In this research, the evapotranspiration (ET) of three native vegetation communities were measured using drainage lysime- ters in the Taihang Mountain area, China. They are a local grass, Themedajaponica, a local sh...In this research, the evapotranspiration (ET) of three native vegetation communities were measured using drainage lysime- ters in the Taihang Mountain area, China. They are a local grass, Themedajaponica, a local shrub, Vitex negundo var. heterophylla Rebd. and a mixture of both communities. The ET was measured using level lysimeters (with a slope of 0°) and slope lysimeters (with a slope of 25°). In general, the measured ET was higher in the level lysimeters than in the slope lysimeters because of the water loss of surface runoff from the slope lysimeter. The total ETs over the growing season for the grass, shrub, and the mixture were 730.4, 742.0 and 790.7 mm, respectively in the level lysimeters, and 535.5, 504.1 and 540.1 mm, respectively in the slope lysimeters. In addition, the monthly ET peaked in August and had close linear relationship with leaf area index. The drainage lysimeter is an effective tool to estimate plant ET in mountain areas. The results from this research would provide scientific information for the vegetation recovery and sustainable development of forestry in the TM areas.展开更多
基金supported by the national Knowledge Innovation Project (KIP) at the Chinese Academy of Sciences (CAS) (No. KZCX2-YW-Q06-2)Project of Northeast Institute of Geography and Agroecology, CAS (No. KZCX3-SW-NA3-29)
文摘In this research, the evapotranspiration (ET) of three native vegetation communities were measured using drainage lysime- ters in the Taihang Mountain area, China. They are a local grass, Themedajaponica, a local shrub, Vitex negundo var. heterophylla Rebd. and a mixture of both communities. The ET was measured using level lysimeters (with a slope of 0°) and slope lysimeters (with a slope of 25°). In general, the measured ET was higher in the level lysimeters than in the slope lysimeters because of the water loss of surface runoff from the slope lysimeter. The total ETs over the growing season for the grass, shrub, and the mixture were 730.4, 742.0 and 790.7 mm, respectively in the level lysimeters, and 535.5, 504.1 and 540.1 mm, respectively in the slope lysimeters. In addition, the monthly ET peaked in August and had close linear relationship with leaf area index. The drainage lysimeter is an effective tool to estimate plant ET in mountain areas. The results from this research would provide scientific information for the vegetation recovery and sustainable development of forestry in the TM areas.
