Spatiotemporal evolution of growing-season vegetation coverage and its natural-human drivers in the Yellow River Basin, China
文献类型: 外文期刊
第一作者: Zang, Yongge
作者: Zang, Yongge;Yu, Bowei;Wu, Chunsheng;Zhao, Zhonghe;Yu, Bowei
作者机构:
关键词: driving factors; fractional vegetation cover (FVC); geographical detector model; geographically weighted regression; Yellow River Basin
期刊名称:LAND DEGRADATION & DEVELOPMENT ( 影响因子:4.7; 五年影响因子:5.0 )
ISSN: 1085-3278
年卷期: 2023 年 34 卷 18 期
页码:
收录情况: SCI
摘要: The Yellow River Basin (YRB) is an important ecological security barrier in northern China, where vegetation has undergone rapid changes under the high-intensity anthropological activities and ongoing climate change in recent decades. This study focused on the spatiotemporal evolution of fractional vegetation cover (FVC) and the driving factors during the growing season in different sub-basins of the YRB between 2000 and 2020. The trend analysis was employed to examine the FVC spatiotemporal changes, and the geographical detector model (GDM) and the geographically weighted regression (GWR) model were utilized to explore spatial heterogeneity of natural-human drivers on FVC. The 21-year average FVC was 0.5780 in the growing season in the YRB, and the southeast region was greater than the northwest region. The FVC exhibited a fluctuating and rising trend of 0.44% yr-1 in the whole YRB from 2000 to 2020, and areas with improved FVC were 36.40% more than those with degraded FVC. The dominant factors influencing the growing-season FVC were precipitation and temperature, followed by elevation and human activity intensity. The influence of natural factors on FVC showed a decreasing trend, whereas human factors exhibited an increasing trend. Natural factors promoted vegetation growth in most area of the YRB, especially in the northwest, whereas human factors had more negative effects, except for the middle parts of the basin. The spatial differentiation analyses of FVC and driving factors provide scientific guidance for ecological restoration and sustainable development in the YRB.
分类号:
- 相关文献
作者其他论文 更多>>
-
Layered Soil Moisture Retrieval and Agricultural Application Based on Multi-Source Remote Sensing and Vegetation Suppression Technology: A Case Study of Youyi Farm, China
作者:Zhao, Zhonghe;Li, Yuyang;Liu, Kun;Wu, Chunsheng;Liu, Gaohuan;Yu, Bowei;Wang, Youxiao
关键词:soil moisture; multi-source remote sensing; vegetation suppression; random forest; UAV multispectral imagery
-
Higher improvement in soil health by animal-sourced than plant-sourced organic materials through optimized substitution
作者:Shi, Chang;Zhang, Qingwen;Yu, Bowei;Zhang, Qingwen
关键词:Manure; Positive feedback; Sustainable agriculture; Machine learning
-
Spatiotemporal dynamics of wetlands and their future multi-scenario simulation in the Yellow River Delta, China
作者:Yu, Bowei;Zang, Yongge;Wu, Chunsheng;Zhao, Zhonghe;Yu, Bowei
关键词:Multi -scenario simulation; PLUS model; Spatiotemporal change; Wetland; Yellow River Delta
-
Quantifying and assessing nitrogen sources and transport in a megacity water supply watershed: Insights for effective non-point source pollution management with mixSIAR and SWAT models
作者:Hao, Zhuo;Zhan, Xiaoying;Yu, Bowei;Zhu, Jie;Liu, Lianhua;Zhang, Qingwen;Shi, Yuanyuan;Fan, Qing;Zhao, Guangxiang
关键词:Nitrate sources; N retention; N fate; Drinking water sources
-
Assessing spatiotemporal heterogeneity of coastal organic nonpoint source pollution via soil erosion in Yellow River Delta, China
作者:Wang, Youxiao;Wang, Youxiao;Liu, Gaohuan;Wu, Chunsheng;Zhao, Zhonghe;Yu, Bowei;Liu, Gaohuan
关键词:Nonpoint source pollution; Yellow River Delta; Surface soil organic matter; RUSLE; Estuarine chemical oxygen demand
-
Respiratory Effects under Air Humidity Stress in Fruit Bodies of Auricularia heimuer
作者:Zhu, Borun;Yu, Bowei;Li, Danlin;Fu, Chenxi;Ma, Shiyu;Ma, Huailiang;Wang, Yanfeng
关键词:Auricularia heimuer; air humidity stress; respiration; glycolysis; tricarboxylic acid cycle; pentose phosphate pathway A. heimuer
-
A simulation-optimization integrated framework for subsurface air barrier strategies to mitigate seawater intrusion in a 3D coastal aquifer
作者:Zang, Yongge;Jiang, Yonghai;Shang, Changjian;Lian, Xinying;Jia, Yongfeng;Zang, Yongge;Jiang, Yonghai;Shang, Changjian;Lian, Xinying;Jia, Yongfeng;Yu, Bowei
关键词:Seawater intrusion; Subsurface air barriers; Simulation -optimization method; 3D coastal aquifers; Liquid -gas two-phase flow
