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Ocean Acidification: The other CO 2 problem What are the impacts on biology and biodiversity? Rob Dunbar, Stanford University Center for Ocean Solutions dunbar@stanford.edu http://dunbar.stanford.edu
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Impacts on Marine Life 1)Direct effects on carbonate producers Dissolution of shells and skeletons Increased energy demand to build & maintain shells Loss of carbonate reefs Decreased biodiversity
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2) Effects on many other organisms Physiological sensitivities Acidosis, reduced metabolism, torpor Reduced oxygen uptake Reduced reproductive success Compromised immune system Loss of Biodiversity (Fabry et al. 2008 for review)
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(Simon Wright, Australian Antarctic Division) Pristine Coccosphere of E. Huxleyi E. Huxleyi cultured in Southern Ocean under elevated pCO 2 Independent groups have now grown marine nanoalgae at elevated CO 2 levels. Sometimes the “shells” get larger but they always show defects. (Riebesell et al., 2000; Zondervan et al., 2002; Wright, 2006; Barcelos e Ramos,2009; Iglesias-Rodrigues et al., 2008, and others)
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Effect of CO 2 on Sea Urchin Survival Post-Experiment Urchin Condition CO 2 Pool Control Urchins in cage near CO 2 pool Barry et al. 2003, 2004 Jim Barry (MBARI) shows that elevated CO 2 levels are lethal to sea urchins in the deep sea. At ph ~ 0.7, spines dissolve. Other studies show decline in reproductive success.
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5101520 Millions of Years Ago Tripati et al., 2009 Today (387 ppmv)
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5101520 Millions of Years Ago Tripati et al., 2009 Today (387 ppmv) 2030? (450 ppmv)
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LM of the diatom Asteromphalus sp. Image: Fiona Scott An example of impacts on non- carbonate organisms: Threats to the base of the food chain in the Southern Ocean Diatoms – the most important primary producer in the seas around Antarctica In cold waters, carbon chemistry dictates that increasing CO 2 levels have a greater impact on ocean acidity than in warm waters.
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380 ppm CO2 800 ppm CO2 Tortell et al., 2009; Feng et al., 2009; Rose et al., 2009 Highly reproducible experiments using chemostats in Antarctic waters show major changes in relative abundances of marine plants at higher CO 2 levels.
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Feely et al; Gilmer & Harbison, 2004 Pteropods (small marine snails), a major member of the Antarctic plankton, are affected as well. Multiple impacts near base of food chain lead to biodiversity loss in polar food webs.
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“The prospect of ocean acidification is potentially the most serious of all predicted outcomes of anthropogenic CO 2 increase.” - J.E.N. Veron, 9/08
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