A5090949747- Land Use and Ecosystem Services
- Soil and Land Suitability Analysis
- Geological formations and processes
- Climate change impacts on agriculture
- Ecology and Vegetation Dynamics Studies
- Aeolian processes and effects
- Soil erosion and sediment transport
- Species Distribution and Climate Change
- Plant and animal studies
- Conservation, Biodiversity, and Resource Management
Chinese Academy of Forestry
2023-2024
Dunhuang Research Academy
2024
Research Institute of Forestry
2024
Institute of Desertification Studies
2023
State Forestry and Grassland Administration
2023
Oasis vegetation contains a variety of ecological functions and can quickly indicate changes in the environment. According to dynamics natural oasis, this study constructed oasis vulnerability assessment model (NOEV) The is based on Pressure-Sensitivity-Resilience framework, combined with redundancy analysis, minimum cumulative resistance model, risk sensitivity index effectively assess oasis. results showed that human activities, represented by expansion farmland population growth, were...
Maintaining the integrity and stability of oasis ecosystems is an important topic in field ecological research. Assessment ecosystem services their changes can provide support for sustainable development oases. This study took Dunhuang hyper-arid area as research object used 1990, 2010, 2020 Landsat series satellite images to complete land use interpretation by random forest classification. Then we estimated value (ESV) using benefit transfer method, predicted trend service under three...
Wind and water erosion processes can lead to soil degradation. Topographic factors also affect the variation of properties. The effect topographic on properties in regions where wind simultaneously occur remains complicated. To address this effect, we conducted study determine relationships between changes wind-water different contexts. We collected samples from conical landforms with slope characteristics positions crisscross region China. examined 137Cs inventory, organic carbon (SOC),...
ABSTRACT Climate change can significantly impact the ecological suitability and diversity of species. Pyrethrum tatsienense , a critically endangered species in China, requires thorough understanding its habitat distribution environmental factors that affect it context climate change. The Maxent algorithm was used to examine key influencing P. using data from 127 occurrences variables Last Interglacial (LIG), Glacial Maximum (LGM), Mid‐Holocene (MH), current, future scenarios. model...