Your search keyword '"Yi-He Lü"' showing total 3 results

1. Challenge of vegetation greening on water resources sustainability: Insights from a modeling-based analysis in Northwest China

Author

Chuan fu Zang, Lu Zhang, Yi He Lü, Fei Tian, Bojie Fu, Guo Yu Qiu, and Yonghui Yang

Subjects

business.industry, 0208 environmental biotechnology, Global warming, Environmental resource management, Climate change, 02 engineering and technology, Vegetation, 020801 environmental engineering, Water resources, Greening, Environmental protection, Streamflow, Sustainability, Environmental science, China, business, Water Science and Technology

Published

2017

2. Effects of ecological engineering on water balance under two different vegetation scenarios in the Qilian Mountain, northwestern China

Author

Guo Yu Qiu, Chuanfu Zang, Yi He Lü, Fei Tian, Yonghui Yang, Lu Zhang, and Bojie Fu

Subjects

Hydrology, 0208 environmental biotechnology, lcsh:QE1-996.5, 02 engineering and technology, Ecosystem restoration, 020801 environmental engineering, Water resources, lcsh:Geology, Water balance, Evapotranspiration, Soil water, Earth and Planetary Sciences (miscellaneous), Land degradation, Qilian Mountain, Environmental science, SWAT, SWAT model, Surface runoff, lcsh:GB3-5030, Restoration ecology, lcsh:Physical geography, Water Science and Technology

Abstract

Study region: The Qilian Mountain, northwestern China. Study focus: Land degradation is a global eco-environmental issue. To minimize soil erosion and land degradation, China has implemented several ecological engineering such as “Grain for Green” program (GFG) since 1999. Relationship between vegetation and water budgets in catchments has been widely studied, however very few studies addressed the effects of eco-environmental restoration on water balance in mountain areas, especially with a focus on soil moisture content. Therefore SWAT model was used to quantify the effects of ecological engineering actions (taken place in 2005) on water balance in Qilian Mountain. New hydrological insights for the region: After the ecological engineering, water yield and soil water content experienced an increment of 32%, and 46%. The opposite trend was monitored in runoff and evapotranspiration, which decreased by 48% and 4%, respectively. Therefore ecosystem restoration have increased soil water retention capacity, a greater proportion of precipitation reaching the catchment is absorbed by the soil rather than flowing out of the region as runoff. Therefore trade-offs between environmental sustainability and water resources security should be carefully addressed in arid region that experienced severe water shortages. Keyword: SWAT, Water balance, Ecosystem restoration, Qilian Mountain

Published

2016

3. Soil quality regime in relation to land cover and slope position across a highly modified slope landscape

Author

Jun Qiu, Shiliang Liu, Liding Chen, Yi-He Lü, and Bo-Jie Fu

Subjects

Hydrology, Secondary succession, Land use, Deforestation, ved/biology, Soil water, ved/biology.organism_classification_rank.species, Environmental science, Land cover, Vegetation, Soil quality, Shrub, Ecology, Evolution, Behavior and Systematics

Abstract

Vegetation and land-use mosaics of shrub land, grassland, farmland and reforested land are characteristic for residential areas of the Wolong nature reserve in Sichuan province, southwest China. The patterns represent a stage in long-term human disturbance and natural secondary succession since deforestation. The aim of this paper was to elucidate the soil-land cover types, soil-slope position relationships on a typical disturbed slope in the humid mountainous region. Soils were taken from four typical land cover types (shrub land, grassland, farmland and reforested land) under four slope positions (upper slope, middle slope, lower slope, foot slope) to study the distribution of soil nutrients and moisture on the transect scales of the slope. To elucidate the influence of land-use and slope position on soil quality, two integrated quantitative indexes were developed to compare soil quality under different land-use types (QI) and under different slope positions (PI). The results showed shrub land had the highest QI value, while the QI of reforested land and farmland had lower values. Foot slopes and upper slopes had higher soil quality levels compared to middle slopes and lower slopes. The results indicated that on the slope scale shrub land had high soil quality levels. The results also suggested that in the area of China where the climate favors secondary succession, ‘leave nature as it is’ is a better choice than the policy ‘change farmland to forest land’.

Published

2004