For Immediate Release
July XX, 2004
Media Contact:
NSF, Cheryl Dybas, (703) 292-7734, cdybas@nsf.gov
NSF Awards $ 5 Million Grants to Two Ocean Sites for Long-Term Ecological
Research
Arlington, Va.
—Coral reefs and coastal upwelling ecosystems are the subjects of two new Long-Term Ecological Research (LTER) sites awarded funding by the National
Science Foundation (NSF). With the addition of the Moorea Coral Reef LTER Site and the California Current System LTER Site, there are now 26 NSF-funded sites in the
LTER network. The two newest sites will receive approximately $ 820,000 for the next six years, for a total of about $ 5 million each.
“These two new sites significantly augment the LTER network, which had included only one marine site, in the Antarctic,” says Henry Gholz, director of NSF’s LTER program.
“These awards ensure that high biodiversity and productivity ecosystems in most of the world’s major biomes, both on land and in the oceans, are represented.”
Moorea Coral Reef LTER Site
Occurring mostly in warm, nutrient-poor waters, coral reefs rank near the top of all ecosystems, when it comes to biodiversity and annual productivity. Worldwide, coral reefs support one-third of the known species of marine fish, although they make up only about one percent of all benthic, or bottom, habitats. “These large and diverse communities are fueled by efficient nutrient recycling processes, and by the structure provided by reefbuilding corals,” says Phil Taylor, director of NSF’s biological oceanography program. “Stony corals are the foundation upon which tens of thousands of other species rely. In turn, the relationship between corals and photosynthetic zooxanthellae that live within their tissues is the key to the entire system. Without zooxanthellae, the coral reef ecosystem would not exist.”
Research at the new French Polynesia site will help scientists better understand coral reef processes that drive the functions of this ecosystem; the nature of coral reef animal and plant community structure and diversity; and the factors that determine the abundance and dynamics of related populations. “This understanding,” says Taylor,
“will allow us to make more accurate predictions of how coral reef ecosystems respond to environmental change, whether humaninduced or from natural cycles.”
The new coral reef LTER site will be located at the site of the University of California’s field laboratory on the island of Moorea in French Polynesia.
The four principal investigators for the award are affiliated with the University of
California at Santa Barbara (Russell Schmitt and Sally Holbrook), and California State
University at Northridge (Robert Carpenter and Peter Edmunds). In addition, scientists at the University of Hawaii, the University of California at Santa Cruz, Scripps Institution of Oceanography and the University of California at Davis comprise the interdisciplinary team of ecologists, physical oceanographers, paleoceanographers and population geneticists on the project.
California Current Ecosystem LTER Site
The California Current wends along just off California shores as part of the circulation of the north Pacific Ocean. The current is the driving force behind what’s known as a coastal upwelling biome , among the most productive coastal ecosystems in the world’s oceans. “The California Current System sustains active fisheries for a variety of finfish and shellfish, modulates weather patterns and the hydrologic cycle of much of the western United States, and plays a vital role in the economy of myriad coastal communities,” says Taylor.
Understanding the mechanisms of changes in coastal ecosystems is of vital importance to the management of living and non-living resources in the coastal zone, scientists believe. “In the California Current System, for example, successful management of commercially important resources such as anchovy, sardine, several species of Pacific salmon, squid, Dungeness crab, abalone and others requires knowledge of the causes and consequences of system variability,” says Taylor.
The California Current System is the eastern limb of the large, clockwise circulation of the north Pacific Ocean. As some of the water from the westward drift turns south and becomes the California Current, it brings with it cool, fresh water from the sub-arctic.
The California Current System off central and southern California consists of the broad, southward-flowing California Current; a persistent but variable subsurface California
Undercurrent centered on the continental slope that carries water poleward from the tropics; and a circulation over and near the continental shelf that is highly seasonal, shifting from a windward-driven equatorward flow that brings coastal upwelling in spring and summer, to a poleward flow in fall and winter.
Scientists working at the California Current Ecosystem LTER Site will conduct research on how the influences of El Nino and the Pacific Decadal Oscillation, a decades-long climate phenomenon, as well as multi-decadal warming trends noted in records kept by research institutions along the California coast, affect the California Current System.
Researchers hope to develop an understanding of how these phenomena affect changes in food webs, predator-prey relationships, movement of organisms into and out of the region and the transfer of assemblages of organisms along the California coast.
The five principal investigators for the award blend expertise in ocean ecology, and chemical and physical oceanography, and are affiliated with the Scripps Institution of
Oceanography in La Jolla, California: Mark Ohman; Katherine Barbeau; Ralf Goericke;
Michael Landry; and Arthur Miller. Scientists from the National Oceanic and
Atmospheric Administration (NOAA)’s National Marine Fisheries Service, Georgia
Institute of Technology, Duke University and Point Reyes Bird Observatory round out the interdisciplinary team.
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NSF PR04-XX
NSF program contacts:
Henry Gholz, hgholz@nsf.gov
, (703) 292-8480
Phil Taylor, prtaylor@nsf.gov
, (703) 292-8580
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