Spatial heterogeneity of temperature sensitivity of soil respiration: A global analysis of field observations
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Elise Pendall | E. Pendall | C. Fang | M. Nie | Changming Fang | Jinquan Li | Junmin Pei | Jinquan Li | Junmin Pei | Ming Nie
[1] Bill Shipley,et al. Cause and Correlation in Biology: A User''s Guide to Path Analysis , 2016 .
[2] R. B. Jackson,et al. THE VERTICAL DISTRIBUTION OF SOIL ORGANIC CARBON AND ITS RELATION TO CLIMATE AND VEGETATION , 2000 .
[3] R. Betts,et al. Acceleration of global warming due to carbon-cycle feedbacks in a coupled climate model , 2000, Nature.
[4] K. Schermelleh-Engel,et al. Evaluating the Fit of Structural Equation Models: Tests of Significance and Descriptive Goodness-of-Fit Measures. , 2003 .
[5] P. Cox,et al. Uncertainty in climate’carbon-cycle projections associated with the sensitivity of soil respiration to temperature , 2003 .
[6] R. Ceulemans,et al. Annual Q10 of soil respiration reflects plant phenological patterns as well as temperature sensitivity , 2004 .
[7] H. Tian,et al. Does a General Temperature-Dependent Q10 Model of Soil Respiration Exist at Biome and Global Scale? , 2005 .
[8] R. Schnur,et al. Climate-carbon cycle feedback analysis: Results from the C , 2006 .
[9] G. McHale,et al. Water‐repellent soil and its relationship to granularity, surface roughness and hydrophobicity: a materials science view , 2005 .
[10] Chuankuan Wang,et al. Soil respiration in six temperate forests in China , 2006 .
[11] Noah Fierer,et al. Predicting the temperature dependence of microbial respiration in soil: A continental‐scale analysis , 2006 .
[12] E. Davidson,et al. On the variability of respiration in terrestrial ecosystems: moving beyond Q10 , 2006 .
[13] E. Davidson,et al. Temperature sensitivity of soil carbon decomposition and feedbacks to climate change , 2006, Nature.
[14] Robert Eisenthal,et al. The dependence of enzyme activity on temperature: determination and validation of parameters. , 2007, The Biochemical journal.
[15] G. Bonan. Forests and Climate Change: Forcings, Feedbacks, and the Climate Benefits of Forests , 2008, Science.
[16] H. Velthuizen,et al. Harmonized World Soil Database (version 1.2) , 2008 .
[17] S. Frey,et al. Thermal adaptation of soil microbial respiration to elevated temperature. , 2008, Ecology letters.
[18] Jingyun Fang,et al. Soil respiration and human effects on global grasslands. , 2009 .
[19] David J. Gibson,et al. Grasses and Grassland Ecology , 2009 .
[20] P. Shi,et al. Global pattern of temperature sensitivity of soil heterotrophic respiration (Q10) and its implications for carbon‐climate feedback , 2009 .
[21] Shilong Piao,et al. Temperature sensitivity of soil respiration in different ecosystems in China , 2009 .
[22] A. Thomson,et al. A global database of soil respiration data , 2010 .
[23] Ben Bond-Lamberty,et al. Temperature-associated increases in the global soil respiration record , 2010, Nature.
[24] J. Randerson,et al. Causes of variation in soil carbon simulations from CMIP5 Earth system models and comparison with observations , 2012 .
[25] F. Moyano,et al. Synthesis analysis of the temperature sensitivity of soil respiration from laboratory studies in relation to incubation methods and soil conditions , 2013 .
[26] Colin W. Bell,et al. Positive climate feedbacks of soil microbial communities in a semi-arid grassland. , 2013, Ecology letters.
[27] L. Schipper,et al. Thermodynamic theory explains the temperature optima of soil microbial processes and high Q10 values at low temperatures , 2014, Global change biology.
[28] C. Peng,et al. Quantification of soil respiration in forest ecosystems across China , 2014 .
[29] L. Tu,et al. Temperature sensitivity of soil respiration in China’s forest ecosystems: Patterns and controls , 2015 .
[30] Nuno Carvalhais,et al. Global spatiotemporal distribution of soil respiration modeled using a global database , 2015 .
[31] H. Muraoka,et al. Responses of Soil, Heterotrophic, and Autotrophic Respiration to Experimental Open-Field Soil Warming in a Cool-Temperate Deciduous Forest , 2015, Ecosystems.
[32] Lihua Tian,et al. Grazing effect on growing season ecosystem respiration and its temperature sensitivity in alpine grasslands along a large altitudinal gradient on the central Tibetan Plateau , 2016 .
[33] Bart R. Johnson,et al. Temperature response of soil respiration largely unaltered with experimental warming , 2016, Proceedings of the National Academy of Sciences.
[34] O. Kull,et al. Variation of soil respiration and its components in hemiboreal Norway spruce stands of different ages , 2017, Plant and Soil.
[35] Jasmine M. Robinson. Temperature Sensitivity of Soil Respiration , 2016 .
[36] Yiqi Luo,et al. Linking temperature sensitivity of soil CO2 release to substrate, environmental, and microbial properties across alpine ecosystems , 2016 .
[37] Susie R. Wu,et al. Applications of structural equation modeling (SEM) in ecological studies: an updated review , 2016, Ecological Processes.
[38] Peter B Reich,et al. Microbial diversity drives multifunctionality in terrestrial ecosystems , 2016, Nature Communications.
[39] Genxu Wang,et al. Grassland types and season-dependent response of ecosystem respiration to experimental warming in a permafrost region in the Tibetan Plateau , 2017 .
[40] Xiaomin Sun,et al. Regional variation in the temperature sensitivity of soil organic matter decomposition in China's forests and grasslands , 2017, Global change biology.
[41] Harrie-Jan Hendricks Franssen,et al. Evaluation and uncertainty analysis of regional-scale CLM4.5 net carbon flux estimates , 2017 .
[42] C. Castanha,et al. The whole-soil carbon flux in response to warming , 2017, Science.
[43] W. Amelung,et al. The Temperature Sensitivity (Q10) of Soil Respiration: Controlling Factors and Spatial Prediction at Regional Scale Based on Environmental Soil Classes , 2018 .
[44] E. Pendall,et al. Depth dependence of soil carbon temperature sensitivity across Tibetan permafrost regions , 2018, Soil Biology and Biochemistry.
[45] Ding Wen,et al. Carbon storage in China’s terrestrial ecosystems: A synthesis , 2018, Scientific Reports.
[46] B. Zhu,et al. Patterns of soil respiration and its temperature sensitivity in grassland ecosystems across China , 2018, Biogeosciences.
[47] F. Maestre,et al. Australian dryland soils are acidic and nutrient‐depleted, and have unique microbial communities compared with other drylands , 2018, Journal of biogeography.
[48] P. Reich,et al. Predicting soil carbon loss with warming , 2018, Nature.
[49] P. Reich,et al. Biogeographic variation in temperature sensitivity of decomposition in forest soils , 2019, Global change biology.
[50] Qingpeng Yang,et al. Global synthesis of temperature sensitivity of soil organic carbon decomposition: Latitudinal patterns and mechanisms , 2019, Functional Ecology.