Drought of early time in growing season decreases community aboveground biomass, but increases belowground biomass in a desert steppe
文献类型: 外文期刊
第一作者: Li, Xiangyun
作者: Li, Xiangyun;Zuo, Xiaoan;Yue, Ping;Zhao, Xueyong;Hu, Ya;Guo, Xinxin;Guo, Aixia;Li, Xiangyun;Hu, Ya;Guo, Xinxin;Guo, Aixia;Zuo, Xiaoan;Zhao, Xueyong;Li, Xiangyun;Zuo, Xiaoan;Yue, Ping;Zhao, Xueyong;Hu, Ya;Guo, Xinxin;Guo, Aixia;Xu, Chong;Yu, Qiang
作者机构:
关键词: Precipitation changes; Species diversity; Plant traits; Plant biomass
期刊名称:BMC ECOLOGY AND EVOLUTION
ISSN:
年卷期: 2021 年 21 卷 1 期
页码:
收录情况: SCI
摘要: Background Increasing drought induced by global climate changes is altering the structure and function of grassland ecosystems. However, there is a lack of understanding of how drought affects the trade-off of above- and belowground biomass in desert steppe. We conducted a four-year (2015-2018) drought experiment to examine the responses of community above-and belowground biomass (AGB and BGB) to manipulated drought and natural drought in the early period of growing season (from March to June) in a desert steppe. We compared the associations of drought with species diversity (species richness and density), community-weighted means (CWM) of five traits, and soil factors (soil Water, soil carbon content, and soil nitrogen content) for grass communities. Meanwhile, we used the structural equation modeling (SEM) to elucidate whether drought affects AGB and BGB by altering species diversity, functional traits, or soil factors. Results We found that manipulated drought affected soil water content, but not on soil carbon and nitrogen content. Experimental drought reduced the species richness, and species modified the CWM of traits to cope with a natural drought of an early time in the growing season. We also found that the experimental and natural drought decreased AGB, while natural drought increased BGB. AGB was positively correlated with species richness, density, CWM of plant height, and soil water. BGB was negatively correlated with CWM of plant height, CWM of leaf dry matter content, and soil nitrogen content, while was positively correlated with CWM of specific leaf area, CWM of leaf nitrogen content, soil water, and soil carbon content. The SEM results indicated that the experimental and natural drought indirectly decreased AGB by reducing species richness and plant height, while natural drought and soil nitrogen content directly affected BGB. Conclusions These results suggest that species richness and functional traits can modulate the effects of drought on AGB, however natural drought and soil nitrogen determine BGB. Our findings demonstrate that the long-term observation and experiment are necessary to understand the underlying mechanism of the allocation and trade-off of community above-and belowground biomass.
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