Resource enrichment combined with biomass removal maintains plant diversity and community stability in a long-term grazed grassland
文献类型: 外文期刊
第一作者: Xu, Feng-Wei
作者: Xu, Feng-Wei;Lu, Xiao-Ming;Bai, Yong-Fei;Li, Jian-Jun;Wu, Li-Ji;Xing, Wen;Chen, Di-Ma;Zhu, Biao;Wang, Shao-Peng;Zhu, Biao;Wang, Shao-Peng;Jiang, Lin;Bai, Yong-Fei
作者机构:
关键词: biomass removal; resource addition; species richness; community stability; plant functional groups (PFGs); species asynchrony
期刊名称:JOURNAL OF PLANT ECOLOGY ( 影响因子:1.774; 五年影响因子:2.547 )
ISSN: 1752-9921
年卷期: 2020 年 13 卷 5 期
页码:
收录情况: SCI
摘要: Aims Long-term heavy grazing reduces plant diversity and ecosystem function by intensifying nitrogen (N) and water limitation. In contrast, the absence of biomass removal can cause species loss by elevating light competition and weakening community stability, which is exacerbated by N and water enrichment. Hence, how to maintain species diversity and community stability is still a huge challenge for sustainable management of worldwide grasslands. Methods We conducted a 4-year manipulated experiment in six long-term grazing blocks to explore combination of resource additions and biomass removal (increased water, N and light availability) on species richness and community stability in semiarid grasslands of Inner Mongolia, China. Important Findings In all blocks treated with the combination of resource additions and biomass removal, primary productivity increased and species richness arid community stability were maintained over 4 years of experiment. At both species arid plant functional group (PFG) levels, the aboveground biomass of treated plants remained temporally stable in treatments with the combination of N and/or water addition and biomass removal. The maintenance of species richness was primarily caused by the biomass removal, which could increase the amount of light exposure for grasses under resource enrichment. Both species asynchrony and stability of PFGs contributed to the high temporal stability observed in these communities. Our results indicate that management practices of combined resource enrichment with biomass removal, such as grazing or mowing, could not only enhance primary productivity but also maintain plant species diversity, species asynchrony and community stability. Furthermore, as overgrazing-induced degradation and resource enrichment-induced biodiversity loss continue to be major problems worldwide, our findings have important implications for adaptive management in semiarid grasslands and beyond.
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