Ansai Integrated Experimental Station on Water and Soil Conservation - China

Ansai Integrated Experimental Station on Water and Soil Conservation is a part of Chinese Ecosystem Research Network, which located in the typical loess hilly and gully region and situates near the center of the Loess Plateau in the Shaanxi Province. The loess-derived soils are fertile but extremely susceptible to erosion. Soil erosion in the study area is much higher than that in the southern part of the Loess Plateau. The climate belongs to transition zone of warm temperate semi-humid to semi-arid, which is dry and windy in spring, hot and rainy in summer, and dry and cold in winter. The mean annual temperature is 8.8 °C. The minimum and maximum temperatures are −23.6 °C in February and 36.8 °C in July. The frost-free period is 157 days. The mean annual precipitation is 505 mm, 70% of which falls between July and September in the form of short heavy storm. The soil is silt loam with the contents of sand, silt, and clay being 24%, 65%, and 11%. Ansai station mainly focus on vegetation rehabilitation, monitoring and assessment of rehabilitation, and monitoring in watershed.

Study on the driving mechanism of lagged effects based on different time scales in a karst drainage basin in South China

Full article: Effectiveness evaluation of DS-InSAR method fused PS points in surface deformation monitoring: a case study of Hongta District, Yuxi City, China

SOIL - Mapping land degradation risk due to land susceptibility to dust emission and water erosion

Scenario of the AD pattern in loess hilly-gully region (Site: Gaoqiao Township, Ansai County)

1 JUDITH C. CHOW Nazir and Mary Ansari - Desert Research Institute

Next generation decentralized water systems: a water-energy-infrastructure-human nexus (WEIHN) approach - Environmental Science: Water Research & Technology (RSC Publishing) DOI:10.1039/D3EW00506B

HESS - A framework for parameter estimation, sensitivity analysis, and uncertainty analysis for holistic hydrologic modeling using SWAT+

What's on the horizon for community-based conservation? Emerging threats and opportunities: Trends in Ecology & Evolution

Ailanthus altissima

Cropping System Diversity Effects on Nutrient Discharge, Soil Erosion, and Agronomic Performance