Wednesday, November 25, 2009
Researchers establish common seasonal patterns among bacterial communities in Arctic rivers
University of Maryland Center for Environmental Science: New research on bacterial communities throughout six large Arctic river ecosystems reveals predictable temporal patterns, suggesting that scientists could use these communities as markers for monitoring climate change in the polar regions. The study, published this week in the Proceedings of the National Academy of Sciences Early Edition, shows that bacterial communities in the six rivers shifted synchronously over time, correlating with seasonal shifts in hydrology and biogeochemistry.
The research team documents these patterns through a three-year, circumpolar study of planktonic bacterial communities in the six largest rivers of the pan-arctic watershed: the Ob’, Yenisey, Lena, Kolyma, Yukon, and Mackenzie Rivers.
“Our results demonstrate that synchrony, seasonality and annual reassembly in planktonic bacterial communities occur on global scales,” said lead author Dr. Byron Crump of the University of Maryland Center for Environmental Science. “Since bacterial communities in big arctic rivers shift predictably with circumpolar seasonal changes in environmental conditions, they may serve as sensitive indicators of climate change in the Arctic.”
“The six river systems studied are comparable in size to the Mississippi River in the United States,” said coauthor Rainer Amon of Texas A&M University at Galveston. “One of the things we learned is the bacteria communities in all six of them seem to be very similar. There are many questions still to be answered, such as how these bacteria communities might respond to a continued increase in temperature.”
This synchrony indicates that hemisphere-scale variation in seasonal climate sets the pace of variation in microbial diversity. Moreover, these seasonal communities reassembled each year in all six rivers, suggesting a long-term, predictable succession in the composition of big river bacterial communities….
Image courtesy of the Proceedings of the National Academy of Sciences, USA, from the University of Maryland website
The research team documents these patterns through a three-year, circumpolar study of planktonic bacterial communities in the six largest rivers of the pan-arctic watershed: the Ob’, Yenisey, Lena, Kolyma, Yukon, and Mackenzie Rivers.
“Our results demonstrate that synchrony, seasonality and annual reassembly in planktonic bacterial communities occur on global scales,” said lead author Dr. Byron Crump of the University of Maryland Center for Environmental Science. “Since bacterial communities in big arctic rivers shift predictably with circumpolar seasonal changes in environmental conditions, they may serve as sensitive indicators of climate change in the Arctic.”
“The six river systems studied are comparable in size to the Mississippi River in the United States,” said coauthor Rainer Amon of Texas A&M University at Galveston. “One of the things we learned is the bacteria communities in all six of them seem to be very similar. There are many questions still to be answered, such as how these bacteria communities might respond to a continued increase in temperature.”
This synchrony indicates that hemisphere-scale variation in seasonal climate sets the pace of variation in microbial diversity. Moreover, these seasonal communities reassembled each year in all six rivers, suggesting a long-term, predictable succession in the composition of big river bacterial communities….
Image courtesy of the Proceedings of the National Academy of Sciences, USA, from the University of Maryland website
Labels:
arctic,
monitoring,
rivers,
science
Subscribe to:
Post Comments (Atom)
1 comment:
Download Casino tyuueooru
http://stonewalljacksoncarnival.org/ - Free Casino
It?s obviously due the comfort and easiness arriving with the online casino that many people, at present, are choosing to stick with online casino rather the traditional land-based casinos.
[url=http://stonewalljacksoncarnival.org/]Casino Bonus[/url]
More casino options The number of online casino is far higher than bricks and mortars based casino all across the world.
Best Online Casino
On the other side, people seem to be more interested in participating in online casino compared to land-based casinos.
Post a Comment