Scientists from the Scripps Institution of Oceanography (UC San Diego), Mexico and Portugal have attributed the shift to warming temperatures and melting ice in the Arctic.
Using satellite data from 1997-2010 depicting ocean colour and phytoplankton production, they found that the spring blooms have been arriving up to 50 days earlier in some areas over this 10-year period.
The researchers said the earlier Arctic blooms have roughly occurred in areas where ice concentrations have dwindled, creating gaps where the bloom can briefly flourish.
During the one to two week spring bloom, which occurs in warm as well as cold regions, a major influx of new organic carbon enters the marine ecosystem through a massive peak in phytoplankton photosynthesis, which converts carbon dioxide into organic matter as part of the global carbon cycle.
Phytoplankton blooms stimulate production of zooplankton, microscopic marine animals, which become a food source for fish.
"The bloom provides a major source of food for zooplankton, fish and bottom-dwelling animals. The advancement of the bloom time may have consequences for the Arctic ecosystem."
Mati Kahru, lead author and a research oceanographer at Scripps, said that it was not clear if fish will adapt to match the change, and whether it would disrupt their critical life-cycle stages such as egg hatching and larvae development.
"The spring bloom provides a major source of food for zooplankton, fish and bottom-dwelling animals. The advancement of the bloom time may have consequences for the Arctic ecosystem," he said.
Such a match or mismatch in timing could explain much of the annual variability of fish stocks in the region.
"The trend towards earlier phytoplankton blooms can expand into other areas of the Arctic Ocean and impact the whole food chain," the researchers concluded.
The findings will appear in the March 9 edition of the journal Global Change Biology.
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Warming temperatures and melting ice in the Arctic may be behind a progressively earlier bloom of a crucial annual marine event, and the shift could hold consequences for the entire food chain and carbon cycling in the region.
Scientists at Scripps Institution of Oceanography at UC San Diego, along with colleagues in Portugal and Mexico, plotted the yearly spring bloom of phytoplankton — tiny plants at the base of the ocean food chain — in the Arctic Ocean and found the peak timing of the event has been progressing earlier each year for more than a decade. The researchers analyzed satellite data depicting ocean color and phytoplankton production to determine that the spring bloom has come up to 50 days earlier in some areas in that time span.
The earlier Arctic blooms have roughly occurred in areas where ice concentrations have dwindled and created gaps that make early blooms possible, say the researchers, who publish their findings in the March 9 edition of the journal Global Change Biology.
During the one- to two-week spring bloom, which occurs in warm as well as cold regions, a major influx of new organic carbon enters the marine ecosystem through a massive peak in phytoplankton photosynthesis, which converts carbon dioxide into organic matter as part of the global carbon cycle. Phytoplankton blooms stimulate production of zooplankton, microscopic marine animals, which become a food source for fish.
Mati Kahru, lead author of the study and a research oceanographer in the Integrative Oceanography Division at Scripps, said it’s not clear if the consumers of phytoplankton are able to match the earlier blooms and avoid disruptions of their critical life-cycle stages such as egg hatching and larvae development.
“The spring bloom provides a major source of food for zooplankton, fish and bottom-dwelling animals,” he said. “The advancement of the bloom time may have consequences for the Arctic ecosystem.”
Such a match or mismatch in timing could explain much of the annual variability of fish stocks in the region.
“The trend towards earlier phytoplankton blooms can expand into other areas of the Arctic Ocean and impact the whole food chain,” say the authors, who used satellite data from 1997-2010 to create their bloom maps.
The NASA Ocean Biology and Biogeochemistry Program and the National Science Foundation provided financial support for the research. The satellite data were provided by the NASA Ocean Biology Processing Group, ESA GlobColour group, the National Snow and Ice Data Center and the Japan Aerospace Exploration Agency.
Kahru’s coauthors include Greg Mitchell, a Scripps Oceanography research biologist, Vanda Brotas of the University of Lisbon in Portugal and Marlenne Manzano-Sarabia of Universidad Autónoma de Sinaloa in Mexico.
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Scripps Institution of Oceanography at University of California, San Diego, is one of the oldest, largest and most important centers for global science research and education in the world. Now in its second century of discovery, the scientific scope of the institution has grown to include biological, physical, chemical, geological, geophysical and atmospheric studies of the earth as a system. Hundreds of research programs covering a wide range of scientific areas are under way today in 65 countries. The institution has a staff of about 1,400, and annual expenditures of approximately $170 million from federal, state and private sources. Scripps operates robotic networks, and one of the largest U.S. academic fleets with four oceanographic research ships and one research platform for worldwide exploration. Learn more at scripps.ucsd.edu.
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