Related references
Note: Only part of the references are listed.Regional variation in the temperature sensitivity of soil organic matter decomposition in China's forests and grasslands
Yuan Liu et al.
GLOBAL CHANGE BIOLOGY (2017)
Temperature response of soil carbon decomposition depends strongly on forest management practice and soil layer on the eastern Tibetan Plateau
Kaijun Yang et al.
SCIENTIFIC REPORTS (2017)
Shifts in microbial trophic strategy explain different temperature sensitivity of CO2 flux under constant and diurnally varying temperature regimes
Zhen Bai et al.
FEMS MICROBIOLOGY ECOLOGY (2017)
Carbon quality and nutrient status drive the temperature sensitivity of organic matter decomposition in subtropical peat soils
Debjani Sihi et al.
BIOGEOCHEMISTRY (2016)
Linking temperature sensitivity of soil CO2 release to substrate, environmental, and microbial properties across alpine ecosystems
Jinzhi Ding et al.
GLOBAL BIOGEOCHEMICAL CYCLES (2016)
Temperature sensitivity of soil respiration in China's forest ecosystems: Patterns and controls
Zhenfeng Xu et al.
APPLIED SOIL ECOLOGY (2015)
Both altitude and vegetation affect temperature sensitivity of soil organic matter decomposition in Mediterranean high mountain soils
Alba Gutierrez-Giron et al.
GEODERMA (2015)
Decadally cycling soil carbon is more sensitive to warming than faster-cycling soil carbon
Junjie Lin et al.
GLOBAL CHANGE BIOLOGY (2015)
Temperature sensitivity of heterotrophic soil CO2 production increases with increasing carbon substrate uptake rate
Bjorn Erhagen et al.
SOIL BIOLOGY & BIOCHEMISTRY (2015)
Carbon quality affects the nitrogen partitioning between plants and soil microorganisms
Angelika Thuille et al.
SOIL BIOLOGY & BIOCHEMISTRY (2015)
Organic carbon mineralization responses to temperature increases in subtropical paddy soils
Ping Zhou et al.
JOURNAL OF SOILS AND SEDIMENTS (2014)
Temperature sensitivity of soil respiration rates enhanced by microbial community response
Kristiina Karhu et al.
NATURE (2014)
Positive climate feedbacks of soil microbial communities in a semi-arid grassland
Ming Nie et al.
ECOLOGY LETTERS (2013)
Both priming and temperature sensitivity of soil organic matter decomposition depend on microbial biomass - An incubation study
Stefany Thiessen et al.
SOIL BIOLOGY & BIOCHEMISTRY (2013)
Synthesis analysis of the temperature sensitivity of soil respiration from laboratory studies in relation to incubation methods and soil conditions
Salwa Hamdi et al.
SOIL BIOLOGY & BIOCHEMISTRY (2013)
Drivers of microbial respiration and net N mineralization at the continental scale
Benjamin P. Colman et al.
SOIL BIOLOGY & BIOCHEMISTRY (2013)
Carbon quality and the temperature sensitivity of soil organic carbon decomposition in a tallgrass prairie
Xia Xu et al.
SOIL BIOLOGY & BIOCHEMISTRY (2012)
Drought-resistant fungi control soil organic matter decomposition and its response to temperature
J. C. Yuste et al.
GLOBAL CHANGE BIOLOGY (2011)
Temperature and soil organic matter decomposition rates - synthesis of current knowledge and a way forward
Richard T. Conant et al.
GLOBAL CHANGE BIOLOGY (2011)
Persistence of soil organic matter as an ecosystem property
Michael W. I. Schmidt et al.
NATURE (2011)
Constant and diurnally-varying temperature regimes lead to different temperature sensitivities of soil organic carbon decomposition
Biao Zhu et al.
SOIL BIOLOGY & BIOCHEMISTRY (2011)
Temperature-associated increases in the global soil respiration record
Ben Bond-Lamberty et al.
NATURE (2010)
Soil-carbon response to warming dependent on microbial physiology
Steven D. Allison et al.
NATURE GEOSCIENCE (2010)
Belowground carbon allocation by trees drives seasonal patterns of extracellular enzyme activities by altering microbial community composition in a beech forest soil
Christina Kaiser et al.
NEW PHYTOLOGIST (2010)
Evaluating the impacts of incubation procedures on estimated Q10 values of soil respiration
Xueping Chen et al.
SOIL BIOLOGY & BIOCHEMISTRY (2010)
Landscape-level variation in temperature sensitivity of soil organic carbon decomposition
Joseph Craine et al.
SOIL BIOLOGY & BIOCHEMISTRY (2010)
Differential Utilization of Carbon Substrates by Bacteria and Fungi in Tundra Soil
Riikka Rinnan et al.
APPLIED AND ENVIRONMENTAL MICROBIOLOGY (2009)
Real-time automatic interpolation of ambient gamma dose rates from the Dutch radioactivity monitoring network
Paul H. Hiemstra et al.
COMPUTERS & GEOSCIENCES (2009)
Temperature sensitivity of soil respiration in different ecosystems in China
Shushi Peng et al.
SOIL BIOLOGY & BIOCHEMISTRY (2009)
Labile, recalcitrant, and microbial carbon and nitrogen pools of a tallgrass prairie soil in the US Great Plains subjected to experimental warming and clipping
Asfaw Belay-Tedla et al.
SOIL BIOLOGY & BIOCHEMISTRY (2009)
Temperature sensitivity of soil respiration is affected by prevailing climatic conditions and soil organic carbon content: A trans-China based case study
Ze-Mei Zheng et al.
SOIL BIOLOGY & BIOCHEMISTRY (2009)
Fungal Community Ecology: A Hybrid Beast with a Molecular Master
Kabir G. Peay et al.
BIOSCIENCE (2008)
Experimental warming shows that decomposition temperature sensitivity increases with soil organic matter recalcitrance
Richard T. Conant et al.
ECOLOGY (2008)
Terrestrial ecosystem carbon dynamics and climate feedbacks
Martin Heimann et al.
NATURE (2008)
Forests and climate change: Forcings, feedbacks, and the climate benefits of forests
Gordon B. Bonan
SCIENCE (2008)
Variable use of plant- and soil-derived carbon by microorganisms in agricultural soils
Christiane Kramer et al.
SOIL BIOLOGY & BIOCHEMISTRY (2006)
Predicting the temperature dependence of microbial respiration in soil: A continental-scale analysis
Noah Fierer et al.
GLOBAL BIOGEOCHEMICAL CYCLES (2006)
Climate-carbon cycle feedback analysis:: Results from the C4MIP model intercomparison
P. Friedlingstein et al.
JOURNAL OF CLIMATE (2006)
Temperature sensitivity of soil carbon decomposition and feedbacks to climate change
EA Davidson et al.
NATURE (2006)
On the variability of respiration in terrestrial ecosystems:: moving beyond Q10
EA Davidson et al.
GLOBAL CHANGE BIOLOGY (2006)