Add to ORKGGeotechnical operations such as embankment construction influence soil carbon (C) storage since massive amounts of C-poor subsoil are brought to the surface. We hypothesize that subsoil can sequester relatively more C than C-rich topsoil due to its lower C-saturation. We excavated topsoil (0.0 to 0.3 m) and subsoil (1.1 to 1.4 m) from the same profile. We sieved soil and sowed Medicago sativa and Lolium perenne (n=6 pots of each species x soil). Controls were soil with no vegetation (n=6 x soil). To trace the fate of C, pots were incubated for 6 months under a continuously 13C-enriched-CO2 (2%) in three growth chambers with controlled conditions. Soil respiration (CO2 and 13C) was quantified every 2 weeks and was higher in the topsoil, due ...
Aims Mechanisms of subsoil carbon sequestration from deep-rooted plants are elusive, but may contrib...
Soil organic carbon (SOC) plays an essential function in global agroecosystems. Conservation agricul...
Carbon sequestration to soils counteracts increasing CO2 levels in the atmosphere, and increases soi...
Subsoils are receiving significant attention in the current context of climatic change, because of t...
Due to their substantial volume, subsoils contain more of the total soil carbon (C) pool than topsoi...
Soil organic carbon (SOC), although a small component of the soil, is fundamental to delivering the...
peer-reviewedSoil plays a key role in the global carbon (C) cycle. Most current assessments of SOC s...
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...
Soils account for the largest terrestrial pool of carbon and have the potential for even greater qua...
Increasing subsoil organic carbon inputs could potentially mitigate climate change by sequestering a...
Soil carbon (C) storage has gained much attention in the past decade due to its potentially huge imp...
The efficiency of agricultural management practices to store SOC depends on C input level and how fa...
Identifying soil with a large potential to accumulate organic carbon (OC) could maximise the mitigat...
Aims Mechanisms of subsoil carbon sequestration from deep-rooted plants are elusive, but may contrib...
Soil organic carbon (SOC) plays an essential function in global agroecosystems. Conservation agricul...
Carbon sequestration to soils counteracts increasing CO2 levels in the atmosphere, and increases soi...
Subsoils are receiving significant attention in the current context of climatic change, because of t...
Due to their substantial volume, subsoils contain more of the total soil carbon (C) pool than topsoi...
Soil organic carbon (SOC), although a small component of the soil, is fundamental to delivering the...
peer-reviewedSoil plays a key role in the global carbon (C) cycle. Most current assessments of SOC s...
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...
Soils account for the largest terrestrial pool of carbon and have the potential for even greater qua...
Increasing subsoil organic carbon inputs could potentially mitigate climate change by sequestering a...
Soil carbon (C) storage has gained much attention in the past decade due to its potentially huge imp...
The efficiency of agricultural management practices to store SOC depends on C input level and how fa...
Identifying soil with a large potential to accumulate organic carbon (OC) could maximise the mitigat...
Aims Mechanisms of subsoil carbon sequestration from deep-rooted plants are elusive, but may contrib...
Soil organic carbon (SOC) plays an essential function in global agroecosystems. Conservation agricul...
Carbon sequestration to soils counteracts increasing CO2 levels in the atmosphere, and increases soi...