湖泊是陆地生态系统的一个重要的组成部分,湖泊水域的变化对环境和人类的生产活动都有着重大的影响.鄱阳湖作为中国第一大淡水湖,近年来多次出现洪旱灾害现象,因此对鄱阳湖进行动态监测意义重大.文章以2000-2021 年鄱阳湖 175 期Landsat影像作为数据源,对比分析了归一化差异水体指数(normalized difference water index,NDWI)、改进的归一化差异水体指数(modified normalized difference water index,MNDWI)、自动水体提取指数(automated water extraction index,AWEI)、谱间关系法(spectrum photometric method,SPM)这4 种水体提取方法,优选最适宜鄱阳湖的水体提取模型;利用 175 期面积数据分析了鄱阳湖 2000-2021 年面积的年际变化趋势,分析年内季节变化特征,同时结合 2009-2013 年和 2017-2018 年同时期的 50 组水位数据,建立面积-水位关系模型.结果表明:①AWEI模型提取水体精度优于其他 3 种,该文最终选用AWEI进行鄱阳湖水体提取;②鄱阳湖面积存在明显的季节性变化,且丰水季面积年际波动大,枯水季较平缓;③棠荫水位站湖泊面积-水位分段线性模型为最佳模型,从而可以根据鄱阳湖区域的实时水位观测值对水体覆盖面积进行预测,以弥补云雨天气时利用可见光遥感手段难以监测到湖泊水体淹没情况的不足.
Monitoring of the area of Poyang Lake based on Landsat images and its relationship with the water level
Lakes constitute a crucial part of terrestrial ecosystems.Changes in the water areas of lakes significantly influence environments and human production activities.Poyang Lake,the largest freshwater lake in China,has experienced many floods and droughts in recent years,thus necessitating its dynamic monitoring.With 175-phase Landsat images of Poyang Lake from 2000 to 2021 as the data source,this study comparatively analyzed four water body extraction methods:the normalized difference water index(NDWI),the modified normalized difference water index(MNDWI),the automated water extraction index(AWEI),and the spectrum photometric method(SPM),determining the optimal water body extraction index for Poyang Lake.Moreover,based on the 175-phase area data,this study delved into the inter-annual area variation trend from 2000 to 2021 as well as the intra-annual seasonal variations.Furthermore,it established the area-water level model by combining 50 sets of water level data from 2009 to 2013 and 2017 to 2018.The results show that:① The AWEI model,outperforming the other three models in the extraction accuracy,was employed for the water body extraction of Poyang Lake;② The area of Poyang Lake exhibited significant seasonal variations,large inter-annual fluctuations in the wet season,and relatively gentle inter-annual fluctuations in the dry season;③ The area-water level piecewise linear model of the Tangyin gauging station proved optimal,which can predict the water coverage area based on real-time water level observations in Poyang Lake,compensating for the limitation of visible spectral remote sensing methods in monitoring the lake water coverage during cloudy and rainy weather.
Poyang LakeLandsatwater body extractionarea variationarea-water level model
万方数据
维普
