News Release 14-116
Ocean Acidification: NSF awards $11.4 million in new grants to study effects on marine ecosystems
Oceans may be acidifying faster today than in the past 300 million years
September 9, 2014
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With increasing levels of carbon dioxide accumulating in the atmosphere and moving into marine ecosystems, the world's oceans are becoming more acidic.
The oceans may be acidifying faster today than at any time in the past 300 million years, scientists have found.
To address concerns for acidifying oceans, the National Science Foundation (NSF) has awarded new grants totaling $11.4 million through its Ocean Acidification program. The awards are supported by NSF's Directorates for Geosciences and Biological Sciences.
From tropical oceans to icy seas, the projects funded will foster research on the nature, extent and effects of ocean acidification on marine environments and organisms.
"The Ocean Acidification program at NSF has been wonderfully successful," says David Garrison, program director in NSF's Division of Ocean Sciences.
"We're seeing exciting results from earlier funding, and looking forward to similarly productive research from the current group of awardees."
Ocean acidification affects marine ecosystems, organisms' life histories, ocean food webs, and biogeochemical cycling, scientists have discovered.
Researchers believe there is a 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 it is known today.
Animal species from pteropods--delicate, butterfly-like planktonic drifters--to hard corals are affected by ocean acidification. So, too, are the unseen microbes that fuel ocean productivity and influence the chemical functioning of ocean waters.
As the 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, or acidity, of the oceans.
"Ocean acidification is an under-appreciated aspect of climate change, affecting the ecology of organisms and creating novel evolutionary pressures," says George Gilchrist, program director in NSF's Division of Environmental Biology.
"The integrated nature of these eco-evolutionary studies will provide new insights into how changes in ocean chemistry reshape populations and communities of marine organisms."
NSF Ocean Acidification grantees will ask such questions as: Will regional differences in marine chemistry and physics increase acidification? Are there complex interactions, cascades and bottlenecks that will emerge as the oceans acidify, and what are their ecosystem implications? And if current trends continue, how far-reaching will the changes be?
"This research on the physiological and metabolic responses of organisms to ocean acidification," says Irwin Forseth of NSF's Division of Integrative Organismal Systems, "is essential to our understanding of how these environmental changes will affect the structure and function of sensitive ecosystems worldwide."
The grants are part of NSF's Science, Engineering and Education for Sustainability (SEES) initiative.
NSF 2014 Ocean Acidification awardees, their institutions and projects are:
Marguerite Koch, Florida Atlantic University: Ocean acidification, temperature and light effects on carbon-use mechanisms, calcification, and growth of tropical macroalgae: Drivers of winners and losers
Robert Toonen, University of Hawaii: Ocean Acidification: Coral reef adaptation and acclimatization to global change: resilience to hotter, more acidic oceans
Andreas Andersson, University of California, San Diego, Scripps Institute of Oceanography: Collaborative Research Ocean Acidification: Establishing the links between offshore biogeochemistry, coral reef metabolism and acidification
Rodney Johnson, Bermuda Institute of Ocean Sciences: Collaborative Research Ocean Acidification: Establishing the links between offshore biogeochemistry, coral reef metabolism and acidification
Timothy Bralower, Pennsylvania State University: Ocean Acidification: Collaborative Research: The response of calcareous nannoplankton to ocean acidification during the Paleocene-Eocene thermal maximum
James Zachos, University of California, Santa Cruz: Ocean Acidification: Collaborative Research: The response of calcareous nannoplankton to ocean acidification during the Paleocene-Eocene thermal maximum
Paul Falkowski, Rutgers University: Ocean Acidification: Mechanisms of coral biomineralization
Zackary Johnson, Duke University: Collaborative Research: Ocean Acidification: microbes as sentinels of adaptive responses to multiple stressors: contrasting estuarine and open ocean environments
Konstantinos Konstantinidis, Georgia Institute of Technology: Collaborative Research: Ocean Acidification: microbes as sentinels of adaptive responses to multiple stressors: contrasting estuarine and open ocean environments
Jan Pechenik, Tufts University: Ocean Acidification/Collaborative Research/RUI: Effects of Ocean Acidification on Larval Competence, Metamorphosis, and Juvenile Performance in a Planktotrophic Gastropod
Anthony Pires, Dickinson College: Ocean Acidification/Collaborative Research/RUI: Effects of Ocean Acidification on Larval Competence, Metamorphosis, and Juvenile Performance in a Planktotrophic Gastropod
Andreas Schmittner, Oregon State University: Effects of acidification and warming on long-term ocean carbon cycling constrained by observations
Robert Carpenter, University of California - Northridge: Collaborative Research: Ocean Acidification and Coral Reefs: Scale Dependence and Adaptive Capacity
Kevin Gross, North Carolina State University: Collaborative Research: Ocean Acidification and Coral Reefs: Scale Dependence and Adaptive Capacity
Eric Kaltenbacher, SRI International: Ocean Acidification: Collaborative Research: Development of a Compact Instrument for Field Measurements of pH, Total Dissolved Inorganic Carbon, and Total Alkalinity
Robert Byrne, University of South Florida: Ocean Acidification: Collaborative Research: Development of a Compact Instrument for Field Measurements of pH, Total Dissolved Inorganic Carbon, and Total Alkalinity
Giulio De Leo, Stanford University: Ocean Acidification: Collaborative Research: Interactive effects of acidification, low dissolved oxygen and temperature on abalone population dynamics within the California Current
James Barry, Monterey Bay Aquarium Research Institute: Ocean Acidification: Collaborative Research: Interactive effects of acidification, low dissolved oxygen and temperature on abalone population dynamics within the California Current
C. Brock Woodson, University of Georgia: Ocean Acidification: Collaborative Research: Interactive effects of acidification, low dissolved oxygen and temperature on abalone population dynamics within the California Current
Scott Hamilton, San Jose State University: Collaborative Research: Ocean Acidification: RUI: Multiple stressor effects of ocean acidification and hypoxia on behavior, physiology, and gene expression of temperate reef fishes
Cheryl Logan, California State University - Monterey Bay: Collaborative Research: Ocean Acidification: RUI: Multiple stressor effects of ocean acidification and hypoxia on behavior, physiology, and gene expression of temperate reef fishes
Brian Tissot, Humboldt State University: Collaborative Research: Ocean Acidification: RUI: Multiple stressor effects of ocean acidification and hypoxia on behavior, physiology, and gene expression of temperate reef fishes
-NSF-
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Decreasing ocean pH (increasing acidity) threatens already vulnerable abalone populations.
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Juvenile rockfish are susceptible to changing ocean pH: ocean acidification.
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Tiny phytoplankton, shown here as light blue and green blooms, are at risk from ocean acidification.
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Tropical algae may respond well to acidification, affecting coral reefs the algae may overgrow.
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NSF ocean acidification grant awardees will develop compact new ocean instruments.
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Media Contacts
Cheryl Dybas, NSF, (703) 292-7734, email: cdybas@nsf.gov
Related Websites
NSF News: Natural Underwater Springs Show How Coral Reefs Respond to Ocean Acidification: http://www.nsf.gov/news/news_summ.jsp?cntn_id=128243
NSF News: World Oceans Month Brings Mixed News for Oysters: http://www.nsf.gov/news/news_summ.jsp?cntn_id=128228
NSF News: Ocean Acidification Linked With Larval Oyster Failure in Hatcheries: http://www.nsf.gov/news/news_summ.jsp?cntn_id=123822
NSF Discovery: Trouble in Paradise: Ocean Acidification This Way Comes: http://www.nsf.gov/discoveries/disc_summ.jsp?cntn_id=122642
NSF News and Audioslideshow: On 'Earth Week,' World Is No Longer Our Oyster: http://www.nsf.gov/news/news_summ.jsp?cntn_id=116767
NSF News: Palau's coral reefs surprisingly resistant to ocean acidification: http://www.nsf.gov/news/news_summ.jsp?cntn_id=130129
NSF News: Ocean Acidification Changes Nitrogen Cycling in World Seas: http://www.nsf.gov/news/news_summ.jsp?cntn_id=118233
NSF News: Oceans Acidifying Faster Today Than in Past 300 Million Years: http://www.nsf.gov/news/news_summ.jsp?cntn_id=123324
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