonate chemistry and net ecosystem calcification and production in a coral community Kaneohe Bay, Oahu, Hawaii, 2011
Silverman J., Lazar B., &. Erez J., 2007. Effect of aragonite saturation, temperature, and nutrients on the community calcification rate of a coral reef. Journal of Geophysical Research 112:C05004. Data set title: Seawater carbonate chemistry, calcification and dissolution of a coral reef in the northern Red Sea, 2007
Simpson S. D., Munday P. L., Wittenrich M. L., Manassa R., Dixson D. L., Gagliano M., & Yan H. Y., in press. Ocean acidification erodes crucial auditory behaviour in a marine fish. Biology Letters doi:10.1098/rsbl.2011.0293. Data set title: Seawater carbonate chemistry and biological processes of zooplankton Amphiascoides atopus and Schizopera knabeni during experiments, 2010
Sinha V., Williams J., Meyerhofer M., Riebesell U., Paulino A. I. & Larsen A., 2007. Air-sea fluxes of methanol, acetone, acetaldehyde, isoprene and DMS from a Norwegian fjord following a phytoplankton bloom in a mesocosm experiment. Atmospheric Chemistry and Physics 7:739-755. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005
Sinutok S., Hill R., Doblin M. A., Wuhrer R., and Ralph P. J., 2011. Warmer more acidic conditions cause decreased productivity and calcification in subtropical coral reef sediment-dwelling calcifiers. Limnology and Oceanography 56(4): 1200-1212. Data set title: Seawater carbonate chemistry, calcification rate, oxygen production, maximum quantum yield, symbiont density, chlorophyll concentration and crystal width of Halimeda macroloba, Halimeda cylindracea and Marginopora vertebralis during experiments, 2011
Spero H. J., Bijma J., Lea D. W. & Bemis B. E., 1997. Effect of seawater carbonate concentration on foraminiferal carbon and oxygen isotopes. Nature 390:497-500. Data set title: Seawater carbonate chemistry and foraminiferal carbon and oxygen isotopes.
Stumpp M., Wren J., Melzner F., Thorndyke M. C., & Dupont S., 2011. CO2 induced seawater acidification impacts sea urchin larval development I: elevated metabolic rates decrease scope for growth and induce developmental delay. Comparative Biochemistry and Physiology – Part A: Molecular & Integrative Physiology. 160(3):331-340. Data set title (4): Seawater carbonate chemistry, sample density and Strongylocentrotus purpuratus size, filtering and respiration rate during experiments, 2011
Stumpp M., Dupont S., Thorndyke M.C., and Melzner F., 2011. CO2 induced seawater acidification impacts sea urchin larval development II: Gene expression patterns in pluteus larvae. Comparative Biochemistry and Physiology – Part A: Molecular & Integrative Physiology 160(3):320-330. Data set title: Seawater carbonate chemistry and Strongylocentrotus purpuratus body length and gene expression pattern changes during experiments, 2011
Suffrian K., Simonelli, P., Nejstgaard, J. C., Putzeys, S., Carotenuto, Y., and Antia, A. N., 2008. Microzooplankton grazing and phytoplankton growth in marine mesocosms with increased CO₂ levels. Biogeosciences 5:1145-1156. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005.
Suzuki Y., 1995. The global carbon cycle and the role of the ocean. Geoscience reports of Shizuoka University 22:23-26. Data set title:Seawater carbonate chemistry and calcification.
Suzuki Y., Nakashima N., Yoshida K., Casareto B., Taki M., Hiraga T., Okabayashi T., Ito H. & Yamada K., 1994. The important role of organic matter cycling for the biological fixation of CO₂ in coral reefs. 2nd International Conference on carbon dioxide removal, Kyoto, Japan. Data set title: Seawater carbonate chemistry and calcification.
Suzuki A., Nakamori T. & Kayanne H., 1995. The mechanism of production enhancement in coral reef carbonate systems: model and empirical results. Sedimentary Geology 99:259-280. Data set title: Seawater carbonate chemistry and calcification.
Suwa, R., Nakamura, M., Morita, M. ,Shimada, K., Iguchi, A., Sakai, K., & Suzuki, A., 2010. Effects of acidified seawater on early life stages of scleractinian corals (Genus Acropora). Fisheries Science 76(1):93-99. Data set title: Seawater carbonate chemistry and coral (Acropora digitifera and Acropora tenuis) algal infection rate, survival and surface area of plyps during experiments, 2009

Taddei D., 2006. Transfert de matière et d'énergie dans les sédiments d'un complexe récifal anthropisé (Ile de La Réunion, Océan Indien). PhD, Université de la Réunion, 266 p. Data set title: Seawater carbonate chemistry and reef community calcification near Reunion Island reefs, 2006.

Taddei D., Bucas G., Clavier J., Cuet P. & Frouin P., 2007. Carbon fluxes at the water-sediment interface in Reunion island fringing reef. Western Indian Ocean Journal of Marine Science 6:137-146. Data set title: Seawater carbonate chemistry and calcification.
Talmage, S. C. & Gobler, C. J., 2009. The effects of elevated carbon dioxide concentrations on the metamorphosis, size, and survival of larval hard clams (Mercenaria mercenaria), bay scallops (Argopecten irradians), and Eastern oysters (Crassostrea virginica). Limnology and Oceanography 54(6): 2072-2080. Data set title: Seawater carbonate chemistry and survival of mollusks: Mercenaria mercenaria, Argopecten irradians, and Crassostrea virginica during experiments, 2009.
Talmage, S. T., & Gobler, C. J., 2010. Effects of past, present, and future ocean carbon dioxide concentrations on the growth and survival of larval shellfish. Proceedings of the National Academy of Sciences of the United States of America doi:10.1073/pnas.0913804107. Data set title: Seawater carbonate chemistry and biological processes of bivalve shellfish Mercenaria mercenaria and Argopecten irradians during experiments, 2011
Tanaka T., Thingstad T. F., Løvdal T., Grossart H.-P., Larsen A., Schulz K. G. & Riebesell U., 2008. Availability of phosphate for phytoplankton and bacteria and of labile organic carbon for bacteria at different pCO₂ levels in a mesocosm study. Biogeosciences 5:669-678. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005.
Thomsen J., & Melzner F., 2010. Moderate seawater acidification does not elicit long-term metabolic depression in the blue mussel Mytilus edulis. Marine Biology 157(12):2667-2676. Data set title: Seawater carbonate chemistry and biological processes of Mytilus edulis during experiments, 2010.
Thomsen, J., Gutowska, M. A., Saphörster, J., Heinemann, A., Trübenbach, K., Fietzke, J., Hiebenthal, C., Eisenhauer, A., Körtzinger, A., Wahl, M., & Melzner, F., 2010. Calcifying invertebrates succeed in a naturally CO2-rich coastal habitat but are threatened by high levels of future acidification. Biogeosciences 7(11):3879-3891. Data set title: Seawater carbonate chemistry and Mytilus edulis biological processes during experiments, 2010
Traganza E. D., 1967. Dynamics of the carbon dioxide system on the Great Bahama Bank. Bulletin of Marine Science 17(2):348-366. Data set title: Seawater carbonate chemistry and calcification in the Bahama Bank, 1964-1965
Tribollet A., Godinot C., Atkinson M., & Langdon C., 2009. Effects of elevated pCO2 on dissolution of coral carbonates by microbial euendoliths. Global Biogeochemical Cycles, 23: GB3008. Data set title: Seawater carbonate chemistry and dissolution rates during experiments with corals Porites lobata, 2009
Trimborn S., Wolf-Gladrow D., Richter K.-U. & Rost B., 2009. The effect of pCO₂ on carbon acquisition and intracellular assimilation in four marine diatoms. Journal of Experimental Marine Biology and Ecology 376:26-36. Data set title: Seawater carbonate chemistry and biological processes during experiments with four species of marine diatoms.
Tunnicliffe, V., Davies, K. T. A., Butterfield, D. A., Embley, R. W., Rose, J. W. & Chadwick Jr, W. W., 2009. Survival of mussels in extremely acidic waters on a submarine volcano. Nature Geoscience 2:344 - 348. Data set title: Seawater carbonate chemistry and Bathymodiolus brevior shell variables near Eifuku volcano, Japan, 2009
Tynan S., & Opdyke B. N., 2011. Effects of lower surface ocean pH upon the stability of shallow water carbonate sediments. Science of The Total Environment 409(6):1082-1086. Data set title: Seawater carbonate chemistry and community calcification near Lizar Island, 2011
Vogt M., Steinke M., Turner S., Paulino A., Meyerhöfer M., Riebesell U., LeQuéré C. & Liss P., 2008. Dynamics of dimethylsulphoniopropionate and dimethylsulphide under different CO₂ concentrations during a mesocosm experiment. Biogeosciences 5:407-419. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005.
Walther K., Sartoris F. J. & Pörtner H.-O., in press. Impacts of temperature and acidification on larval calcium incorporation of the spider crab Hyas araneus from different latitudes (54° vs. 79°N). Marine Biology doi:10.1007/s00227-011-1711-x. Data sets: Impact of ocean acidification and warming on the larval development of the spider crab Hyas araneus from different latitudes (54° vs 79°N)
Waldbusser, G. G., Voigt, E. P., Bergschneider, H., Green, M. A., & Newell, R. I. E., 2010. Biocalcification in the Eastern Oyster (Crassostrea virginica) in Relation to Long-term Trends in Chesapeake Bay pH. Estuaries and Coasts. Data set title: Seawater carbonate chemistry and calcification rate of eastern oyster Crassostrea virginica, 2011
Waldbusser G. G., Bergschneider H., & Green M. A., 2010. Size-dependent pH effect on calcification in post-larval hard clam Mercenaria spp. Marine Ecology Progress Series 417:171-182. Data set title: Seawater carbonate chemistry, calcification and shell size of hard clam Mercenaria mercenaria during experiments, 2011
Winans, A. K. & Purcell, J. E., 2010. Effects of pH on asexual reproduction and statolith formation of the scyphozoan, Aurelia labiata. Hydrobiologia 645:39–52. Parent set title (4): Effects of pH on asexual reproduction and statolith formation of the scyphozoan, Aurelia labiata
Wingenter O. W., Haase K. B., Zeigler M., Blake D. R., Rowland F. S., Sive B. C., Paulino A., Thyrhaug R., Larsen A., Schulz K., Meyerhöfer M. & Riebesell U., 2007. Unexpected consequences of increasing CO₂ and ocean acidity on marine production of DMS and CH₂ClI: Potential climate impacts. Geophysical Research Letters 34(5), L05710. Data set title: PeECE- Pelagic Ecosystem CO₂ Enrichment Study, Raunefjord, Bergen, Norway, 2005.
Witt V., Wild C., Anthony K. R. N., Diaz-Pulido G., & Uthicke S., in press. Effects of ocean acidification on microbial community composition of, and oxygen fluxes through, biofilms from the Great Barrier Reef. Environmental Microbiology doi:10.1111/j.1462-2920.2011.02571.x. Data set title: Seawater carbonate chemistry, nitrogen concentration and macro community analyse, 2011
Wong K. K. W., Lane A. C., Leung P. T. Y., & Thiyagarajan V., 2011. Response of larval barnacle proteome to CO2-driven seawater acidification. Comparative Biochemistry and Physiology Part D: Genomics and Proteomics 6(3):310-321. Data set title: Seawater carbonate chemistry and protein sports of barnicle Balanus amphitrite during experiments, 2011
Wu, Y., & Gao, K., 2010. Combined effects of solar UV radiation and CO2-induced seawater acidification on photosynthetic carbon fixation of phytoplankton assemblages in the South China Sea. Chinese Science Bulletin 55(32): 3680-3686. Data set titles: 1) Photosynthetic carbon fixation rate in the seawater equilibrated with 190, 380 and 700 ppmv CO2, as a function of the mean PAR irradiance under P and PAB 2) Mean photosynthetic carbon fixation rate under P, PA and PAB treatments in the seawater equilibrated with 190, 380 and 700 ppmv CO2 and the mean relative inhibition caused by UVR, UV-A and UV-B 3) Seawater carbonate chemistry, Chlorophyll a and photosynthetic carbon fixation rate under different light and pCO2 conditions during experiments, 2010
Wu, Y., Gao, K., & Riebesell, U., 2010. CO2-induced seawater acidification affects physiological performance of the marine diatom Phaeodactylum tricornutum. Biogeosciences 7(9): 2915-2923. Data set title: Seawater carbonate chemistry and diatom Phaeodactylum tricornutum (CCMA 106) biological processes during experiments, 2010
Yates K. K. & Halley R. B., 2006. CO₂ concentration and pCO₂ thresholds for calcification and dissolution on the Molokai reef flat, Hawaii. Biogeosciences 3:357-369. Data set title: Seawater carbonate chemistry and calcification, Molokai reef, Hawaii.

Zondervan I., Zeebe R. E., Rost B. & Riebesell U., 2001. Decreasing marine biogenic calcification: a negative feedback on rising atmospheric pCO₂. Global Biogeochemical Cycles 15:507-516. Data set title: Seawater carbonate chemistry and processes during experiments with Emiliania huxleyi (strain PML B93/11A)

Zondervan I., Rost B. & Riebesell U., 2002. Effect of CO₂ concentration on the PIC/POC ratio in the coccolithophore Emiliania huxleyi grown under light-limiting conditions and different daylengths. Journal of Experimental Marine Biology and Ecology 272:55-70. Data set title: Seawater carbonate chemistry and processes during experiments with Emiliania huxleyi (strain PML B93/11A)
Xu K., Gao K., Villafañe V. E., & Helbling E. W., 2011. Photosynthetic responses of Emiliania huxleyi to UV radiation and elevated temperature: roles of calcified coccoliths. Biogeosciences 8(6):1441-1452. Data set title: Seawater carbonate chemistry and photosynthetic response of Emiliania huxleyi (CS-369) to UV radiation and elevated temperature duirng experiments, 2011