Dryland (arid and semi-arid) ecosystems globally provide more than half of livestock production and store roughly one-third of soil organic carbon (SOC). Biogeochemical pools are changing due to shrub encroachment, livestock grazing, and climate change. We assessed how vegetation microsite, grazing, and precipitation interacted to affect SOC and total nitrogen (TN) at a site with long-term grazing manipulations and well-described patterns of shrub encroachment across elevation and mean annual precipitation (MAP) gradients. We analyzed SOC and TN in the context of vegetation cover at ungrazed locations within livestock exclosures, high-intensity grazing locations near water sources, and moderate-intensity grazing locations away from water. S...
Climate change may affect soil carbon (C) storage in the Intermountain West by altering soil microbi...
High grazing intensity and wide-spread woody encroachment may strongly alter soil carbon (C) and nit...
Grasslands and savannas are experiencing intensive land-cover change due to woody plant encroachment...
Grazing modifies the structure and function of ecosystems, affecting soil organic carbon (SOC) stora...
Climate warming, altered precipitation and nitrogen deposition may critically affect plant growth an...
Livestock grazing activities potentially alter ecosystem carbon (C) and nitrogen (N) cycles in grass...
This study aimed to evaluate the effect of shrub encroachment on soil organic carbon (SOC) content a...
Livestock grazing activities potentially alter ecosystem carbon (C) and nitrogen (N) cycles in grass...
1. Most grasslands in the world, including the semi-arid steppe in China, are threatened by nitrogen...
Grassland ecosystems, which are known to be sensitive to climate change, have shown minimal response...
1. Combining nutrient dynamics (plant nutrient uptake and soil fertility) can help uncover mechanism...
Grazing management effects on soil property dynamics are poorly understood. A study was conducted to...
Mechanisms of vegetation control on C mineralization in semiarid ecosystems are not well understood....
Grazing management effects on soil property dynamics are poorly understood. A study was conducted to...
Combining nutrient dynamics (plant nutrient uptake and soil fertility) can help uncover mechanisms o...
Climate change may affect soil carbon (C) storage in the Intermountain West by altering soil microbi...
High grazing intensity and wide-spread woody encroachment may strongly alter soil carbon (C) and nit...
Grasslands and savannas are experiencing intensive land-cover change due to woody plant encroachment...
Grazing modifies the structure and function of ecosystems, affecting soil organic carbon (SOC) stora...
Climate warming, altered precipitation and nitrogen deposition may critically affect plant growth an...
Livestock grazing activities potentially alter ecosystem carbon (C) and nitrogen (N) cycles in grass...
This study aimed to evaluate the effect of shrub encroachment on soil organic carbon (SOC) content a...
Livestock grazing activities potentially alter ecosystem carbon (C) and nitrogen (N) cycles in grass...
1. Most grasslands in the world, including the semi-arid steppe in China, are threatened by nitrogen...
Grassland ecosystems, which are known to be sensitive to climate change, have shown minimal response...
1. Combining nutrient dynamics (plant nutrient uptake and soil fertility) can help uncover mechanism...
Grazing management effects on soil property dynamics are poorly understood. A study was conducted to...
Mechanisms of vegetation control on C mineralization in semiarid ecosystems are not well understood....
Grazing management effects on soil property dynamics are poorly understood. A study was conducted to...
Combining nutrient dynamics (plant nutrient uptake and soil fertility) can help uncover mechanisms o...
Climate change may affect soil carbon (C) storage in the Intermountain West by altering soil microbi...
High grazing intensity and wide-spread woody encroachment may strongly alter soil carbon (C) and nit...
Grasslands and savannas are experiencing intensive land-cover change due to woody plant encroachment...