Using Multispectral Satellite Images to Estimate Alteration in the Water Surface Area of Lake Dankia During the 2020--2021 Dry Season, Lam Dong Province, Vietnam

Q3 Mathematics

Herald of the Bauman Moscow State Technical University. Series Natural Sciences Pub Date : 2023-06-01 DOI:10.18698/0236-3933-2023-2-111-123

L. Trinh, V. Zablotskiy, I. Zenkov, T. Pham, X. B. Tran

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Abstract

Vietnam in recent years, especially in the Central Highlands and the South Central region, is experiencing severe droughts due to global climate change, depletion of the surface water resources and intensive agricultural production. The study used four Sentinel 2 MSI satellite images received during the 2020--2021 dry seasons to evaluate alteration in the water surface area of Lake Dankia in the Lam Dong Province of the Vietnam Central Highlands. Optical green channel (channel 3) and shortwave infrared channel (channel 11) of the Sentinel 2 images were used to calculate the modified normalized difference water index MNDWI and to decipher the land--water boundary by the thresholding method. The obtained results demonstrated that the Lake Dankia area at the dry season end (March 18. 2021) decreased by 86.46 hectares compared to November 18. 2020 (dry season start), which was 31.7 % of the original lake area. This study shows that the Sentinel 2 MSI satellite images could be effectively used to monitor alterations in the surface water area and provide valuable input information for models to assess the drought impact on water resources in the areas

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利用多光谱卫星图像估算越南林同省丹基亚湖2020- 2021年旱季水面面积变化

近年来，由于全球气候变化、地表水资源枯竭和农业生产集约化，越南特别是中部高地和中南部地区遭受严重干旱。该研究使用了2020- 2021年旱季收到的四张Sentinel 2 MSI卫星图像，以评估越南中部高原林东省丹奇亚湖水面面积的变化。利用Sentinel 2影像的光绿色通道(通道3)和短波红外通道(通道11)，计算修正归一化差水指数MNDWI，并采用阈值法解译水陆边界。结果表明，丹基亚湖地区在旱季结束(3月18日)。与11月18日相比，减少了86.46公顷。2020年(旱季开始)，占原湖区面积的31.7%。该研究表明，Sentinel 2 MSI卫星图像可以有效地用于监测地表水区域的变化，并为模型评估干旱对该地区水资源的影响提供有价值的输入信息

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来源期刊

Herald of the Bauman Moscow State Technical University. Series Natural Sciences Mathematics-Mathematics (all)

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： The journal is aimed at publishing most significant results of fundamental and applied studies and developments performed at research and industrial institutions in the following trends (ASJC code): 2600 Mathematics 2200 Engineering 3100 Physics and Astronomy 1600 Chemistry 1700 Computer Science.