Decadal variability in twentieth-century ocean acidification in the California Current Ecosystem
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[1] R. Feely,et al. The oceanic sink for anthropogenic CO2 from 1994 to 2007 , 2019, Science.
[2] R. Feely,et al. New ocean, new needs: Application of pteropod shell dissolution as a biological indicator for marine resource management , 2017 .
[3] Richard A. Feely,et al. Estimating Total Alkalinity in the Washington State Coastal Zone: Complexities and Surprising Utility for Ocean Acidification Research , 2017, Estuaries and Coasts.
[4] Baoshan Chen,et al. Calcification of the planktonic foraminifera Globigerina bulloides and carbonate ion concentration: Results from the Santa Barbara Basin , 2016 .
[5] Z. Lachkar,et al. Climatic modulation of recent trends in ocean acidification in the California Current System , 2016 .
[6] S. Guikema,et al. Multidecadal increase in North Atlantic coccolithophores and the potential role of rising CO2 , 2015, Science.
[7] R. Feely,et al. Chemical and biological impacts of ocean acidification along the west coast of North America , 2015 .
[8] Atul K. Jain,et al. Global Carbon Budget 2015 , 2015 .
[9] R. Thunell,et al. Morphometric and stable isotopic differentiation of Orbulina universa morphotypes from the Cariaco Basin, Venezuela , 2015 .
[10] S. Nam,et al. Seasonal advection of Pacific Equatorial Water alters oxygen and pH in the Southern California Bight , 2015 .
[11] V. Pospelova,et al. High resolution sedimentary record of dinoflagellate cysts reflects decadal variability and 20th century warming in the Santa Barbara Basin , 2014 .
[12] Atul K. Jain,et al. Global Carbon Budget 2018 , 2014, Earth System Science Data.
[13] R. Rykaczewski,et al. Climate change and wind intensification in coastal upwelling ecosystems , 2014, Science.
[14] R. Feely,et al. Limacina helicina shell dissolution as an indicator of declining habitat suitability owing to ocean acidification in the California Current Ecosystem , 2014, Proceedings of the Royal Society B: Biological Sciences.
[15] Nicholas R. Bates,et al. A Time-Series View of Changing Ocean Chemistry Due to Ocean Uptake of Anthropogenic CO2 and Ocean Acidification , 2014 .
[16] P. Ziveri,et al. The role of ocean acidification in Emiliania huxleyi coccolith thinning in the Mediterranean Sea , 2013 .
[17] N. Gruber,et al. The intensity, duration, and severity of low aragonite saturation state events on the California continental shelf , 2013 .
[18] N. Gruber,et al. Variability and trends of ocean acidification in the Southern California Current System: A time series from Santa Monica Bay , 2013 .
[19] R. Thunell,et al. Planktonic foraminiferal area density as a proxy for carbonate ion concentration: A calibration study using the Cariaco Basin ocean time series , 2013 .
[20] N. Gruber,et al. Changing controls on oceanic radiocarbon: New insights on shallow‐to‐deep ocean exchange and anthropogenic CO2 uptake , 2012 .
[21] R. Feely,et al. Spatiotemporal variability and long-term trends of ocean acidification in the California Current System , 2012 .
[22] Scott C. Doney,et al. Global ocean storage of anthropogenic carbon , 2012 .
[23] G. Plattner,et al. Rapid Progression of Ocean Acidification in the California Current System , 2012, Science.
[24] P. Quay,et al. 13C constraints on ocean carbon cycle models , 2012 .
[25] U. Send,et al. Amplification of hypoxic and acidic events by La Niña conditions on the continental shelf off California , 2011 .
[26] R. Thunell,et al. Carbon isotope composition of Caribbean Sea surface waters: Response to the uptake of anthropogenic CO2 , 2011 .
[27] D. Purdie,et al. Calcification in the planktonic foraminifera Globigerina bulloides linked to phosphate concentrations in surface waters of the North Atlantic Ocean , 2011 .
[28] J. Thepaut,et al. The ERA‐Interim reanalysis: configuration and performance of the data assimilation system , 2011 .
[29] R. Feely,et al. The universal ratio of boron to chlorinity for the North Pacific and North Atlantic oceans , 2010 .
[30] R. Schiebel,et al. Testing planktic foraminiferal shell weight as a surface water [CO32?] proxy using plankton net samples , 2010 .
[31] R. Feely,et al. Direct observations of basin‐wide acidification of the North Pacific Ocean , 2010 .
[32] J. Ries,et al. Marine calcifiers exhibit mixed responses to CO2-induced ocean acidification , 2009 .
[33] G. Plattner. Ocean acidification in the California Current System , 2009 .
[34] H. Moel,et al. Planktic foraminiferal shell thinning in the Arabian Sea due to anthropogenic ocean acidification , 2009 .
[35] R. Lukas,et al. Physical and biogeochemical modulation of ocean acidification in the central North Pacific , 2009, Proceedings of the National Academy of Sciences.
[36] W. Howard,et al. Reduced calcification in modern Southern Ocean planktonic foraminifera , 2009 .
[37] Glenn De'ath,et al. Declining Coral Calcification on the Great Barrier Reef , 2009, Science.
[38] R. Feely,et al. Evidence for Upwelling of Corrosive "Acidified" Water onto the Continental Shelf , 2008, Science.
[39] T. Stocker,et al. High-resolution carbon dioxide concentration record 650,000–800,000 years before present , 2008, Nature.
[40] Toby Tyrrell,et al. Phytoplankton Calcification in a High-CO2 World , 2008, Science.
[41] Richard A. Feely,et al. Impacts of ocean acidification on marine fauna and ecosystem processes , 2008 .
[42] James C. McWilliams,et al. Eddy-resolving simulation of plankton ecosystem dynamics in the California Current System , 2006 .
[43] E. Maier‐Reimer,et al. Anthropogenic ocean acidification over the twenty-first century and its impact on calcifying organisms , 2005, Nature.
[44] James C. McWilliams,et al. The Warming of the California Current System: Dynamics and Ecosystem Implications , 2005 .
[45] Richard A. Feely,et al. Impact of Anthropogenic CO2 on the CaCO3 System in the Oceans , 2004, Science.
[46] K. Caldeira,et al. Oceanography: Anthropogenic carbon and ocean pH , 2003, Nature.
[47] Steven J. Bograd,et al. The biological response to the 1977 regime shift in the California Current , 2003 .
[48] R. Thunell,et al. Using species-specific paleotemperature equations with foraminifera: a case study in the Southern California Bight , 2002 .
[49] S. Barker,et al. Foraminiferal Calcification Response to Glacial-Interglacial Changes in Atmospheric CO2 , 2002, Science.
[50] J. Kennett,et al. A FORAMINIFERAL ISOTOPIC PROXY FOR UPPER WATER MASS STRATIFICATION , 2002 .
[51] N. Mantua,et al. The Pacific Decadal Oscillation , 2002 .
[52] D. Kroon,et al. Molecular evidence for genetic mixing of Arctic and Antarctic subpolar populations of planktonic foraminifers , 2000, Nature.
[53] C. D. Keeling,et al. Spatiotemporal patterns of carbon‐13 in the global surface oceans and the oceanic suess effect , 1999 .
[54] Jelle Bijma,et al. Effect of seawater carbonate concentration on foraminiferal carbon and oxygen isotopes , 1997, Nature.
[55] Dean Roemmich,et al. Climatic Warming and the Decline of Zooplankton in the California Current , 1995, Science.
[56] R. Thunell,et al. Seasonal Variability in the δ18O and δ13C of Planktonic Foraminifera from an Upwelling Environment: Sediment Trap Results from the San Pedro Basin, Southern California Bight , 1991 .
[57] Jerry C. Ritchie,et al. Application of Radioactive Fallout Cesium-137 for Measuring Soil Erosion and Sediment Accumulation Rates and Patterns: A Review , 1990 .
[58] W. Moore. Radium isotope measurements using germanium detectors , 1984 .
[59] A. Moghissi,et al. Three decades on nuclear testing. , 1977, Health physics.
[60] D. Lal,et al. GEOCHRONOLOGICAL STUDIES IN SANTA BARBARA BASIN: 55Fe AS A UNIQUE TRACER FOR PARTICULATE SETTLING , 1973 .
[61] E. Goldberg,et al. Marine geochronology with210Pb , 1972 .
[62] R. Feely,et al. The combined effects of acidification and hypoxia on pH and aragonite saturation in the coastal waters of the California current ecosystem and the northern Gulf of Mexico , 2018 .
[63] Alexander F. Shchepetkin,et al. The regional oceanic modeling system (ROMS): a split-explicit, free-surface, topography-following-coordinate oceanic model , 2005 .
[64] S. Villiers. Optimum growth conditions as opposed to calcite saturation as a control on the calcification rate and shell-weight of marine foraminifera , 2004 .
[65] D. Lea,et al. Reassessing foraminiferal stable isotope geochemistry: Impact of the oceanic carbonate system (experimental results) , 1999 .
[66] C. D. Keeling. The Suess effect: 13Carbon-14Carbon interrelations , 1979 .