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| Temperature sensitivity of decomposition of soil organic matter fractions increases with their turnover time [期刊论文] Land Degradation and Development, 2020-01-01, 31 (5 Jia Y.; Kuzyakov Y.; Wang G.; Tan W.; Zhu B.; Feng X. View/Download:25/0 |
| 水位变化对干涸湖底沉积物有机碳矿化的影响 [期刊论文] 湖泊科学, 2019-01-01, 31 (3) : 85-91 李典鹏; 姚美思; 孙涛; 刘隋赟昊; 张凯; 贾宏涛 View/Download:15/0 |
| The responses of microbial temperature relationships to seasonal change and winter warming in a temperate grassland [期刊论文] Global Change Biology, 2018-01-01, 24 (8 Birgander J.; Olsson P.A.; Rousk J. View/Download:1/0 |
| Temperature sensitivity of soil microbial activity modeled by the square root equation as a unifying model to differentiate between direct temperature effects and microbial community adaptation [期刊论文] Global Change Biology, 2018-01-01, 24 (7 Bååth E. View/Download:0/0 |
| The carbon quality-temperature hypothesis does not consistently predict temperature sensitivity of soil organic matter mineralization in soils from two manipulative ecosystem experiments [期刊论文] Biogeochemistry, 2017-01-01, 136 (3 Reynolds L.L.; Lajtha K.; Bowden R.D.; Johnson B.R.; Bridgham S.D. View/Download:10/0 |
| Dual, differential isotope labeling shows the preferential movement of labile plant constituents into mineral-bonded soil organic matter [期刊论文] Global Change Biology, 2016-01-01, 22 (6 Haddix M.L.; Paul E.A.; Cotrufo M.F. View/Download:0/0 |
| Decadally cycling soil carbon is more sensitive to warming than faster-cycling soil carbon [期刊论文] Global Change Biology, 2015-01-01, 21 (12 Lin J.; Zhu B.; Cheng W. View/Download:14/0 |
| Thermodynamic theory explains the temperature optima of soil microbial processes and high Q10 values at low temperatures [期刊论文] Global Change Biology, 2014-01-01, 20 (11 Schipper L.A.; Hobbs J.K.; Rutledge S.; Arcus V.L. View/Download:2/0 |
| Temperature response of litter and soil organic matter decomposition is determined by chemical composition of organic material [期刊论文] Global Change Biology, 2013-01-01, 19 (12 Erhagen B.; Öquist M.; Sparrman T.; Haei M.; Ilstedt U.; Hedenström M.; Schleucher J.; Nilsson M.B. View/Download:0/0 |