Validation of the altimetry-based water levels from Sentinel-3A and B in the Inner Niger Delta

Q3 Earth and Planetary Sciences

Proceedings of the International Association of Hydrological Sciences Pub Date : 2021-11-16 DOI:10.5194/piahs-384-31-2021

A. T. Diepkilé, Flavien Egon, F. Blarel, E. Mougin, F. Frappart

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引用次数: 1

Abstract

Abstract. The comprehension of water level fluctuations and the sustainability of the Inner Niger River Delta (IND) is a major concern for the scientific community, but also for the local population. Located in the centre of Mali, the heart of the Sahel, the delta is characterised by a floodable area of more than 32 000 km2 during the rainy season, which contributes very strongly to the vitality of local ecosystem, and is consequently classified as a Ramsar site under the international Convention for Wetlands. In addition, the Delta acts as an environmental and socio-economic development barometer for the entire sub-region. Nowadays, we can observe an increasing fragility of the delta due to climate change, desertification and human activities, and justifies the need for permanent monitoring. The present study is based on the recent successes of radar altimetry, originally designed to monitor the dynamics topography of the ocean, and now very frequently used to retrieve inland water levels, of lakes, rivers, and wetlands. Previous studies evaluated the performances of several radar altimetry missions including Low Resolution Mode (LRM) (Topex-Poseidon, Jason-1/2/3, ERS-2, ENVISAT, and SARAL, and Synthetic Aperture Radar (SAR) Sentinel-3A missions for water level retrievals over 1992–2017. More than 50 times series of water levels were build at the crossing between water bodies and Sentinel-3A and 3B over 2016–2020. Twenty-four comparisons between in-situ and altimetry-based time-series of water levels were achieved over the IND. RMSE generally lower than 0.7 m and r higher than 0.9 were obtained.

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内尼日尔三角洲Sentinel-3A和B测高水位的验证

摘要了解水位波动和内尼日尔河三角洲(IND)的可持续性是科学界和当地居民关注的主要问题。该三角洲位于马里的中心，萨赫勒地区的心脏地带，其特点是雨季可淹水面积超过32000平方公里，这对当地生态系统的活力做出了非常大的贡献，因此被国际湿地公约列为拉姆萨尔湿地。此外，三角洲是整个次区域的环境和社会经济发展晴雨表。如今，我们可以观察到，由于气候变化、荒漠化和人类活动，三角洲日益脆弱，因此有必要进行长期监测。目前的研究是基于最近雷达测高的成功，最初设计用于监测海洋的动态地形，现在非常频繁地用于检索内陆水位，片，河流和湿地。先前的研究评估了1992 - 2017年期间低分辨率模式(LRM)(Topex-Poseidon、Jason-1/2/3、ERS-2、ENVISAT和SARAL)和合成孔径雷达(SAR) Sentinel-3A等雷达测高任务的水位反演性能。在2016-2020年期间，在水体与Sentinel-3A和3B之间的交叉点建立了50多次水位序列。在IND上进行了24次原位和基于海拔的水位时间序列比较，RMSE一般低于0.7 m, r高于0.9 m。

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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来源期刊

Proceedings of the International Association of Hydrological Sciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)

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审稿时长

12 weeks