Microbial activity and litter decomposition under snow cover in a cool-temperate broad-leaved deciduous forest

Winter CO 2 emissions from soil and snow-covered surfaces can represent a significant fraction of the annual carbon cycle in cool-temperate broad-leaved deciduous forests. The sources of this CO 2 production are, however, poorly understood. To clarify the role of saprophytic microorganisms in the ca...

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Bibliographic Details
Published in:Agricultural and forest meteorology 2005-11, Vol.134 (1), p.102-109
Main Authors: Uchida, Masaki, Mo, Wenhong, Nakatsubo, Takayuki, Tsuchiya, Yuki, Horikoshi, Takao, Koizumi, Hiroshi
Format: Article
Language:English
Subjects:
biodegradation
biogeochemical cycles
carbon dioxide
Cool-temperate forest
Cylandrocarpon destructans
Cylindrocarpon destructans
deciduous forests
Epicoccum nigrum
Epicoccum purpurascens
Ergosterol
estimation
forest litter
forest soils
fungi
gas emissions
Litter layer
mathematical models
Microbial activity
microbial respiration
saprophytes
snow
Snow-covered season
soil microorganisms
Soil respiration
soil-atmosphere interactions
temperate forests
Varicosporium elodea
winter
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Summary:Winter CO 2 emissions from soil and snow-covered surfaces can represent a significant fraction of the annual carbon cycle in cool-temperate broad-leaved deciduous forests. The sources of this CO 2 production are, however, poorly understood. To clarify the role of saprophytic microorganisms in the carbon cycle during the winter (December–April), mass loss rates of organic substrates (leaf litter and cellulose sheets), and microbial activity and fungal biomass in the litter layer of a cool-temperate broad-leaved deciduous forest in Japan were investigated. The mass loss rate of leaves reached 13%, which accounted for 26% of the annual mass loss. Microbial respiration in the leaf litter, measured in the laboratory, was detected even at −2 °C. The ergosterol content (an indicator of fungal biomass) of the cellulose sheets increased significantly in the snow-covered season. Seven genera of fungi including Varicosporium elodeae, Epicoccum purpurascens and Cylindrocarpon destructans were isolated from leaf litter collected from under snow cover. Microbial respiration during the winter was estimated based on the relationships between the amount of leaf litter available, the temperature dependency of microbial respiration and the temperature in the litter layer. The microorganisms in the litter layer emitted 31 gCO 2-C m −2, which accounts for 38% of the total CO 2 efflux during the winter. These results suggest that through soil respiration, microorganisms in the litter layer play an important role in the carbon cycle during the winter.
ISSN:0168-1923
1873-2240
DOI:10.1016/j.agrformet.2005.11.003