Stoichiometric homeostasis of vascular plants in the Inner Mongolia grassland

生物 平衡 生态化学计量学 营养物 草原 维管植物 生态系统 植物 植物生理学 共生 生态学 细胞生物学 化学 有机化学 遗传学 细菌 物种丰富度
作者
Qiang Yu,James J. Elser,Nianpeng He,Honghui Wu,Quansheng Chen,Guangming Zhang,Xingguo Han
出处
期刊:Oecologia [Springer Science+Business Media]
卷期号:166 (1): 1-10 被引量:211
标识
DOI:10.1007/s00442-010-1902-z
摘要

Stoichiometric homeostasis, the degree to which an organism maintains its C:N:P ratios around a given species- or stage-specific value despite variation in the relative availabilities of elements in its resource supplies, is a key parameter in ecological stoichiometry. However, its regulation and role in affecting organismal and ecosystem processes is still poorly understood in vascular plants. We performed a sand culture experiment and a field nitrogen (N) and phosphorus (P) addition experiment to evaluate the strength of N, P and N:P homeostasis in higher plants in the Inner Mongolia grassland. Our results showed that homeostatic regulation coefficients (H) of vascular plants ranged from 1.93 to 14.5. H varied according to plant species, aboveground and belowground compartments, plant developmental stage, and overall plant nutrient content and N:P ratio. H for belowground and for foliage were inversely related, while H increased with plant developmental stage. H for N (H(N)) was consistently greater than H for P (H(P)) while H for N:P (H(N:P)) was consistently greater than H(N) and H(P). Furthermore, species with greater N and P contents and lower N:P were less homeostatic, suggesting that more homeostatic plants are more conservative nutrient users. The results demonstrate that H of plants encompasses a considerable range but is stronger than that of algae and fungi and weaker than that of animals. This is the first comprehensive evaluation of factors influencing stoichiometric homeostasis in vascular plants.
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