Minor Effects of Warming on Soil Microbial Diversity, Richness and Community Structure DOI Open Access
Xudong Wang, Wei‐Min Wu, Gukailin Ao

et al.

Global Change Biology, Journal Year: 2025, Volume and Issue: 31(3)

Published: March 1, 2025

ABSTRACT Climate warming has caused widespread global concern. However, how affects soil microbial diversity, richness, and community structure on a scale remains poorly understood. Here we conduct meta‐analysis of 945 observations from 100 publications by collecting relevant data. The results show that field experiments significantly modify temperature (+1.8°C), water content (−3.2%), pH (−0.04). does not alter the bacteria fungi. Warming‐induced changes in variables (i.e., ΔSoil content, ΔpH), ΔTemperature experimental duration are important factors influencing responses to warming. In addition, bacterial α‐diversity (Shannon index) decreases (−3.4%) when is 3–6 years, β‐diversity increases (35.2%) exceeds 6 years. Meta‐regression analysis reveals positive correlation between change Shannon index ΔpH. Moreover, produces more pronounced effects fungal sites with moderate mean annual (MAT, 0°C–10°C) than higher (> 10°C) or lower (< 0°C) MAT. Overall, this study provides perspective response microorganisms climate improves our knowledge

Language: Английский

Minor Effects of Warming on Soil Microbial Diversity, Richness and Community Structure DOI Open Access
Xudong Wang, Wei‐Min Wu, Gukailin Ao

et al.

Global Change Biology, Journal Year: 2025, Volume and Issue: 31(3)

Published: March 1, 2025

ABSTRACT Climate warming has caused widespread global concern. However, how affects soil microbial diversity, richness, and community structure on a scale remains poorly understood. Here we conduct meta‐analysis of 945 observations from 100 publications by collecting relevant data. The results show that field experiments significantly modify temperature (+1.8°C), water content (−3.2%), pH (−0.04). does not alter the bacteria fungi. Warming‐induced changes in variables (i.e., ΔSoil content, ΔpH), ΔTemperature experimental duration are important factors influencing responses to warming. In addition, bacterial α‐diversity (Shannon index) decreases (−3.4%) when is 3–6 years, β‐diversity increases (35.2%) exceeds 6 years. Meta‐regression analysis reveals positive correlation between change Shannon index ΔpH. Moreover, produces more pronounced effects fungal sites with moderate mean annual (MAT, 0°C–10°C) than higher (> 10°C) or lower (< 0°C) MAT. Overall, this study provides perspective response microorganisms climate improves our knowledge

Language: Английский

Citations

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