Geochemical analysis of SAR backscattering (Sentinel-1) on global ocean oil spill cases

IF 3.7 4区地球科学 Q2 REMOTE SENSING European Journal of Remote Sensing Pub Date : 2023-09-21 DOI:10.1080/22797254.2023.2256959

José Milton Neves de Souza Júnior, Luís Felipe Ferreira de Mendonça, Heverton da Silva Costa, Juliana Costi, Rodrigo Nogueira Vasconcelos, André Telles da Cunha Lima, Sidnei João Siqueira Sant’anna, José Marques Lopes, Milton José Porsani, de José Vivas Garica Miranda, Carlos Alessandre Domingos Lentini

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Abstract

The oil spill is one of the most impactful sources of marine pollution on the ocean surface, detected by the SAR sensors as dark areas, regions with low backscatter values. Due to the complex mixture of hydrophobic hydrocarbons, mineral oil spills change the water surface tension dampening the capillary gravity waves and provoking a specular reflection. In this work, we associated the geochemical oil characteristics, such as density, viscosity, API, and molecular composition with the backscatter values for each oil spill case. We identified the relationship between the oil weathering processes, with the changes in the backscattering values of ocean oil spills. The method designed zonal sections over the oil spills detected in the SAR images, to extract the backscatter values for each pixel along the section. The lowest backscatter average was observed by the heavy oil spill in the Corsica Island study (−29,99 dB). The highest level of weathering had the highest backscatter averages. Damping rates ranged between 4,12 and 7,07 dB and the backscatter values may be related to low oil layer thickness. Furthermore, low wind speeds may have reduced the contrast between water and oil spills, resulting in low damping ratios in all events.

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全球海洋溢油事件SAR后向散射(Sentinel-1)地球化学分析

石油泄漏是海洋表面最具影响的海洋污染源之一，SAR传感器检测到的是暗区，即低后向散射值的区域。由于疏水碳氢化合物的复杂混合物，矿物油泄漏改变了水面张力，抑制了毛细重力波并引发了镜面反射。在这项工作中，我们将石油的地球化学特征(如密度、粘度、API和分子组成)与每个溢油案例的后向散射值联系起来。我们确定了石油风化过程与海洋溢油后向散射值变化之间的关系。该方法在SAR图像中检测到的溢油区域上设计分区，沿分区提取每个像素的后向散射值。在科西嘉岛的重油泄漏研究中，观测到最低的后向散射平均值(- 29,99 dB)。风化程度越高，后向散射平均值越高。阻尼率范围为4.12 ~ 7.07 dB，后向散射值可能与低油层厚度有关。此外，低风速可能降低了水和石油泄漏之间的对比，导致所有事件的低阻尼比。

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来源期刊

European Journal of Remote Sensing REMOTE SENSING-

CiteScore

7.00

自引率

2.50%

发文量

审稿时长

>12 weeks

期刊介绍： European Journal of Remote Sensing publishes research papers and review articles related to the use of remote sensing technologies. The Journal welcomes submissions on all applications related to the use of active or passive remote sensing to terrestrial, oceanic, and atmospheric environments. The most common thematic areas covered by the Journal include: -land use/land cover -geology, earth and geoscience -agriculture and forestry -geography and landscape -ecology and environmental science -support to land management -hydrology and water resources -atmosphere and meteorology -oceanography -new sensor systems, missions and software/algorithms -pre processing/calibration -classifications -time series/change analysis -data integration/merging/fusion -image processing and analysis -modelling European Journal of Remote Sensing is a fully open access journal. This means all submitted articles will, if accepted, be available for anyone to read anywhere, at any time, immediately on publication. There are no charges for submission to this journal.