Dominant species drive ecosystem multifunctionality under changed precipitation timing in a semiarid steppe
文献类型: 外文期刊
第一作者: Zhu, Hongyan
作者: Zhu, Hongyan;Jin, Huiru;Zhang, Yuxian;Wang, Hongjiao;Li, Guoyong;Xiao, Rui;Yang, Zhongling;Fan, Chunkun;Li, Guoyong;Yang, Zhongling
作者机构:
关键词: dominant species; functional diversity; multifunctionality; phylogenetic diversity; precipitation timing; semiarid steppe; taxonomic diversity
期刊名称:ECOLOGICAL APPLICATIONS ( 影响因子:4.3; 五年影响因子:5.1 )
ISSN: 1051-0761
年卷期: 2025 年 35 卷 6 期
页码:
收录情况: SCI
摘要: Biodiversity significantly affects ecosystem multifunctionality (EMF), particularly in the context of changing precipitation patterns. However, the relative importance of multiple dimensions of diversity (e.g., taxonomic, functional, and phylogenetic diversity [PD]) on EMF under different precipitation patterns remains unclear. In this study, we conducted a 7-year field manipulation experiment in the semiarid steppe to examine the effects of taxonomic, functional, and PD on total EMF, aboveground ecosystem multifunctionality (AGEMF), and belowground ecosystem multifunctionality (BGEMF) under changed precipitation in different periods. The results showed that decreased precipitation in the early (DEP), late (DLP), and entire growing season (DP) reduced EMF by 6.5%, 8.4%, and 11.6%, respectively, whereas increased precipitation in different periods had no effect on EMF. DEP, DLP, and DP decreased AGEMF by 10.0%, 9.7%, and 19.0%, respectively. In contrast, increased precipitation in the early (IEP) and entire (IP) growing season enhanced AGEMF by 5.1% and 6.9%, respectively. However, increased precipitation during the late growing season (ILP) did not affect AGEMF. DLP and DP decreased BGEMF by 13.3% and 11.2%, respectively, whereas other precipitation treatments had no effect on BGEMF. Species dominance was the major driver of AGEMF and BGEMF under precipitation decreases while soil moisture was the best predictor of AGEMF under precipitation increases. In contrast, functional and PD had no effect on EMF. The greater sensitivity of EMF, AGEMF, and BGEMF to precipitation decreases than to precipitation increases indicates an asymmetric response of EMF to precipitation changes, highlighting that DLP weakens EMF by reducing the roles of dominant species in the semiarid steppe. The findings are crucial for informing effective grassland management policies and maintaining stable ecosystem provisions.
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