Microbial community composition shapes enzyme patterns in topsoil and subsoil horizons along a latitudinal transect in Western Siberia

Soil horizons below 30cm depth contain about 60% of the organic carbon stored in soils. Although insight into the physical and chemical stabilization of soil organic matter (SOM) and into microbial community composition in these horizons is being gained, information on microbial functions of subsoil...

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Bibliographic Details
Main Authors: Schnecker, Jörg, Wild, Birgit, Takriti, Mounir, Eloy Alves, Ricardo J., Gentsch, Norman, Gittel, Antje, Hofer, Angelika, Klaus, Karoline, Knoltsch, Anna, Lashchinskiy, Nikolay, Mikutta, Robert, Richter, Andreas
Format: Article in Journal/Newspaper
Language:English
Published: Amsterdam : Elsevier 2015
Subjects:
Amino acids
Ecology
Ecosystems
Enzyme activity
Fatty acids
Forestry
Microorganisms
Minerals
Organic carbon
Permafrost
Phospholipids
Soil surveys
Soils
Stabilization
Boreal forests
Extracellular enzymes
PLFA
Steppe
Tundra
Enzymes
boreal forest
community composition
latitudinal gradient
microbial community
soil depth
soil horizon
soil microorganism
subsoil
topsoil
Siberia
ddc:540
ddc:570
permafrost
Online Access:http://www.repo.uni-hannover.de/handle/123456789/893
https://doi.org/10.15488/869
Description
Summary:Soil horizons below 30cm depth contain about 60% of the organic carbon stored in soils. Although insight into the physical and chemical stabilization of soil organic matter (SOM) and into microbial community composition in these horizons is being gained, information on microbial functions of subsoil microbial communities and on associated microbially-mediated processes remains sparse. To identify possible controls on enzyme patterns, we correlated enzyme patterns with biotic and abiotic soil parameters, as well as with microbial community composition, estimated using phospholipid fatty acid profiles. Enzyme patterns (i.e. distance-matrixes calculated from these enzyme activities) were calculated from the activities of six extracellular enzymes (cellobiohydrolase, leucine-amino-peptidase, N-acetylglucosaminidase, chitotriosidase, phosphatase and phenoloxidase), which had been measured in soil samples from organic topsoil horizons, mineral topsoil horizons, and mineral subsoil horizons from seven ecosystems along a 1500km latitudinal transect in Western Siberia. We found that hydrolytic enzyme activities decreased rapidly with depth, whereas oxidative enzyme activities in mineral horizons were as high as, or higher than in organic topsoil horizons. Enzyme patterns varied more strongly between ecosystems in mineral subsoil horizons than in organic topsoils. The enzyme patterns in topsoil horizons were correlated with SOM content (i.e., C and N content) and microbial community composition. In contrast, the enzyme patterns in mineral subsoil horizons were related to water content, soil pH and microbial community composition. The lack of correlation between enzyme patterns and SOM quantity in the mineral subsoils suggests that SOM chemistry, spatial separation or physical stabilization of SOM rather than SOM content might determine substrate availability for enzymatic breakdown. The correlation of microbial community composition and enzyme patterns in all horizons, suggests that microbial community composition shapes ...

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