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Publication
Microbial community composition and function in permanently cold seawater and sediments from an Arctic fjord of Svalbard
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Advisor(s)
Abstract(s)
Heterotrophic microbial communities in seawater and sediments metabolize much of the organic carbon produced
in the ocean. Although carbon cycling and preservation depend critically on the capabilities of these microbial
communities, their compositions and capabilities have seldom been examined simultaneously at the same site. To
compare the abilities of seawater and sedimentary microbial communities to initiate organic matter degradation, we
measured the extracellular enzymatic hydrolysis rates of 10 substrates (polysaccharides and algal extracts) in
surface seawater and bottom water as well as in surface and anoxic sediments of an Arctic fjord. Patterns of enzyme
activities differed between seawater and sediments, not just quantitatively, in accordance with higher cell numbers
in sediments, but also in their more diversified enzyme spectrum. Sedimentary microbial communities hydrolyzed
all of the fluorescently labeled polysaccharide and algal extracts, in most cases at higher rates in subsurface than
surface sediments. In seawater, in contrast, only 5 of the 7 polysaccharides and 2 of the 3 algal extracts were
hydrolyzed, and hydrolysis rates in surface and deepwater were virtually identical. To compare bacterial communities,
16S rRNA gene clone libraries were constructed from the same seawater and sediment samples; they diverged
strongly in composition. Thus, the broader enzymatic capabilities of the sedimentary microbial communities may
result from the compositional differences between seawater and sedimentary microbial communities, rather than
from gene expression differences among compositionally similar communities. The greater number of phylum- and
subphylum-level lineages and operational taxonomic units in sediments than in seawater samples may reflect the
necessity of a wider range of enzymatic capabilities and strategies to access organic matter that has already been
degraded during passage through the water column. When transformations of marine organic matter are considered,
differences in community composition and their different abilities to access organic matter should be taken
into account.
Description
Keywords
Citation
A. Teske, A. Durbin, K. Ziervogel, C. Cox, and C. Arnosti, "Microbial community composition and function in permanently cold seawater and sediments from an Arctic fjord of Svalbard" in APPLIED AND ENVIRONMENTAL MICROBIOLOGY, Mar. 2011, p. 2008–2018.
Publisher
American Society for Microbiology