State Key Laboratory of Vegetation and Environmental Change, Institute of Botany, Chinese Academy of Sciences, Beijing, China.
Oecologia. 2011 May;166(1):1-10. doi: 10.1007/s00442-010-1902-z. Epub 2011 Jan 11.
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.
化学计量内稳性是指生物体在资源供应中元素相对可利用性变化的情况下,维持其特定物种或特定阶段特定 C:N:P 比例的程度,是生态化学计量学的一个关键参数。然而,在维管植物中,其调节机制及其对生物和生态系统过程的影响仍然知之甚少。我们进行了沙培实验和野外氮(N)和磷(P)添加实验,以评估内蒙古草原高等植物中 N、P 和 N:P 内稳性的强度。结果表明,维管植物的内稳性调节系数(H)范围为 1.93 至 14.5。H 因植物物种、地上和地下部分、植物发育阶段以及植物整体养分含量和 N:P 比而异。地下部分和叶部的 H 呈负相关,而 H 随植物发育阶段增加。H 对 N(H(N)))始终大于 H 对 P(H(P))),而 H 对 N:P(H(N:P)))始终大于 H(N)和 H(P)。此外,N 和 P 含量较高、N:P 较低的物种内稳性较低,这表明更内稳的植物是更保守的养分利用者。结果表明,植物的 H 范围相当大,但强于藻类和真菌,弱于动物。这是首次对维管植物化学计量内稳性影响因素进行的综合评估。