Integrated multispectral remote sensing approach for high-resolution spectral characterization and automated mapping of carbonate lithofacies

IF 3.7 3区 地球科学 Q2 ENVIRONMENTAL SCIENCES
Ahmed Hammam , Asmaa Korin , Adhipa Herlambang , Khalid Al–Ramadan , Ardiansyah Koeshidayatullah
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引用次数: 0

Abstract

Field-based high-resolution carbonate facies mapping is often challenging due to the limited accessible exposure, high-degree of heterogeneity, and lack of distinct natural characteristics between different lithofacies. To mitigate this issue, we proposed a novel approach by integrating multispectral remote sensing, advanced image processing techniques, and supervised classification to perform high-resolution carbonate lithofacies mapping and utilized the extensive Mesozoic carbonate in Saudi Arabia as an example. For this study, the Tuwaiq Mountain Formation (TMF) was selected not only because of its wide aerial distribution but also its importance as conventional and unconventional hydrocarbon reservoirs in the subsurface. Our proposed method was able to map and delineate different members (T1, T2, T3) and key lithofacies in the TMF. In addition, based on the spectral characteristics, the middle member of TMF (T2) can be further subdivided into two subunits (T2-a of higher reflectance & T2-b of lower reflectance). These findings are further corroborated by detailed microfacies analysis, which validates the presence of two sub-members of T2 (T2-a: Spiculitic foraminiferal wackestone and T2-b: Coralline floatstone facies). This resulted in a revised and accurate lithofacies map that made significant modifications over older maps. The overall accuracy of TMF lithofacies is 93.4 % with a kappa coefficient of 0.88. This study demonstrates that multispectral remote sensing approach are effective at distinguishing different carbonate units and providing high-resolution carbonate facies maps. The proposed approach should be applicable to other carbonate outcrops globally and could help in improving carbonate lithofacies mapping where the outcrops are not accessible.

综合多光谱遥感方法用于高分辨率光谱定性和自动绘制碳酸盐岩岩相图
基于野外的高分辨率碳酸盐岩岩相测绘通常具有挑战性,原因是可获取的露头有限、异质性程度高以及不同岩相之间缺乏明显的自然特征。为缓解这一问题,我们提出了一种新方法,将多光谱遥感、先进的图像处理技术和监督分类相结合,进行高分辨率碳酸盐岩岩相测绘,并以沙特阿拉伯广阔的中生代碳酸盐岩为例。本研究之所以选择 Tuwaiq 山地层(TMF),不仅是因为其广泛的空中分布,还因为其作为地下常规和非常规碳氢化合物储层的重要性。我们提出的方法能够绘制和划分 TMF 的不同成员(T1、T2、T3)和主要岩性。此外,根据光谱特征,TMF 中部成员(T2)可进一步细分为两个亚单元(反射率较高的 T2-a;反射率较低的 T2-b)。详细的微地层分析进一步证实了这些发现,并验证了 T2 的两个子单元(T2-a、T2-b 和 T2-c)的存在:T2-b:珊瑚浮岩面):珊瑚浮石层)。这使得修订后的岩石构成图更加准确,对旧图进行了重大修改。TMF 岩石构成的总体准确率为 93.4%,卡帕系数为 0.88。这项研究表明,多光谱遥感方法可有效区分不同的碳酸盐岩单元,并提供高分辨率的碳酸盐岩岩相图。建议的方法应适用于全球其他碳酸盐岩露头,并有助于改进无法进入露头的碳酸盐岩岩相绘图。
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来源期刊
CiteScore
8.10
自引率
0.00%
发文量
85
审稿时长
48 weeks
期刊介绍: The Egyptian Journal of Remote Sensing and Space Sciences (EJRS) encompasses a comprehensive range of topics within Remote Sensing, Geographic Information Systems (GIS), planetary geology, and space technology development, including theories, applications, and modeling. EJRS aims to disseminate high-quality, peer-reviewed research focusing on the advancement of remote sensing and GIS technologies and their practical applications for effective planning, sustainable development, and environmental resource conservation. The journal particularly welcomes innovative papers with broad scientific appeal.
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