摘要
Humidity not only affects soil microbial respiration(SMR) directly, but, indirectly by regulating the availability of soil water and nutrients. However,the patterns of direct and indirect effects of humidity on SMR over large precipitation gradients remain unclear, limiting our understanding of the effects of precipitation changes on soil C cycle. Here, we investigated the relationships among humidity, soil nutrients, and SMR by identifying stoichiometric imbalances, microbial elemental homeostasis, and microbial C use efficiency along a precipitation gradient at a continental scale. The relationship between SMR and humidity index(HI) corresponded to a Richard’s curve with an inflection point threshold value of approximately 0.7. Soil microbial respiration increased with increasing humidity in drier areas(HI < 0.7), but tended to balance above this threshold. Increasing humidity exacerbated C:P and N:P imbalances across the selected gradient. Severe N and P limitations in soil microbial communities were observed in drier areas, while soil microbes suffered from aggravated P limitation as the humidity increased in wetter areas(HI > 0.7). Soil microbial communities regulated their enzyme production to maintain a strong stoichiometric homeostasis in drier areas;enzyme production, microbial biomass, and threshold elemental ratios were non-homeostatic under P limitation in wetter areas, which further contributed to the increase in SMR. Our results identified a moisture constraint on SMR in drier areas and highlighted the importance of nutrient(especially for P) limitations induced by humidity in regulating SMR in wetter areas. Understanding the modulation of SMR via soil enzyme activity may improve the prediction of soil C budget under future global climate change.
基金
sponsored by the National Natural Science Foundation of China (Nos. 42277471 and 42307578)
the Strategic Priority Research Program of the Chinese Academy of Sciences (Nos. XDB40000000 and XDA23070201)
the Postdoctoral Research Funds of the Shaanxi Province,China(2023BSHYDZZ76)
the Open Grant for State Key Laboratory of Loess and Quaternary Geology,the Institute of Earth Environment,Chinese Academy of Sciences (SKLLOG2230)
the Fundamental Research Funds for the Central Universities,China (2023HHZX002)
the Special Support Plan of Young Talents Project of Shaanxi Province and National Forestry and Grassland Administration in China(No. 20201326015)。
