Nutrient-limited conditions determine the responses of foliar nitrogen and phosphorus stoichiometry to nitrogen addition: A global meta-analysis

Chengming You; Fuzhong Wu; Wanqin Yang; Zhenfeng Xu; Bo Tan; Kai Yue; Xiangyin Ni

doi:10.1016/j.envpol.2018.06.018

Nutrient-limited conditions determine the responses of foliar nitrogen and phosphorus stoichiometry to nitrogen addition: A global meta-analysis

Environ Pollut. 2018 Oct:241:740-749. doi: 10.1016/j.envpol.2018.06.018. Epub 2018 Jun 8.

Authors

Chengming You¹, Fuzhong Wu¹, Wanqin Yang², Zhenfeng Xu¹, Bo Tan¹, Kai Yue¹, Xiangyin Ni¹

Affiliations

¹ Long-term Research Station of Alpine Forest Ecosystems, Provincial Key Laboratory of Ecological Forestry Engineering, Institute of Ecology and Forestry, Sichuan Agricultural University, 211 Huimin Road, Wenjiang District, Chengdu 611130, China.
² Long-term Research Station of Alpine Forest Ecosystems, Provincial Key Laboratory of Ecological Forestry Engineering, Institute of Ecology and Forestry, Sichuan Agricultural University, 211 Huimin Road, Wenjiang District, Chengdu 611130, China. Electronic address: scyangwq@163.com.

PMID: 29908498
DOI: 10.1016/j.envpol.2018.06.018

Abstract

To test the hypothesis that nutrient-limited conditions can determine the responses of nitrogen (N) and phosphorus (P) stoichiometry to N addition, a meta-analysis was conducted to identify the different responses of foliar N and P concentrations and N-to-P ratios to N addition under N limitation, N and P co-limitation and P limitation. N addition increased the foliar N-to-P ratios and N concentrations by 46.2% and 30.2%, respectively, under N limitation, by 18.7% and 19.7% under N and P co-limitation, and by 4.7% and 12.9% under P limitation. However, different responses of foliar P concentrations to N addition were observed under different nutrient limitations, and negative, positive, and neutral effects on P concentrations were observed under N limitation, P limitation and N and P co-limitation, respectively. Generally, the effects of N addition on N-to-P ratios and N concentrations in herbaceous plants were dramatically larger than those in woody plants (with the exception of the N-to-P ratio under N limitation), but the opposite situation was true for P concentrations. The changes in N-to-P ratios were closely correlated with the changes in N and P concentrations, indicating that the changes in both N and P concentrations due to N addition can drive N and P stoichiometry, but the relative sizes of the contributions of N and P varied greatly with different nutrient limitations. Specifically, the changes in N-to-P ratios may indicate a minimum threshold, which is consistent with the homeostatic mechanism. In brief, increasing N deposition may aggravate P limitation under N-limited conditions but improve P limitation under P-limited conditions. The findings highlight the importance of nutrient-limited conditions in the stoichiometric response to N addition, thereby advancing our ability to predict global plant growth with increasing N deposition in the future.

Keywords: Foliar N and P concentrations; Foliar N-to-P ratio; Global meta-analysis; N deposition; Nutrient-limited conditions.

Publication types

Meta-Analysis

MeSH terms

Nitrogen / metabolism*
Phosphorus / metabolism*
Plant Development
Plant Leaves / physiology*
Plants
Wood

Substances

Phosphorus
Nitrogen