Warming and altered precipitation independently and interactively suppress alpine soil microbial growth in a decadal-long experiment
Copyright policy )Warming and altered precipitation independently and interactively suppress alpine soil microbial growth in a decadal-long experiment
Warming and precipitation anomalies affect terrestrial carbon balance partly through altering microbial eco-physiological processes (e.g., growth and death) in soil. However, little is known about how such processes responds to simultaneous regime shifts in temperature and precipitation. We used the 18O-water quantitative stable isotope probing approach to estimate bacterial growth in alpine meadow soils of the Tibetan Plateau after a decade of warming and altered precipitation manipulation. Our results showed that the growth of major taxa was suppressed by the single and combined effects of temperature and precipitation, eliciting 40–90% of growth reduction of whole community. The antagonistic interactions of warming and altered precipitation on population growth were common (~70% taxa), represented by the weak antagonistic interactions of warming and drought, and the neutralizing effects of warming and wet. The members in Solirubrobacter and Pseudonocardia genera had high growth rates under changed climate regimes. These results are important to understand and predict the soil microbial dynamics in alpine meadow ecosystems suffering from multiple climate change factors.
- State Key Laboratory of Herbage Improvement and Grassland Agro-ecosystems China (People's Republic of)
- State Key Laboratory of Herbage Improvement and Grassland Agro-ecosystems China (People's Republic of)
- Nanjing Agricultural University China (People's Republic of)
- Peking University China (People's Republic of)
- Lanzhou University China (People's Republic of)
warming, multifactor interaction, QH301-705.5, Science, Rain, Climate Change, Tibet, Soil, Biology (General), microbial population growth, Soil Microbiology, the Tibetan Plateau, Ecology, Bacteria, Q, R, Temperature, Grassland, Droughts, quantitative stable isotope probing, Medicine, altered precipitation
warming, multifactor interaction, QH301-705.5, Science, Rain, Climate Change, Tibet, Soil, Biology (General), microbial population growth, Soil Microbiology, the Tibetan Plateau, Ecology, Bacteria, Q, R, Temperature, Grassland, Droughts, quantitative stable isotope probing, Medicine, altered precipitation
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