Ecological stoichiometry of nitrogen, phosphorous, and sulfur in China's forests

Much attention has been paid to the stoichiometry of carbon(C), nitrogen(N), and phosphorus(P) because of their significance for plant growth and climate change. However, other nutrients, such as sulfur(S), are often ignored. In this study, we analyzed the stoichiometry of N, P, and S in leaves of 3...

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Published in:中国地球化学学报:英文版 2017, Vol.36 (3), p.525-530
Main Authors: Yuntao Wu, Hongyan Liu, Zhaoliang Song, Xiaomin Yang, Zichuan Li, Qian Hao, Linan Liu
Format: Article
Language:English
Subjects:
中国森林
化学计量学
化学计量比
土壤速效氮
氮磷
热带森林
生态型
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Summary:Much attention has been paid to the stoichiometry of carbon(C), nitrogen(N), and phosphorus(P) because of their significance for plant growth and climate change. However, other nutrients, such as sulfur(S), are often ignored. In this study, we analyzed the stoichiometry of N, P, and S in leaves of 348 plant species in China's forests. The results show higher N content and higher molar ratios of N/P and P/S in Angiospermae than in Gymnospermae. At the family level, Ulmaceae absorbed more N and P from soils than other families, and Cupressaceae absorbed more S than other families. In addition,except for bamboo and other tropical forests, leaf N and P content of China's forests generally increased from low to middle latitudes and then slightly decreased or plateaued at high latitudes. Plant ecotypes, taxonomic groups, environmental conditions, atmospheric S precipitation, and soil-available N and P significantly affected the distribution and stoichiometry of leaf N, P, and S in China's forests.Our study indicates that China's forests are likely limited by P and S deficiencies which may increase in the future.
ISSN:2096-0956
2365-7499