|
|
 Tuesday, February 8, 2011 NSF Awards Grants to Scripps Scientists to Study Effects of Ocean Acidification Diverse projects address concern for acidifying marine ecosystems Scripps Institution of Oceanography / University of California, San Diego With increasing levels of carbon dioxide accumulating in the atmosphere and moving into marine systems, the world's oceans are becoming more acidic. Reference samples of seawater are processed in Andrew Dickson's lab to ensure uniform measurements of carbon dioxide and alkalinity in seawater. At Scripps, Marine Chemistry Professor Andrew Dickson will use an associated Major Research Instrumentation (MRI) grant from NSF to create a laboratory system that will enable researchers from a broad array of disciplines to study marine organisms under various controlled seawater conditions - including states that they might encounter under various acidification scenarios. "It opens up possibilities for more Scripps scientists to do this kind of research," said Dickson. The $300,000 project is mostly supported by the NSF grant. Additional funding came from private sources.  Andrew Dickson As oceans become more acidic, the balance of molecules needed for shell-bearing organisms to manufacture shells and skeletons is altered. The physiology of many marine species, from microbes to fish, may be affected. A myriad of chemical reactions and cycles are influenced by the pH of the oceans. Scripps biological oceanographer Lisa Levin will work under an NSF grant to assess pH exposures in living organisms. Levin and her colleagues Ariel Anbar, Gwyneth Gordon and Achim Hermann from Arizona State University will determine if the chemical composition of carbonate structures in squid and mussel larvae reflects changes in seawater chemistry driven by ocean acidification and, in some instances, with associated decline in oxygen levels. "Because squid and mussels (and other mollusks) retain their larval structures as juveniles and adults, we hope ultimately to assess whether their pH exposure as larvae affects later success in life," Levin said. The project will enlist experts in ecology, metal isotope geochemistry and paleoclimatology to identify new proxies for ocean acidification.  Lisa Levin "Ocean acidification likely affects marine ecosystems, life histories, food webs and biogeochemical cycling," said Karl Erb, director of NSF's Office of Polar Programs. "We need to understand the chemistry of ocean acidification and its interplay with marine biochemical and physiological processes before Earth's seas become inhospitable to life as we know it." NSF's ocean acidification award investigators will use diverse approaches such as observational systems, experimental studies, theory and modeling, says Erb, to make important new discoveries about how we're changing the world's oceans. The awards are supported and managed by NSF's Office of Polar Programs, Directorate for Geosciences and Directorate for Biological Sciences. # # # Note to broadcast and cable producers: University of California, San Diego provides an on-campus satellite uplink facility for live or pre-recorded television interviews. Please phone or e-mail the media contact listed above to arrange an interview.
About Scripps Institution of Oceanography
About UC San Diego |
|
