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Climate Warming and Soil Carbon in Tropical Forests
by
MALHI, YADVINDER
, NOTTINGHAM, ANDREW T.
, TURNER, BENJAMIN L.
, ZIMMERMANN, MICHAEL
, MEIR, PATRICK
, SALINAS, NORMA
, WHITAKER, JEANETTE
in
Biota
/ Chemical composition
/ Climate
/ Climate change
/ Decomposition
/ Global warming
/ High temperature
/ Litter
/ Microbial activity
/ Mountain forests
/ Organic matter
/ Overview
/ Soil microorganisms
/ Soil organic matter
/ Special Section on Tropical Forests
/ Temperature
/ Translocation
/ Tropical forests
2015
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Climate Warming and Soil Carbon in Tropical Forests
by
MALHI, YADVINDER
, NOTTINGHAM, ANDREW T.
, TURNER, BENJAMIN L.
, ZIMMERMANN, MICHAEL
, MEIR, PATRICK
, SALINAS, NORMA
, WHITAKER, JEANETTE
in
Biota
/ Chemical composition
/ Climate
/ Climate change
/ Decomposition
/ Global warming
/ High temperature
/ Litter
/ Microbial activity
/ Mountain forests
/ Organic matter
/ Overview
/ Soil microorganisms
/ Soil organic matter
/ Special Section on Tropical Forests
/ Temperature
/ Translocation
/ Tropical forests
2015
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While trying to remove the title from your shelf something went wrong :( Kindly try again later!
Do you wish to request the book?
Climate Warming and Soil Carbon in Tropical Forests
by
MALHI, YADVINDER
, NOTTINGHAM, ANDREW T.
, TURNER, BENJAMIN L.
, ZIMMERMANN, MICHAEL
, MEIR, PATRICK
, SALINAS, NORMA
, WHITAKER, JEANETTE
in
Biota
/ Chemical composition
/ Climate
/ Climate change
/ Decomposition
/ Global warming
/ High temperature
/ Litter
/ Microbial activity
/ Mountain forests
/ Organic matter
/ Overview
/ Soil microorganisms
/ Soil organic matter
/ Special Section on Tropical Forests
/ Temperature
/ Translocation
/ Tropical forests
2015
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Journal Article
Climate Warming and Soil Carbon in Tropical Forests
2015
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Overview
The temperature sensitivity of soil organic matter (SOM) decomposition in tropical forests will influence future climate. Studies of a 3.5-kilometer elevation gradient in the Peruvian Andes, including short-term translocation experiments and the examination of the long-term adaptation of biota to local thermal and edaphic conditions, have revealed several factors that may regulate this sensitivity. Collectively this work suggests that, in the absence of a moisture constraint, the temperature sensitivity of decomposition is regulated by the chemical composition of plant debris (litter) and both the physical and chemical composition of preexisting SOM: higher temperature sensitivities are found in litter or SOM that is more chemically complex and in SOM that is less occluded within aggregates. In addition, the temperature sensitivity of SOM in tropical montane forests may be larger than previously recognized because of the presence of “cold-adapted” and nitrogen-limited microbial decomposers and the possible future alterations in plant and microbial communities associated with warming. Studies along elevation transects, such as those reviewed here, can reveal factors that will regulate the temperature sensitivity of SOM. They can also complement and guide in situ soil-warming experiments, which will be needed to understand how this vulnerability to temperature may be mediated by altered plant productivity under future climatic change.
Publisher
Oxford University Press
Subject
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