Monitoring of Glacier Area Changes in the Ili River Basin during 1992–2020 Based on Google Earth Engine

• Published in: Land (Basel) Vol. 13; no. 9; p. 1417
• Main Authors: Zhang, Qinqin, Zhang, Zihui, Wang, Xiaofei, Xu, Zhonglin, Wang, Yao
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 03.09.2024
• Subjects: Algorithms; Annual precipitation; Arid regions; Arid zones; Automation; Classification; Climate change; Climatic conditions; Data collection; Data processing; Datasets; Environmental monitoring; feature optimization; Freshwater resources; glacier area; Glaciers; Google Earth Engine; Ili River Basin; Image processing; Impact analysis; Information processing; Landsat; Monitoring; Monitoring methods; Multidimensional methods; Precipitation; random forest algorithm; Remote sensing; River basins; Rivers; Topography; Transboundary waters; Vegetation; Water resources; Central Asia; United States > US; China
• ISSN: 2073-445X; 2073-445X
• DOI: 10.3390/land13091417

The Ili River Basin, a crucial transboundary river in the arid region of Central Asia, plays a significant role in the region’s ecology and water resources. However, current methods for monitoring glacier area changes in this region face challenges in automation and accuracy due to the complex terrain and climatic conditions. This study aims to evaluate the effectiveness of the Google Earth Engine (GEE) platform for monitoring glacier area changes in the Ili River Basin from 1992 to 2020, with a focus on improving data accuracy and processing efficiency. Utilizing the Landsat data series, we employed the random forest (RF) classification algorithm within the GEE platform to extract glacier areas, optimizing a multidimensional feature set using the Jeffries–Matusita (JM) distance method, and applied visual interpretation for data refinement. Our results demonstrated that the GEE platform, combined with the RF algorithm, provided high accuracy in glacier monitoring, achieving an overall accuracy of 89% and a kappa coefficient of 0.85. During the study period, the glacier area in the Ili River Basin decreased by 184.76 km2, with an average annual retreat rate of 6.84 km2, most notably between 3800 and 4400 m in elevation. The analysis revealed that temperature changes had a more pronounced impact on glacier dynamics than precipitation. This approach significantly enhances image utilization efficiency and data processing speed, offering a reliable tool for monitoring glacier dynamics. Future research should focus on integrating additional environmental variables and extending the temporal scope to further refine glacier dynamics modeling and predictions.