Add to ORKGIn old and heavily weathered soils, the availability of P might be so small that the primary production of plants is limited. However, plants have evolved several mechanisms to actively take up P from the soil or mine it to overcome this limitation. These mechanisms involve the active uptake of P mediated by mycorrhiza, biotic de-occlusion through root clusters, and the biotic enhancement of weathering through root exudation. The objective of this paper is to investigate how and where these processes contribute to alleviate P limitation on primary productivity. To do so, we propose a process-based model accounting for the major processes of the carbon, water, and P cycles including chemical weathering at the global scale. Implementing P lim...
Phosphorus (P) is the second most important nutrient after nitrogen (N) and can greatly diminish pla...
International audiencePhosphorus (P) availability affects the response of terrestrial ecosystems to ...
Inputs of available nitrogen (N) to ecosystems have grown over the recent past. There is limited gen...
In old and heavily weathered soils, the availability of P might be so small that the primary product...
International audienceUnderstanding the mechanisms underlying phosphorus (P) availability is importa...
Phosphorus (P) is a crucial element for life and therefore for maintaining ecosystem productivity. I...
Our ability to understand the effect of nutrient limitation on ecosystem productivity is key to the ...
Our ability to understand the effect of nutrient limitation on ecosystem productivity is key to the ...
Phosphorus availability may shape plant–microorganism–soil interactions in forest ecosystems. Our ai...
Phosphorus availability may shape plant–microorganism–soil interactions in forest ecosystems. Our ai...
Most of the Earth System Models (ESMs) project increases in net primary productivity (NPP) and terre...
Increasing human population placed stress on the environment, as well as shifting in land use patter...
Understanding the main underlying drivers of soil nutrient cycles is essential for predicting the ef...
Phosphorus (P) is the second most important nutrient after nitrogen (N) and can greatly diminish pla...
International audiencePhosphorus (P) availability affects the response of terrestrial ecosystems to ...
Inputs of available nitrogen (N) to ecosystems have grown over the recent past. There is limited gen...
In old and heavily weathered soils, the availability of P might be so small that the primary product...
International audienceUnderstanding the mechanisms underlying phosphorus (P) availability is importa...
Phosphorus (P) is a crucial element for life and therefore for maintaining ecosystem productivity. I...
Our ability to understand the effect of nutrient limitation on ecosystem productivity is key to the ...
Our ability to understand the effect of nutrient limitation on ecosystem productivity is key to the ...
Phosphorus availability may shape plant–microorganism–soil interactions in forest ecosystems. Our ai...
Phosphorus availability may shape plant–microorganism–soil interactions in forest ecosystems. Our ai...
Most of the Earth System Models (ESMs) project increases in net primary productivity (NPP) and terre...
Increasing human population placed stress on the environment, as well as shifting in land use patter...
Understanding the main underlying drivers of soil nutrient cycles is essential for predicting the ef...
Phosphorus (P) is the second most important nutrient after nitrogen (N) and can greatly diminish pla...
International audiencePhosphorus (P) availability affects the response of terrestrial ecosystems to ...
Inputs of available nitrogen (N) to ecosystems have grown over the recent past. There is limited gen...