A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Methane uptake and emissions in a typical steppe grazing system during the grazing season
Abstract This study investigated the effects of livestock grazing on CH4 emissions by testing six grazing conditions at Guyuan State Key Monitoring and Research Station of Grassland Ecosystem (China) in 2011 and 2012. Under all grazing systems, steppe soils were measured to be CH4 sinks. The uptake of CH4 by grassland was primarily determined by topsoil (7 cm) temperature and soil (0–7 cm) moisture in grassland at short-term grazing and non-grazing. The cumulative uptake of CH4 during the grazing period for all conditions was 0.88–3.23 kg hm−2 CH4, and the highest level was observed in the continuously moderate grazing condition. Reducing grazing stocking in the short-term did not significantly change the uptake of CH4 when compared with continuously heavy grazing condition. Enteric CH4 emissions were not significantly affected by the grazing period or conditions. The uptake of CH4 by grassland soil offset 3.1–8.6% of the CH4 emissions from the grazing sheep and was most effective at the continuously moderate grazing condition. These findings imply that continuously moderate grazing is the best approach considered here for optimizing the soil as a sink for atmospheric CH4.
Highlights Continuously moderate-grazed grassland had high CH4 uptake in typical grassland. The uptake of CH4 increased during the withering period. The uptake of CH4 in grassland soil offset 3.1–8.6% of the CH4 emissions from sheep.
Methane uptake and emissions in a typical steppe grazing system during the grazing season
Abstract This study investigated the effects of livestock grazing on CH4 emissions by testing six grazing conditions at Guyuan State Key Monitoring and Research Station of Grassland Ecosystem (China) in 2011 and 2012. Under all grazing systems, steppe soils were measured to be CH4 sinks. The uptake of CH4 by grassland was primarily determined by topsoil (7 cm) temperature and soil (0–7 cm) moisture in grassland at short-term grazing and non-grazing. The cumulative uptake of CH4 during the grazing period for all conditions was 0.88–3.23 kg hm−2 CH4, and the highest level was observed in the continuously moderate grazing condition. Reducing grazing stocking in the short-term did not significantly change the uptake of CH4 when compared with continuously heavy grazing condition. Enteric CH4 emissions were not significantly affected by the grazing period or conditions. The uptake of CH4 by grassland soil offset 3.1–8.6% of the CH4 emissions from the grazing sheep and was most effective at the continuously moderate grazing condition. These findings imply that continuously moderate grazing is the best approach considered here for optimizing the soil as a sink for atmospheric CH4.
Highlights Continuously moderate-grazed grassland had high CH4 uptake in typical grassland. The uptake of CH4 increased during the withering period. The uptake of CH4 in grassland soil offset 3.1–8.6% of the CH4 emissions from sheep.
Methane uptake and emissions in a typical steppe grazing system during the grazing season
Wang, Xiaoya (author) / Zhang, Yingjun (author) / Huang, Ding (author) / Li, Zhiqiang (author) / Zhang, Xiaoqing (author)
Atmospheric Environment ; 105 ; 14-21
2015-01-16
8 pages
Article (Journal)
Electronic Resource
English
Grazing alters the biophysical regulation of carbon fluxes in a desert steppe
| DOAJ | 2013