R code and supplementary data for soil carbon simulations: "Can Regenerative Agriculture increase national soil carbon stocks? Simulated country-scale adoption of reduced tillage, cover cropping, and ley-arable integration using RothC-26.3
Food production in developing countries, estimated at 1223 million metric tons (Mg), must be increas...
peer reviewedDevelopment of a quantitative understanding of soil organic carbon (SOC) dynamics is vi...
Economic, environmental, and societal benefits are expected from good practices of soil carbon (C) m...
ACKNOWLEDGMENTS We would like to thank Dr Andrew C. Martin for advice on our modelling framework. Th...
Adopting Regenerative Agriculture (RA) practices on temperate arable land can increase soil organic ...
Adopting Regenerative Agriculture (RA) practices on temperate arable land can increase soil organic ...
Supplementary Files for systematic review and meta-analysis: Temperate Regenerative Agriculture prac...
This dataset contains soil organic carbon stocks as described in Keel et al. Global Change Biology (...
IntroductionRegenerative agriculture commonly aims to increase soil carbon sequestration, with poten...
Expanded version of function 'RothCModel' included in SoilR package by Sierra et al. (2012). RothC i...
Dataset of paired observations of conventional tillage (CT) with no tillage (NT) and reduced tillage...
Regenerative Agriculture (RA) claims to build soil organic carbon (SOC) and increase crop yields thr...
Assessments of the global carbon (C) cycle typically rely on simplified models which consider large ...
There is an increasing demand for evaluating the impact of specialization in agriculture on soil car...
Reduced tillage (RT) agriculture is an effective measure to reduce soil loss from soils susceptible ...
Food production in developing countries, estimated at 1223 million metric tons (Mg), must be increas...
peer reviewedDevelopment of a quantitative understanding of soil organic carbon (SOC) dynamics is vi...
Economic, environmental, and societal benefits are expected from good practices of soil carbon (C) m...
ACKNOWLEDGMENTS We would like to thank Dr Andrew C. Martin for advice on our modelling framework. Th...
Adopting Regenerative Agriculture (RA) practices on temperate arable land can increase soil organic ...
Adopting Regenerative Agriculture (RA) practices on temperate arable land can increase soil organic ...
Supplementary Files for systematic review and meta-analysis: Temperate Regenerative Agriculture prac...
This dataset contains soil organic carbon stocks as described in Keel et al. Global Change Biology (...
IntroductionRegenerative agriculture commonly aims to increase soil carbon sequestration, with poten...
Expanded version of function 'RothCModel' included in SoilR package by Sierra et al. (2012). RothC i...
Dataset of paired observations of conventional tillage (CT) with no tillage (NT) and reduced tillage...
Regenerative Agriculture (RA) claims to build soil organic carbon (SOC) and increase crop yields thr...
Assessments of the global carbon (C) cycle typically rely on simplified models which consider large ...
There is an increasing demand for evaluating the impact of specialization in agriculture on soil car...
Reduced tillage (RT) agriculture is an effective measure to reduce soil loss from soils susceptible ...
Food production in developing countries, estimated at 1223 million metric tons (Mg), must be increas...
peer reviewedDevelopment of a quantitative understanding of soil organic carbon (SOC) dynamics is vi...
Economic, environmental, and societal benefits are expected from good practices of soil carbon (C) m...