A5101924728- Hydrology and Watershed Management Studies
- Flood Risk Assessment and Management
- Hydrology and Drought Analysis
- Climate variability and models
- Urban Stormwater Management Solutions
- Soil erosion and sediment transport
- Water Quality and Pollution Assessment
- Plant Water Relations and Carbon Dynamics
- Water resources management and optimization
- Polymer Surface Interaction Studies
- Cryospheric studies and observations
- Membrane Separation Technologies
- Tropical and Extratropical Cyclones Research
- Electrospun Nanofibers in Biomedical Applications
- Hydrological Forecasting Using AI
- Disaster Management and Resilience
- Heavy metals in environment
- Physical Activity and Health
- Coastal and Marine Dynamics
- Geochemistry and Geologic Mapping
- Aquatic Ecosystems and Phytoplankton Dynamics
- Climate change impacts on agriculture
- Human Health and Disease
- Korean Peninsula Historical and Political Studies
- Nutrition and Health in Aging
Chang'an University
2017-2024
Jangan University
2017-2023
Ministry of Water Resources of the People's Republic of China
2023
Ifremer
2020
Hallym University
2017-2018
Institute of Aging
2018
Peking University
2014-2017
China XD Group (China)
2017
Xi'an University of Technology
2014-2015
Megacities are facing serious water pollution problems due to urbanization, rapid population growth and economic development. Water is an essential resource for human activities socio-economic development quality in urban settings has important implications environmental health. Urbanization lack of sewerage left the Jakarta, Indonesia a heavily polluted condition. Rigorous assessment necessary understand factors controlling conditions. We use trend analysis assess current conditions...
Abstract Accelerated eutrophication, which is harmful and difficult to repair, one of the most obvious pervasive water pollution problems in world. In past three decades, management eutrophication has undergone a transformation from simple directed algal killing, reducing endogenous nutrient concentration multiple technologies for restoration lake ecosystems. This article describes development revolution remediation methods application, namely physical, chemical, biological methods, it...
Abstract Urban flooding is a perennial problem, especially in developing countries with relatively weak infrastructure under ever‐increasing stress due to climate change and human activities. We simulate the temporally variable flood‐water depth inundation area four designed rainfall patterns typical tropical rainforest city of Hue, Vietnam. The types are R1 (peak at fifth hour), R2 20th R3 first R4 13th hour). Results show that temporal pattern peak middle total period yielded maximum water...
Abstract This paper combines environmental science, inorganic chemistry, water quality monitoring and other disciplines to analyze assess the heavy metals in bodies sediments of Fenghe River Basin (FRB) Shaanxi Province, reveal their sources. The Water Quality Index (WQI), Nemero (Pn), Geological Accumulation (I-geo) Potential Ecological Risk (RI) are used sediments. Pearson correlation analysis (CA), hierarchical cluster (HCA), principal component (PCA) positive matrix factorization (PMF)...
Abstract With the rapid development of urbanization, more and cities are facing risk flood disasters threat water environment safety during rainy season. Sponge City, as a new urban resources management method, has attracted extensive attention in academic circle. In order to promote bibliometric analysis method based on Web Science (WoS) database Bibliometrix tool is proposed this study. After refining retrieved 26,383 papers, 1456 papers were obtained. All article information including...
As an essential part of the hydrological cycle, precipitation is usually associated with floods and droughts increasingly being paid attention to in context global warming. Analyzing change trends correlation temperature extreme indicators can effectively identify natural disasters. This study aimed detect Inner Mongolia from 1960 2019. Panel vector autoregression (PVAR) models based on Stata software were used between at 35 climatological stations throughout Mongolia. The indicator analyzed...
Understanding the hydrological surface condition changes, climate change and their combined impacts on flood runoff are critical for comprehending hydrology under environmental changes solving future management challenges. This study was designed to examine relative contributions of in a 45,421-km2 watershed Loess Plateau region. Statistical analytical methods, including Kendall’s trend test, Theisen median analysis, cumulative anomaly method, were used detect trends relationship between...
With increasing human activities, regional substrate conditions have undergone significant changes. These changes resulted in temporal and spatial variations of non-point source pollution sources, which has a impact on the quality soil, surface water, groundwater environments. This study focused human-disturbed Loess Plateau region used an enhanced potential non-point-source index (PNPI) model to explore dynamic (PNP) associated risk due land use cover change (LUCC) over past 31 years. The...
The hydrological characteristics of gravel-containing soils are different from those gravel-free soils, so it is worth further understanding and enriching the theory soil water conservation. In this study, adjustable slope (10°, 20°, 30°) test boxes with surface gravel contents (0%, 25%, 50%, 75%, 100%) were prepared to study runoff erosion gravel-covered land slopes under rainfall conditions (10 mm/h, 20 30 mm/h). Compared bare soil, start time three covered 100% content delayed by 38.90,...
Temporal and spatial changes in non-point source pollution, driven by significant alterations land use due to increased human activity, have considerably affected the quality of groundwater, surface water, soil environments region. This study examines Weihe River basin greater detail, an area heavily impacted activity. The developed Section Potential Pollution Index (R-PPI) model using Non-Point Source (PNPI) order investigate dynamic (R-PP) over a 31-year period its associated risks,...
This study examined the Chabagou River watershed in gully region of Loess Plateau China’s Shaanxi Province, and was based on measured precipitation runoff data basin over a 52-year period (1959–2010), land-use types, normalized difference vegetation index (NDVI), other data. Statistical models distributed hydrological were used to explore influences climate change human activity response temporal spatial evolution basin. It found that presented downward trend during period. Since 1970s,...
Abstract The Qinling Mountains are located in a transition zone between (semi)-arid regions north China and humid south China. water resource ecology of regional rivers strongly affected by climate change human activity. In this paper, the stochastic simulation river regulation was performed an optimal scheme rubber dam projects developed establishing multi-objective constraint model based on coupling distributed hydrological balance model. Results show that ∼40% reduction occurred lower...
In recent decades, the hydrological processes on Loess Plateau have undergone significant changes due to combined effects of climate change and human activities. This study investigates Qin River basin, core area Plateau. Between 1971 2000, hydrometeorology flood season in basin China changed abruptly 1982 1992. uses distributed hydrologic modeling statistical analysis distinguish spatial temporal impacts The fastest dynamic land use occurred grassland construction land, accounting for 0.36%...
Human activities and climate change have significantly influenced the water cycle, impacting flood risks security. This study centers on Jing River Basin in Chinese Loess Plateau, analyzing hydrological patterns progression using HEC-HMS model under changing conditions. The findings indicate that substantially affects predictions, increasing peak flows volumes by up to 10.9% 11.1%, respectively. It is essential recognize traditional models may underestimate posed these changes, emphasizing...
Polydopamine could improve interface performance of composite membranes with tunable structures which were developed by combining electrospinning and BCP self-assembly.