The Legacy Effects of Winter Climate on Microbial Functioning After Snowmelt in a Subarctic Tundra
Copyright policy )The Legacy Effects of Winter Climate on Microbial Functioning After Snowmelt in a Subarctic Tundra
Warming-induced increases in microbial CO2 release in northern tundra may positively feedback to climate change. However, shifts in microbial extracellular enzyme activities (EEAs) may alter the impacts of warming over the longer term. We investigated the in situ effects of 3 years of winter warming in combination with the in vitro effects of a rapid warming (6 days) on microbial CO2 release and EEAs in a subarctic tundra heath after snowmelt in spring. Winter warming did not change microbial CO2 release at ambient (10 °C) or at rapidly increased temperatures, i.e., a warm spell (18 °C) but induced changes (P < 0.1) in the Q10 of microbial respiration and an oxidative EEA. Thus, although warmer winters may induce legacy effects in microbial temperature acclimation, we found no evidence for changes in potential carbon mineralization after spring thaw.
- Umeå University Sweden
- École Polytechnique Fédérale de Lausanne EPFL Switzerland
- Swiss Federal Institute for Forest, Snow and Landscape Research Switzerland
- Swedish University of Agricultural Sciences Sweden
- University of Lapland Finland
temperature sensitivity, thermal-acclimation, Climate Change, plfa, Cell Respiration, phenol oxidase, extracellular enzyme-activities, Soil, -glucosidase, microbial respiration, Snow, soil organic-matter, vascular plants, Tundra, Soil Microbiology, decomposition, Bacteria, Ecology, Monophenol Monooxygenase, carbon, Microbiota, beta-Glucosidase, seasonal patterns, Fungi, Temperature, extracellular enzymes, fatty-acids, Carbon Dioxide, Carbon, Enzyme Activation, snow manipulation, Seasons, respiration, Environmental Monitoring
temperature sensitivity, thermal-acclimation, Climate Change, plfa, Cell Respiration, phenol oxidase, extracellular enzyme-activities, Soil, -glucosidase, microbial respiration, Snow, soil organic-matter, vascular plants, Tundra, Soil Microbiology, decomposition, Bacteria, Ecology, Monophenol Monooxygenase, carbon, Microbiota, beta-Glucosidase, seasonal patterns, Fungi, Temperature, extracellular enzymes, fatty-acids, Carbon Dioxide, Carbon, Enzyme Activation, snow manipulation, Seasons, respiration, Environmental Monitoring
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