Add to ORKGDue to their substantial volume, subsoils contain more of the total soil carbon (C) pool than topsoils. Much of this C is thousands of years old, suggesting that subsoils offer considerable potential for long-term C sequestration. However, knowledge of subsoil C behaviour and manageability remains incomplete, and subsoil C storage potential has yet to be realised at a large scale, particularly in agricultural systems. A range of biological (e.g. deep-rooting), chemical (e.g. biochar burial) and physical (e.g. deep ploughing) C sequestration strategies have been proposed, but are yet to be assessed. In this review, we identify the main factors that regulate subsoil C cycling and critically evaluate the evidence and mechanistic basis of subso...
Increasing soil organic carbon (SOC) via organic inputs is a key strategy for increasing long-term s...
Subsoils contain large amounts of organic carbon which is generally believed to be highly stable whe...
How much C can be stored in agricultural soils worldwide to mitigate rising CO2 concentrations, and ...
Geotechnical operations such as embankment construction influence soil carbon (C) storage since mass...
Soil carbon (C) storage has gained much attention in the past decade due to its potentially huge imp...
Despite the importance of subsoil carbon (C) deposition by deep-rooted crops in mitigating climate c...
peer-reviewedSoil plays a key role in the global carbon (C) cycle. Most current assessments of SOC s...
This is the final version. Available on open access from Elsevier via the DOI in this recordHow much...
Soils account for the largest terrestrial pool of carbon and have the potential for even greater qua...
peer-reviewedSoil plays a key role in the global carbon (C) cycle. Most current assessments of SOC s...
Aims Mechanisms of subsoil carbon sequestration from deep-rooted plants are elusive, but may contrib...
Increasing carbon storage in soils is one way of mitigating climate change. Carbon sequestration in ...
Soils contain more carbon (C) in the form of organic matter (soil organic matter = SOM) than the ent...
Increasing subsoil organic carbon inputs could potentially mitigate climate change by sequestering a...
Improved management of agricultural soils has potential for sequestering carbon (C) and reducing the...
Increasing soil organic carbon (SOC) via organic inputs is a key strategy for increasing long-term s...
Subsoils contain large amounts of organic carbon which is generally believed to be highly stable whe...
How much C can be stored in agricultural soils worldwide to mitigate rising CO2 concentrations, and ...
Geotechnical operations such as embankment construction influence soil carbon (C) storage since mass...
Soil carbon (C) storage has gained much attention in the past decade due to its potentially huge imp...
Despite the importance of subsoil carbon (C) deposition by deep-rooted crops in mitigating climate c...
peer-reviewedSoil plays a key role in the global carbon (C) cycle. Most current assessments of SOC s...
This is the final version. Available on open access from Elsevier via the DOI in this recordHow much...
Soils account for the largest terrestrial pool of carbon and have the potential for even greater qua...
peer-reviewedSoil plays a key role in the global carbon (C) cycle. Most current assessments of SOC s...
Aims Mechanisms of subsoil carbon sequestration from deep-rooted plants are elusive, but may contrib...
Increasing carbon storage in soils is one way of mitigating climate change. Carbon sequestration in ...
Soils contain more carbon (C) in the form of organic matter (soil organic matter = SOM) than the ent...
Increasing subsoil organic carbon inputs could potentially mitigate climate change by sequestering a...
Improved management of agricultural soils has potential for sequestering carbon (C) and reducing the...
Increasing soil organic carbon (SOC) via organic inputs is a key strategy for increasing long-term s...
Subsoils contain large amounts of organic carbon which is generally believed to be highly stable whe...
How much C can be stored in agricultural soils worldwide to mitigate rising CO2 concentrations, and ...