A5010151655- Hydrology and Watershed Management Studies
- Water resources management and optimization
- Hydrology and Drought Analysis
- Flood Risk Assessment and Management
- Climate variability and models
- Hydrological Forecasting Using AI
- Reservoir Engineering and Simulation Methods
- Environmental and Agricultural Sciences
- Pluripotent Stem Cells Research
- Mitochondrial Function and Pathology
- Climate change impacts on agriculture
- Energy, Environment, Economic Growth
- Transboundary Water Resource Management
- Polymer composites and self-healing
- Regional Development and Environment
- Environmental Changes in China
- Soil and Unsaturated Flow
- Tissue Engineering and Regenerative Medicine
- Soil erosion and sediment transport
- Precipitation Measurement and Analysis
- Forest Management and Policy
- Grouting, Rheology, and Soil Mechanics
- Water Resources and Management
- Atmospheric and Environmental Gas Dynamics
- Microbial Applications in Construction Materials
Hebei University of Engineering
2023-2025
Guangzhou Institutes of Biomedicine and Health
2025
Guangzhou Medical University
2025
University of Hong Kong
2025
Fujian Agriculture and Forestry University
2025
Xi'an University of Technology
2017-2024
Chongqing University of Science and Technology
2024
Xi'an Shiyou University
2019
Forest carbon sinks play a crucial role in mitigating global climate change and enhancing ecological sustainability. This study utilizes the production theoretical decomposition analysis (PDA) model to develop framework for analyzing drivers of input–output dynamics within forest sink system. The specifically focuses on plant diseases insect pests as undesirable output indicators. We thoroughly analyzed development increment across Chinese provinces regions from 2010 2021, along with key...
Abstract The mismatch between the spatiotemporal distribution patterns of water resources and recent regional socioeconomic development threatens social stability sustainable development, particularly in river basins affected by scarcity. Therefore, it is necessary to adapt a resource regulation model address these new challenges. Based on theory Maslow's hierarchy needs Gini coefficient, this study, equilibrium constructed from demand side applied Yellow River Basin (YRB). Different...
Abstract An understanding of the propagation process from meteorological to hydrological drought contributes accurate prediction drought. However, comprehensive influence direct human activities involved in is not well understood. In this study, an identification framework for time was constructed quantify effects (i.e., reservoir storage, irrigation, industrial, domestic and agricultural water consumption) on propagation. Subsequently, underlying surface factors were clarified based random...
Drought disasters restrict economic and social development. Understanding the evolution of spatiotemporal characteristics drought plays a vital role in basin risk response management. Complex empirical orthogonal function analysis is widely used meteorological research an important tool for studying spatial-temporal distribution structure arid fields. This aims to take Yellow River Basin (YRB) as example, separate temporal spatial based on CEOF method, explore abrupt changes, trends,...
Inflow and water demand prediction plays an important role in reservoir operation rulemaking. Uncertainties meteorological hydrological modeling increase the complexity of inflow prediction, which are not sufficiently considered conventional prediction. Thus, this study took cascade reservoirs as research object. These were located mainstream Yellow River Basin (YRB). A three-step framework was proposed: (1) developing a distributed Soil & Water Assessment Tool (SWAT) model to determine...
The climate system has both non-stationary and nonlinear characteristics. processes such as change human activities have brought severe challenges to life, agriculture ecology in arid areas. It is of great practical significance study the spatiotemporal variation characteristics drought region for adopting countermeasures adapt change. traditional trend analysis method was used characteristics, which could not effectively identify clustering phenomenon spatial temporal different time...
Drought is complex geographical elements, which endangers China's food security, with coexistence of spatial and temporal heterogeneity similarity. Thus, the recent abnormal characteristics Chinese droughts warrant further study. This paper proposes a three-step framework to identify spatiotemporal evolution drought events in China Mainland, using standardized precipitation evapotranspiration index (SPEI) at different time scales (1, 6 12 months). And then are separated run theory. Finally,...
Inadequate water supply during droughts, leading to socio-economic drought, has become a global issue. In this context, the drought resistance and disaster mitigation capabilities of reservoirs play crucial role events. Taking downstream Yellow River Basin (DYRB) as study area, research analyzes evolution characteristics in region from 1956 2016 at different time scales (3 months, 6 9 12 months). The copula function is used calculate joint recurrence period area. addition, constructs...
Remodeled mitochondria are characteristic of pluripotent stem cells. However, a role for mitochondrial movement and distribution in pluripotency remains unknown. Here, we show that retrograde transport-mediated perinuclear clustering via dynein complex occurs at the early phase induction. Interestingly, this redistribution is regulated by Yamanaka factor OCT4 but not SOX2 or KLF4. This redistribution, which has effect on efficiency somatic cell reprogramming, also depends DRP1-mediated...
Metatarsal fractures rank among the ten most common fractures.Comprehensive studies on postoperative functional recovery remain limited. A reliable predictive model for outcomes is essential optimizing patient care. To develop and validate a in metatarsal fracture patients implement it as an interactive web-based calculator. This retrospective study included 555 (2018-2022), with 425 training cohort 130 validation cohort. The outcome variable was assessed by AOFAS midfoot scoring system....
Hydrological model parameters are generally considered to be simplified representations that characterize hydrologic processes. Therefore, their influence on runoff simulations varies with climate and catchment conditions. To investigate the influence, a three-step framework is proposed, i.e., Latin hypercube sampling (LHS-OAT) method multivariate regression used conduct parametric sensitivity analysis; then, multilevel-factorial-analysis quantitatively evaluate individual interactive...
The Yellow River Basin is an important grain-production base in China, playing a crucial role the country’s agricultural production and overall national economy social development. However, due to impact of climate change, China’s food security facing challenges. Therefore, this article takes as example reveal temporal spatial evolution patterns main crop yields basin. Based on coupled statistical downscaling model (SDSM) ten General Circulation Models (GCMs) from CMIP5, it estimates future...
Climate change inevitably threatens hydropower, either directly or indirectly. Global climate models and hydrological under different representative concentration pathways have been combined to investigate future hydropower generation responses change. The contribution of multiple uncertainty sources multi-scale uncertainties with variations remains unclear. Therefore, a three-step framework was proposed in this paper: (1) predicting inflows reservoirs using three HMs (HBV, SWAT XAJ)...
The research on the concrete structure built with self-healing materials brings inspiration to increase safety and sustainability of underground structures in whole life cycle. utilization microencapsulated healing agents has demonstrated efficacy repair microcracks within structures. Nevertheless, there exists a dearth effective methodologies for assessing impact microcapsule parameters mechanical properties concrete. This study introduces an innovative three-dimensional micromechanical...
With the intensification of global warming, droughts and heatwaves occur frequently widely, which have a serious impact on healthy growth vegetation. The challenge is to accurately characterize vegetation vulnerability under compound heat drought stress using correlation-based methods. This article uses Haihe River Basin, an ecologically sensitive area known for experiencing nine out ten years, as example. Firstly, daily precipitation maximum temperature data from 38 meteorological stations...
Abstract. The middle route of South-To-North Water Diversion in China transfers water from the Han River and Han-To-Wei project Shaanxi Province will transfer Ziwu River, which is a tributary River. In order to gain better understanding future changes hydrological conditions within basin, Mann–Kendall (M–K) trend analysis coupled with persistence using rescaled range (R/S) method. change characteristics basin obtained by analysing meteorological factors. results show that, precipitation...
Abstract Hydrological model parameters are generally considered to be a simplified representation that characterizes hydrologic processes, As hydrological models continue deepen the application of processes in basin, they face enormous calculations. Meanwhile, pursuit calibrating by optimal algorithms for higher accuracy, computation burden optical techniques has become much heavier. Therefore, order solve this problem low efficiency calculation, paper uses parallel PSO algorithm calibrate...