Microbial Colonization and Decomposition of Carex Litter in an Arctic Lake

The decomposition and microbial colonization of Carex leaf litter were examined in an arctic lake in Alaska during the summer of 1978. Dried leaf segments in screen bags were placed at various locations and depths for 13 and 26 days. Weight loss varied from 24.15 to 33.56% and from 27.69 to 65.01% a...

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Bibliographic Details
Published in:Applied and Environmental Microbiology
Main Authors: Federle, Thomas W., Vestal, J. Robie
Format: Article in Journal/Newspaper
Language:English
Published: American Society for Microbiology 1980
Subjects:
Ecology
Applied Microbiology and Biotechnology
Food Science
Biotechnology
Arctic
Arctic Lake
Alaska
Online Access:http://dx.doi.org/10.1128/aem.39.4.888-893.1980
https://journals.asm.org/doi/pdf/10.1128/aem.39.4.888-893.1980
Description
Summary:The decomposition and microbial colonization of Carex leaf litter were examined in an arctic lake in Alaska during the summer of 1978. Dried leaf segments in screen bags were placed at various locations and depths for 13 and 26 days. Weight loss varied from 24.15 to 33.56% and from 27.69 to 65.01% after 13 and 26 days, respectively. Abiotic controls lost approximately 19.5% with no subsequent change. Weight loss significantly correlated with microbial colonization as measured by alkaline phosphatase activity ( r = 0.780), cellulase activity ( r = 0.613), heterotrophic CO 2 fixation ( r = 0.835), and acetate incorporation into microbial lipids ( r = 0.618). Alkaline phosphatase activity correlated with cellulase activity ( r = 0.889), and heterotrophic CO 2 fixation correlated with acetate incorporation into lipids ( r = 0.712). Weight loss after 26 days inversely correlated with the logarithm of the depth of incubation regardless of whether incubation occurred on the sediment surface or in the water column. These findings suggest that a rapid initial period of microbial colonization is driven by nutrients derived from the litter and that the rate of these processes is controlled by a factor(s) inversely related to the logarithm of depth, such as light intensity, primary production, or turbulence.

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