Using Optical Remote Sensing and Radar Altimeter Data for Lake Volume Estimation of Manchar Lake, Pakistan

Muhammad Asim Mustafa, W. Qazi
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Abstract

Lakes are a chief source of fresh water. Variation in water volume in lakes provide crucial information about climatic changes and water resources for sustainable water management practices. Continuous monitoring of lake water resources is required particularly with regards to the growing challenges for water resource management. For that purpose, satellite based optical remote sensing imagery and radar altimetry data can be combined for the monitoring the volume of inland water bodies. Optical remote sensing provides information about the area extent of inland water bodies, and the variations in water surface height can be extracted from radar altimetry data. The study area for this research study is Manchar Lake, which is one of the largest sources of fresh water in Pakistan. Time series data of Sentinel-2 are analyzed to calculate water surface area extent using Normalized Difference Water Index (NDWI), and in parallel Sentinel-3 altimetry data for measurements of water surface height was used. Through linear interpolation, identical dates were set up for area extent data to the surface height data. Furthermore, regression analysis was used to develop a relationship between water surface height and water surface area. In this way Heron’s formula to calculate the volume of a pyramidal frustum was used by sorting radar altimetry data in ascending order and the corresponding optical remote sensing data to estimate the volume variations of the lake. The analysis of the results shows also the seasonal and yearly variation in area extent of inland water bodies and water level anomaly.
利用光学遥感和雷达高度计数据估算巴基斯坦曼查尔湖湖泊体积
湖泊是淡水的主要来源。湖泊水量的变化为可持续的水管理实践提供了关于气候变化和水资源的重要信息。需要对湖泊水资源进行持续监测,特别是考虑到水资源管理面临的日益严峻的挑战。为此目的,可以将卫星光学遥感图像和雷达测高数据结合起来监测内陆水体的体积。光学遥感提供了内陆水体的面积范围信息,而水面高度的变化可以从雷达测高数据中提取出来。本研究的研究区域是曼查尔湖,这是巴基斯坦最大的淡水来源之一。利用Sentinel-2的时间序列数据,利用归一化差水指数(NDWI)计算水面面积范围,同时利用Sentinel-3的测高数据测量水面高度。通过线性插值,将面积数据与地表高度数据建立了相同的数据。此外,利用回归分析建立了水面高度与水面面积之间的关系。通过对雷达测高数据和相应的光学遥感数据进行升序排序,利用Heron计算锥台体积的公式估算湖泊的体积变化。分析结果还显示了内陆水体面积范围和水位异常的季节和年变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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