Nitrogen addition amplified water effects on species composition shift and productivity increase

生物量(生态学) 初级生产 环境科学 生产力 多年生植物 生态系统 降水 温带气候 草原 农学 生态学 生物 地理 气象学 宏观经济学 经济
作者
Xiaolin Zhang,Muqier Hasi,Ang Li,Yulian Tan,Stefani Daryanto,Lixin Wang,Xueyao Zhang,Shiping Chen,Jianhui Huang
出处
期刊:Journal of Plant Ecology [Oxford University Press]
卷期号:14 (5): 816-828 被引量:14
标识
DOI:10.1093/jpe/rtab034
摘要

Abstract Aims Water and nitrogen (N) are two key resources in dryland ecosystems, but they may have complex interactive effects on the community structure and ecosystem functions. How future precipitation (rainfall vs snowfall) change will impact aboveground net primary production (ANPP) is far from clear, especially when combined with increasing N availability. Methods In this study, we investigated changes in community productivity, abundance and aboveground biomass of two dominant plant functional groups (PFGs), i.e. perennial rhizome grasses (PR) and perennial bunchgrasses (PB) under the impacts of increased precipitation (rainfall vs snowfall) combined with N addition in a semiarid temperate steppe. Important Findings Summer rainfall augmentation marginally increased community ANPP, whereas it significantly increased the abundance and aboveground biomass of PR, but not those of PB. Summer rainfall addition increased the fraction of PR biomass (fPR) while decreased that of PB (fPB). Spring snow addition had no effect on aboveground biomass of either compositional PFG although it marginally increased community ANPP. Nitrogen addition significantly increased community ANPP with greater increase in PR under summer rainfall addition, indicating strong interactive effects on community ANPP largely by enhancing PR biomass. We also found a nonlinear increase in the positive effect of nitrogen addition on productivity with the increased precipitation amount. These findings indicate an amplified impact of precipitation increase on grassland productivity under the accelerated atmospheric N deposition in the future.
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