Adopting Regenerative Agriculture (RA) practices on temperate arable land can increase soil organic carbon (SOC) concentration without reducing crop yields. RA is therefore receiving much attention as a climate change mitigation strategy. However, estimating the potential change in national soil carbon stocks following adoption of RA practices is required to determine its suitability for this. Here, we use a well-validated model of soil carbon turnover (RothC) to simulate adoption of three regenerative practices (cover cropping, reduced tillage intensity and incorporation of a grass-based ley phase into arable rotations) across arable land in Great Britain (GB). We develop a modelling framework which calibrates RothC using studies of these ...
Alternative management practices (AMP)- Using soils to mitigate carbon emissions JRC scientists find...
International initiatives such as the ‘4 pour 1000’ are promoting enhanced carbon (C) sequestration ...
One option for sequestering carbon in the terrestrial biosphere is to increase the carbon (C) stocks...
Adopting Regenerative Agriculture (RA) practices on temperate arable land can increase soil organic ...
ACKNOWLEDGMENTS We would like to thank Dr Andrew C. Martin for advice on our modelling framework. Th...
Regenerative Agriculture (RA) claims to build soil organic carbon (SOC) and increase crop yields thr...
Alternative cropping systems such as conservation agriculture and organic farming are expected to de...
Global food production is currently contributing to numerous environmental challenges including anth...
The quantity of carbon (C) held in organic matter in the world’s soils to a depth of 1m is estimated...
This study aims at developing a clear understanding of the impacts and benefits of the two most comm...
Results from the UK were reviewed to quantify the impact on climate change mitigation of soil organi...
Abstract Aims Soil organic carbon (SOC) stocks of croplands can be enhanced by targeted management, ...
Simulating cropland soil carbon changes following a reduction in tillage intensity is necessary to d...
Assessments of the global carbon (C) cycle typically rely on simplified models which consider large ...
R code and supplementary data for soil carbon simulations: "Can Regenerative Agriculture increase na...
Alternative management practices (AMP)- Using soils to mitigate carbon emissions JRC scientists find...
International initiatives such as the ‘4 pour 1000’ are promoting enhanced carbon (C) sequestration ...
One option for sequestering carbon in the terrestrial biosphere is to increase the carbon (C) stocks...
Adopting Regenerative Agriculture (RA) practices on temperate arable land can increase soil organic ...
ACKNOWLEDGMENTS We would like to thank Dr Andrew C. Martin for advice on our modelling framework. Th...
Regenerative Agriculture (RA) claims to build soil organic carbon (SOC) and increase crop yields thr...
Alternative cropping systems such as conservation agriculture and organic farming are expected to de...
Global food production is currently contributing to numerous environmental challenges including anth...
The quantity of carbon (C) held in organic matter in the world’s soils to a depth of 1m is estimated...
This study aims at developing a clear understanding of the impacts and benefits of the two most comm...
Results from the UK were reviewed to quantify the impact on climate change mitigation of soil organi...
Abstract Aims Soil organic carbon (SOC) stocks of croplands can be enhanced by targeted management, ...
Simulating cropland soil carbon changes following a reduction in tillage intensity is necessary to d...
Assessments of the global carbon (C) cycle typically rely on simplified models which consider large ...
R code and supplementary data for soil carbon simulations: "Can Regenerative Agriculture increase na...
Alternative management practices (AMP)- Using soils to mitigate carbon emissions JRC scientists find...
International initiatives such as the ‘4 pour 1000’ are promoting enhanced carbon (C) sequestration ...
One option for sequestering carbon in the terrestrial biosphere is to increase the carbon (C) stocks...