International audienceClimate change has consequences for terrestrial functioning, but predictions of plant responses remain uncertain because of the gaps in the representation of nutrient cycles and C–N–P interactions in ecosystem models. Here, we review the processes that are included in ecosystem models, but focus on coupled C–N–P cycle models. We highlight important plant adjustments to climate change, elevated atmospheric CO2, and/or nutrient limitations that are currently not—or only partially—incorporated in ecosystem models by reviewing experimental studies and compiling data. Plant adjustments concern C:N:P stoichiometry, photosynthetic capacity, nutrient resorption rates, allocation patterns, symbiotic N2 fixation and root exudati...
Terrestrial ecosystems carbon and water cycles are tightly coupled through photosynthesis and evapot...
The possible responses of ecosystem processes to rising atmospheric CO2 concentration and climate ch...
Recently a considerable amount of effort has been put into quantifying how interactions of the carbo...
International audienceClimate change has consequences for terrestrial functioning, but predictions o...
Understanding the degree to which nitrogen (N) availability limits land carbon (C) uptake under glob...
The dynamics of terrestrial ecosystems are shaped by the coupled cycles of carbon, nitrogen and phos...
1. Plant-soil interactions play a central role in the biogeochemical carbon (C), nitrogen (N) and hy...
The dynamics of terrestrial ecosystems are shaped by the coupled cycles of carbon, nitrogen and phos...
A model of the interacting global carbon and nitrogen cycles (CQUESTN) is developed to explore the p...
Abstract Carbon (C) enters into the terrestrial ecosystems via photosynthesis and cycles through the...
Models are essential in the study of plant responses to climate change. Most experimental studies ar...
The availability of phosphorus (P) and nitrogen (N) constrains the ability of ecosystems to use reso...
The possible responses of ecosystem processes to rising atmospheric CO2 concentration and climate c...
Models are essential in the study of plant responses to climate change. Most experimental studies ar...
Abstract Climate change is evident and increases of carbon dioxide concentration (CO 2), temperature...
Terrestrial ecosystems carbon and water cycles are tightly coupled through photosynthesis and evapot...
The possible responses of ecosystem processes to rising atmospheric CO2 concentration and climate ch...
Recently a considerable amount of effort has been put into quantifying how interactions of the carbo...
International audienceClimate change has consequences for terrestrial functioning, but predictions o...
Understanding the degree to which nitrogen (N) availability limits land carbon (C) uptake under glob...
The dynamics of terrestrial ecosystems are shaped by the coupled cycles of carbon, nitrogen and phos...
1. Plant-soil interactions play a central role in the biogeochemical carbon (C), nitrogen (N) and hy...
The dynamics of terrestrial ecosystems are shaped by the coupled cycles of carbon, nitrogen and phos...
A model of the interacting global carbon and nitrogen cycles (CQUESTN) is developed to explore the p...
Abstract Carbon (C) enters into the terrestrial ecosystems via photosynthesis and cycles through the...
Models are essential in the study of plant responses to climate change. Most experimental studies ar...
The availability of phosphorus (P) and nitrogen (N) constrains the ability of ecosystems to use reso...
The possible responses of ecosystem processes to rising atmospheric CO2 concentration and climate c...
Models are essential in the study of plant responses to climate change. Most experimental studies ar...
Abstract Climate change is evident and increases of carbon dioxide concentration (CO 2), temperature...
Terrestrial ecosystems carbon and water cycles are tightly coupled through photosynthesis and evapot...
The possible responses of ecosystem processes to rising atmospheric CO2 concentration and climate ch...
Recently a considerable amount of effort has been put into quantifying how interactions of the carbo...