Francisco Rodrigues do Amaral;Tin Nguyen Trung;Thierry Pellarin;Nicolas Gratiot
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摘要

地表水和海洋地形(SWOT)任务为观测低海拔沿岸带(LECZ)的细尺度空间变化提供了开创性的机会。本研究探讨了该任务最具挑战性环境中的首批 SWOT 数据:一个数据稀缺的热带地区,地形平坦,城市化严重,河流坡度弱,受潮汐影响大。我们重点研究了 SWOT 在河段层面的水面高程 (WSE) 和水面坡度 (WSS) 产品,并将测量结果与现场数据进行了比较。我们的分析表明,SWOT 的 WSE 和 WSS 测量结果中约有一半在预期误差范围内,但 WSS 与现场数据缺乏线性相关性。在目前的早期阶段,SWOT 的 WSE 和 WSS 都需要在如此复杂的地区进行验证。不过,随着 SWOT 高分辨率观测数据的不断改进和与其他数据的整合,它们有望为河流和河口的动态过程提供有价值的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Challenging SWOT: Early Assessment of Level 2 High-Rate River Products in an Urbanized, Low Elevation Coastal Zone
The surface water and ocean topography (SWOT) mission offers groundbreaking opportunities to observe fine-scale spatial changes in low elevation coastal zones (LECZs). This study explores the first SWOT data in one of the mission’s most challenging environments: a data-scarce, tropical region with flat topography, heavy urbanization, and a river with a weak, tidally influenced slope. We focus on SWOT’s water surface elevation (WSE) and water surface slope (WSS) products at the reach level, comparing the measurements to in situ data. Our analysis shows that about half of SWOT’s WSE and WSS measurements fall within the desired error budgets, though WSS lacks linear correlation with in situ data. At this early stage, both SWOT’s WSE and WSS require validation in such complex areas. However, as SWOT’s high-resolution observations improve over time and are integrated with other data, they are expected to provide valuable insights into dynamic river and estuarine processes.
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