|Geochemical consequences of increased atmospheric carbon dioxide on coral reefs|
JA Kleypas, RW Buddemeier, D Archer, JP Gattuso, C Langdon, ...
science 284 (5411), 118-120, 1999
|Losers and winners in coral reefs acclimatized to elevated carbon dioxide concentrations|
KE Fabricius, C Langdon, S Uthicke, C Humphrey, S Noonan, G De’ath, ...
Nature Climate Change 1 (3), 165-169, 2011
|Impacts of ocean acidification on coral reefs and other marine calcifiers: a guide for future research|
JA Kleypas, RA Feely, VJ Fabry, C Langdon, CL Sabine, LL Robbins
Report of a workshop held 18 (2005), 20, 2005
|Effect of calcium carbonate saturation state on the calciﬁcation rate of an experimental coral reef|
C Langdon, T Takahashi, C Sweeney, D Chipman, J Goddard, F Marubini, ...
Global Biogeochemical Cycles 14 (2), 639-654, 2000
|Effect of elevated pCO2 on photosynthesis and calcification of corals and interactions with seasonal change in temperature/irradiance and nutrient enrichment|
C Langdon, MJ Atkinson
Journal of Geophysical Research: Oceans 110 (C9), 2005
|Poorly cemented coral reefs of the eastern tropical Pacific: Possible insights into reef development in a high-CO2 world|
DP Manzello, JA Kleypas, DA Budd, CM Eakin, PW Glynn, C Langdon
Proceedings of the National Academy of Sciences 105 (30), 10450-10455, 2008
|Elevated consumption of carbon relative to nitrogen in the surface ocean|
RN Sambrotto, G Savidge, C Robinson, P Boyd, T Takahashi, DM Karl, ...
Nature 363 (6426), 248-250, 1993
|Relationships between lorica volume, carbon, nitrogen, and ATP contents of tintinnids in Narrangansett Bay|
PG Verity, C Langdon
J. Plankton Res 6, 859-868, 1984
|Effect of elevated CO2 on the community metabolism of an experimental coral reef|
C Langdon, WS Broecker, DE Hammond, E Glenn, K Fitzsimmons, ...
Global Biogeochemical Cycles 17 (1), 2003
|Ocean acidification compromises recruitment success of the threatened Caribbean coral Acropora palmata|
R Albright, B Mason, M Miller, C Langdon
Proceedings of the National Academy of Sciences 107 (47), 20400-20404, 2010
|On the causes of interspecific differences in the growth-irradiance relationship for phytoplankton. II. A general review|
Journal of Plankton Research 10 (6), 1291-1312, 1988
|Dependence of calcification on light and carbonate ion concentration for the hermatypic coral Porites compressa|
F Marubini, H Barnett, C Langdon, MJ Atkinson
Marine ecology progress series 220, 153-162, 2001
|Vulnerability and adaptation of US shellfisheries to ocean acidification|
JA Ekstrom, L Suatoni, SR Cooley, LH Pendleton, GG Waldbusser, ...
Nature climate change 5 (3), 207-214, 2015
|A comparison of four methods for determining planktonic community production 1|
M Bender, K Grande, K Johnson, J Marra, PJLB Williams, J Sieburth, ...
Limnology and Oceanography 32 (5), 1085-1098, 1987
|Coral reefs and changing seawater carbonate chemistry|
JA Kleypas, C Langdon
Coastal and Estuarine Studies: Coral Reefs and Climate Change Science and …, 2006
|Ocean acidification impacts multiple early life history processes of the Caribbean coral Porites astreoides|
R Albright, C Langdon
Global change biology 17 (7), 2478-2487, 2011
|Effect of aragonite saturation state on settlement and post-settlement growth of Porites astreoides larvae|
R Albright, B Mason, C Langdon
Coral Reefs 27 (3), 485-490, 2008
|Effects of elevated pCO2 on dissolution of coral carbonates by microbial euendoliths|
A Tribollet, C Godinot, M Atkinson, C Langdon
Global Biogeochemical Cycles 23 (3), GB3008, 2009
|Gas transfer experiment on Georges Bank using two volatile deliberate tracers|
R Wanninkhof, W Asher, R Weppernig, H Chen, P Schlosser, C Langdon, ...
Journal of Geophysical Research: Oceans 98 (C11), 20237-20248, 1993
|On the causes of interspecific differences in the growth-irradiance relationship for phytoplankton. Part I. A comparative study of the growth-irradiance relationship of three …|
Journal of plankton research 9 (3), 459-482, 1987