Changes in grassland management intended to increase productivity can lead to sequestration of substantial amounts of atmospheric C in soils. Management-intensive grazing (MiG) can increase forage production in mesic pastures, but potential impacts on soil C have not been evaluated. We sampled four pastures (to 50 cm depth) in Virginia, USA, under MiG and neighboring pastures that were extensively grazed or bayed to evaluate impacts of grazing management on total soil organic C and N pools, and soil C fractions. Total organic soil C averaged 8.4 Mg C ha(-1) (22%) greater under MiG; differences were significant at three of the four sites examined while total soil N was greater for two sites. Surface (0-10 cm) particulate organic matter (POM)...
‘‘Capsule’’: Pasture management can improve soil quality and soil carbon sequestration, especially i...
The influence of grazing management on total soil organic carbon (SOC) and soil total nitrogen (TN) ...
Ecosystem management practices that sequester carbon (C) may play an important role in mitigating cl...
More than 13 Mha of nonfederal land in the southeastern U.S. are devoted to pastureland. Between 198...
Since land use change can have significant impacts on regional biogeochemistry, we investigated how ...
Grazing modifies the structure and function of ecosystems, affecting soil organic carbon (SOC) stora...
The impacts of land intensification on carbon (C) responses are important components of soil organic...
Management intensity critically influences the productivity and sustainability of pasture systems th...
Grasslands are heavily relied upon for food and forage production. A key component for sustaining pr...
Grazing land ecosystem services including food provision and climate regulation are greatly influenc...
International audienceGrasslands occupy 70% of whole agricultural land and hold significant amounts ...
The effects of 12 years of grazing management strategies on carbon (C) distribution and sequestratio...
1. Accounting for 10-30% of global soil organic carbon, grassland soils potentially present a large ...
Understanding management-induced C sequestration potential in soils under agriculture, forestry, and...
‘‘Capsule’’: Pasture management can improve soil quality and soil carbon sequestration, especially i...
The influence of grazing management on total soil organic carbon (SOC) and soil total nitrogen (TN) ...
Ecosystem management practices that sequester carbon (C) may play an important role in mitigating cl...
More than 13 Mha of nonfederal land in the southeastern U.S. are devoted to pastureland. Between 198...
Since land use change can have significant impacts on regional biogeochemistry, we investigated how ...
Grazing modifies the structure and function of ecosystems, affecting soil organic carbon (SOC) stora...
The impacts of land intensification on carbon (C) responses are important components of soil organic...
Management intensity critically influences the productivity and sustainability of pasture systems th...
Grasslands are heavily relied upon for food and forage production. A key component for sustaining pr...
Grazing land ecosystem services including food provision and climate regulation are greatly influenc...
International audienceGrasslands occupy 70% of whole agricultural land and hold significant amounts ...
The effects of 12 years of grazing management strategies on carbon (C) distribution and sequestratio...
1. Accounting for 10-30% of global soil organic carbon, grassland soils potentially present a large ...
Understanding management-induced C sequestration potential in soils under agriculture, forestry, and...
‘‘Capsule’’: Pasture management can improve soil quality and soil carbon sequestration, especially i...
The influence of grazing management on total soil organic carbon (SOC) and soil total nitrogen (TN) ...
Ecosystem management practices that sequester carbon (C) may play an important role in mitigating cl...