International audienceSoil organic carbon (OC) sequestration (i.e. the capture and long-term storage of atmospheric CO2) is being considered as a possible solution to mitigate climate change, notably through land use change (conversion of cropped land into pasture) and conservation agricultural practices (reduced tillage). Subsoil horizons (from 30 cm to 1 m) contribute to ca. half the total amount of soil OC, and the slow dynamics of deep OC as well as the relationships between the OC depth distribution and changes in land use and tillage practices still need to be modelled. We developed a fully modular, mechanistic OC depth distribution model, named OC-VGEN. This model includes OC dynamics, plant development, transfer of water, gas and he...
We use a soil carbon (C) model (RothC), driven by a range of climate models for a range of climate s...
International audienceTo protect soils against threats, it is necessary to predict the consequences ...
This dataset contains soil organic carbon stocks as described in Keel et al. Global Change Biology (...
International audienceSoil organic carbon (OC) sequestration (i.e. the capture and long-term storage...
Soil organic carbon (SOC) sequestration is highly linked to soil use and farming practices, but also...
Soils are a major reservoir for organic carbon storing more carbon (C) than vegetation and the atmos...
Land-use change affects both the quality and quantity of soil organic carbon (SOC) and leads to chan...
International audienceLand-use change affects both the quality and quantity of soil organic carbon (...
Soils constitute the major reservoir of organic carbon storing around 2500 Pg C in the top two meter...
Summarization: Soil organic carbon (SOC) is a strong determinant of soil fertility through its posit...
When assessing soil organic carbon (SOC) sequestration and its climate change (CC) mitigation potent...
Soil organic carbon (SOC) is a strong determinant of soil fertility through its positive effects on ...
Assessments of the global carbon (C) cycle typically rely on simplified models which consider large ...
We use a soil carbon (C) model (RothC), driven by a range of climate models for a range of climate s...
International audienceTo protect soils against threats, it is necessary to predict the consequences ...
This dataset contains soil organic carbon stocks as described in Keel et al. Global Change Biology (...
International audienceSoil organic carbon (OC) sequestration (i.e. the capture and long-term storage...
Soil organic carbon (SOC) sequestration is highly linked to soil use and farming practices, but also...
Soils are a major reservoir for organic carbon storing more carbon (C) than vegetation and the atmos...
Land-use change affects both the quality and quantity of soil organic carbon (SOC) and leads to chan...
International audienceLand-use change affects both the quality and quantity of soil organic carbon (...
Soils constitute the major reservoir of organic carbon storing around 2500 Pg C in the top two meter...
Summarization: Soil organic carbon (SOC) is a strong determinant of soil fertility through its posit...
When assessing soil organic carbon (SOC) sequestration and its climate change (CC) mitigation potent...
Soil organic carbon (SOC) is a strong determinant of soil fertility through its positive effects on ...
Assessments of the global carbon (C) cycle typically rely on simplified models which consider large ...
We use a soil carbon (C) model (RothC), driven by a range of climate models for a range of climate s...
International audienceTo protect soils against threats, it is necessary to predict the consequences ...
This dataset contains soil organic carbon stocks as described in Keel et al. Global Change Biology (...