Bark serves crucial roles in safeguarding trees physically and chemically, while also
contributing to nutrient cycling and carbon sequestration. Despite its importance, the broader …

功能生物地理学研究性状及其多样性的时空分布变化, 生态成因及其对生态系统功能的影响.
近十来年, 功能生物地理学领域发展迅速, 性状数据呈指数增长, 基于性状探索物种分布 …

Fine roots (< 2 mm in diameter) play an important role in belowground ecosystem
processes, and their physiological ecology is easily altered by nitrogen deposition. To better …

The quantification of the allocation of nitrogen (N) and phosphorus (P) among plant organs
is essential to improve our understanding of plant growth, life‐history strategies and …

Fine roots (≤ 2 mm in diameter) play a more significant role in regulating the
biogeochemical cycles of forest ecosystems, but our current knowledge of fine root …

Purpose Increasing the pH of acid soils is a well-recognized means of improving their
fertility; however, the effects that plants impose on rhizosphere soils in response to this …

Aims Vertical fine-root distribution determines the potential for acquisition of resources
throughout soil profiles; yet, variation among forest types and changes in vertical distribution …

Fine roots mediate plant nutrient acquisition and growth. Depending on soil nutrient
availability, plants can regulate fine root biomass and morphological traits to optimise …

Aim Fine roots play an important role in biogeochemical cycling in terrestrial ecosystems.
However, our understanding of large scale biogeographical patterns and drivers of fine‐root …

Nitrogen deposition has increased rapidly in eastern China, which can affect the
stoichiometric characteristics of plants. However, the effects of N addition on the nitrogen (N) …