NURP funded study yields insight into Cold Seep Habitats
This story entered on 1st Mar, 2004 06:00:00 AM PST
In a recent issue of Marine Ecology Progress Series
(vol. 265: 123-139, 2003), a peer-reviewed scientific journal,
L.A. Levin et al. published findings from a study conducted in 2000
using the ROV Jason. This research was funded by NOAA's Undersea
Research Program Center for the West Coast and Polar Regions at
the University of Alaska, Fairbanks.
This study looked at methane seeps on the Northern California margin,
near the mouth of the Eel River. Methane seeps are a seafloor ecosystem
subsisting on naturally seeping methane hydrates.
The significant findings from this research were:
(1) Most organisms avoid sulfide concentrations greater than 1mM.
Even in habitats known to contain significant concentrations of
sulfide, most infauna occupy that portion of the sediment column
that is sulfide-free. Sulfide concentration is correlated with significant
changes in community structure. Microbial mats were found to be
present in areas with high magnitudes of vertical upward flux of
hydrates.
(2) Sulfide concentration is correlated with significant changes
in community structure. Microbial mats were found to be present
in areas with high magnitudes of vertical upward flux of hydrates.
(3) The vertical distribution of sulfide is largely controlled by
fluid flow and when clams are present, by their active pumping.
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Why are hydrates important to NOAA?
(1) Gas Hydrates are currently under-recognized as a major phenomenon
in the oceans. As much as 60% of the global carbon reserves on the
Earth are located in hydrates.
(2) Gas Hydrates are inhabited by unique marine ecosystems that
include newly discovered species. These extreme ecosystems contribute
to the basic understanding of life on earth and may provide a glimpse
into life on other planets. Additionally, these ecosystems may provide
a future source of marine bioproducts.
(3) Most importantly for NOAA, gas hydrates may also have a large
effect on climate and the global carbon cycle, a connection, which
is only now being recognized.
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This study fulfills the following NOAA Strategic Plan Performance
Measure under the Ecosystem Goal: Increased ocean, coastal, and
Great Lakes areas explored, mapped, characterized, and inventoried.
More information: Click
Here
Contact information
Name: Jennifer Reynolds
Tel: (907) 474-5871
jreynolds@ims.uaf.edu
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