A5048286715- Soil Moisture and Remote Sensing
- Climate change and permafrost
- Soil erosion and sediment transport
- Land Use and Ecosystem Services
- Landslides and related hazards
- Hydrology and Watershed Management Studies
- Soil and Unsaturated Flow
- Urban Green Space and Health
- Plant Ecology and Soil Science
- Conservation, Biodiversity, and Resource Management
Northwest A&F University
2021-2023
Agriculture and Forestry University
2022
Institute of Soil and Water Conservation
2021
Abstract Insight into the rainfall‐soil moisture (SM) response to land cover is critical for soil hydrological process modelling and management. In this study, five typical land‐cover types (forest, shrub, grass, crop bare land) four rainfall patterns (heavy, intermediate, light continuous rains) were selected assess effects of SM characteristics on Loess Plateau China. We monitored at depths each type 1‐h intervals over growing season 2019. The results showed that together determined...
Insight into the response of deep soil moisture (SM) to land cover change is crucial for sustainable management regional water resources and ecosystems. However, budget resilience after revegetation are not clear. In this study, seven typical land-cover patterns (artificial arbor, shrub, economic tree, pasture, abandon grassland, natural grassland) were selected in four different study sites on Loess Plateau China. From May 2019 December 2020. situ SM was monitored daily at ten depths along...
Insight into the rainfall-soil moisture (SM) response to land cover is critical for soil hydrological process modeling and management. In this study, five typical land-cover types (forest, shrub, grass, crop, bare land) four rainfall patterns (heavy, intermediate, light, continuous rains) were selected assess effects of SM characteristics on Loess Plateau China. We monitored at depths each type 1-h intervals over growing season 2019. The results showed that typestogether determined...