Microbial metabolic response to winter warming stabilizes soil carbon

Current consensus on global climate change predicts warming trends with more pronounced temperature changes in winter than summer in the Northern Hemisphere at high latitudes. Moderate increases in soil temperature are generally related to faster rates of soil organic carbon (SOC) decomposition in Northern ecosystems, but there is evidence that SOC stocks have remained remarkably stable or even increased on the Tibetan Plateau under these conditions. This intriguing observation points to altered soil microbial mediation of carbon-cycling feedbacks in this region that might be related to seasonal warming. This study investigated the unexplained SOC stabilization observed on the Tibetan Plateau by quantifying microbial responses to experimental seasonal warming in a typical alpine meadow. Ecosystem respiration was reduced by 17%–38% under winter warming compared with year-round warming or no warming and coincided with decreased abundances of fungi and functional genes that control labile and stable organic carbon decomposition. Compared with year-round warming, winter warming slowed macroaggregate turnover rates by 1.6 times, increased fine intra-aggregate particulate organic matter content by 75%, and increased carbon stabilized in microaggregates within stable macroaggregates by 56%. Larger bacterial “necromass” (amino sugars) concentrations in soil under winter warming coincided with a 12% increase in carboxyl-C. These results indicate the enhanced physical preservation of SOC under winter warming and emphasize the role of soil microorganisms in aggregate life cycles. In summary, the divergent responses of SOC persistence in soils exposed to winter warming compared to year-round warming are explained by the slowing of microbial decomposition but increasing physical protection of microbially derived organic compounds. Consequently, the soil microbial response to winter warming on the Tibetan Plateau may cause negative feedbacks to global climate change and should be considered in Earth system models. © 2021 John Wiley & Sons Ltd.

Authors
Tian J.1, 2 , Zong N.2 , Hartley I.P.3 , He N.2 , Zhang J. 4 , Powlson D.5 , Zhou J.6, 7 , Kuzyakov Y. 8, 9, 10 , Zhang F.1 , Yu G.2 , Dungait J.A.J.3, 11
Publisher
Blackwell Publishing Ltd
Language
English
Status
Published
Year
2021
Organizations
  • 1 College of Resources and Environmental Sciences, Key Laboratory of Plant-Soil Interactions, Ministry of Education, National Academy of Agriculture Green Development, China Agricultural University, Beijing, China
  • 2 Key Laboratory of Ecosystem Network Observation and Modeling, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences (CAS), Beijing, China
  • 3 Geography, College of Life and Environmental Sciences, University of Exeter, Exeter, United Kingdom
  • 4 Key Laboratory of Soil Resource Sustainable Utilization for Commodity Grain Bases of Jilin Province, College of Resource and Environmental Science, Jilin Agricultural University, Changchun, China
  • 5 Department of Sustainable Agriculture Sciences, Rothamsted Research, Harpenden, United Kingdom
  • 6 Institute for Environmental Genomics, Department of Microbiology and Plant Biology and School of Civil Engineering and Environmental Sciences, University of Oklahoma, Norman, OK, United States
  • 7 Earth and Environmental Sciences, Lawrence Berkeley National Laboratory, Berkeley, CA, United States
  • 8 Department of Soil Science of Temperate Ecosystems, University of Göttingen, Göttingen, Germany
  • 9 Agro-Technological Institute, RUDN University, Moscow, Russian Federation
  • 10 Institute of Environmental Sciences, Kazan Federal University, Kazan, Russian Federation
  • 11 Carbon Management Centre, SRUC-Scotland's Rural College, Edinburgh, United Kingdom
Keywords
carbon degradation genes; microbial anabolism; microbial community; SOC stabilization; soil aggregate turnover; winter warming
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