Studies on ecological stoichiometry (ES) have increased rapidly in number in recent years.
Continuous exploration of classical concepts such as the growth-rate hypothesis (GRH),) …

Abstract C, N and P are three of the most important elements used to build living beings, and
their uptake from the environment is consequently essential for all organisms. We have …

Phenotypic traits and their associated trade-offs have been shown to have globally
consistent effects on individual plant physiological functions,,, but how these effects scale up …

Plant traits–the morphological, anatomical, physiological, biochemical and phenological
characteristics of plants and their organs–determine how primary producers respond to …

Ecological stoichiometry reflects the element content and energy flow, which are important
for biogeochemical cycling in ecosystems. However, the ecological stoichiometry in leaves …

Background and aims Nitrogen (N) and/or phosphorus (P) limitation to primary productivity
and other biological processes can change in a variety of ways as ecosystems develop …

Terrestrial carbon (C) cycle models applied for climate projections simulate a strong
increase in net primary productivity (NPP) due to elevated atmospheric CO 2 concentration …

Global patterns of leaf nitrogen (N) and phosphorus (P) stoichiometry have been interpreted
as reflecting phenotypic plasticity in response to the environment, or as an overriding effect …

Leaf chemistry is important in predicting the functioning and dynamics of ecosystems. As two
key traits, leaf nitrogen (N) and phosphorus (P) concentrations set the limits for plant growth …

A plant community is an assemblage of plant populations that live in certain area, and
interact with and adapt to one another in the context of long-term environmental changes …