SWAN: A surface-towed modular controlled-source electromagnetic system for mapping submarine groundwater discharge and offshore groundwater resources

Q2 Earth and Planetary Sciences
Leading Edge Pub Date : 2023-09-01 DOI:10.1190/tle42090590.1
Anna Eliana Pastoressa, A. Haroon, Mark E. Everett, Lea Rohde, Thies Bartels, Martin Wollatz-Vogt, Z. Faghih, Gesa Katharina Franz, Aaron Micallef
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引用次数: 0

Abstract

Offshore freshened groundwater (OFG) and submarine groundwater discharge (SGD) are important components of coastal hydrologic systems. A lack of understanding of offshore groundwater systems and their interactions with onshore systems along the majority of global coastlines still exists due to a general paucity of field data. Recently, controlled-source electromagnetic (CSEM) techniques have emerged as a promising noninvasive method for identifying and characterizing OFG and SGD. Unfortunately, only a few systems are available in academic and research institutions worldwide, and applications are limited to specific regions. These systems are often limited by relatively high deployment costs, slow data acquisition rates, logistical complexity, and lack of modification options. A relatively inexpensive and user-friendly CSEM system is needed to overcome these limitations. We present the initial theoretical and practical developments of SWAN — a low-cost, modular, surface-towed hybrid time-frequency domain CSEM system capable of detecting OFG and SGD to water depths of 100 m. A field test of the system was carried out in the central Adriatic Sea at water depths between several tens to approximately 160 m to illustrate its capabilities. Through its ability to facilitate continuous measurements in both the time and frequency domain, the system has demonstrated its effectiveness in acquiring high-quality data while operating at towing speeds ranging from 2.5 to 3 kn. The resulting data coverage enables the system to detect variations in subsurface resistivity to depths of approximately 150–200 m below seafloor. With its modular, user-friendly design, SWAN provides an accessible, cost-efficient means to investigate the hydrogeology of shallow offshore environments.
SWAN:一种用于海底地下水排放和近海地下水资源测绘的表面拖曳模块化控制源电磁系统
近海淡水(OFG)和海底地下水排泄(SGD)是海岸水文系统的重要组成部分。由于现场数据普遍缺乏,对全球大部分海岸线的近海地下水系统及其与陆上系统的相互作用仍然缺乏了解。近年来,受控源电磁(CSEM)技术已成为一种很有前途的非侵入性方法,用于识别和表征OFG和SGD。不幸的是,世界各地的学术和研究机构只有少数系统可用,应用仅限于特定地区。这些系统往往受到相对较高的部署成本、缓慢的数据采集速度、后勤复杂性和缺乏修改选项的限制。需要一个相对便宜且用户友好的CSEM系统来克服这些限制。我们介绍了SWAN的初步理论和实践发展。SWAN是一种低成本、模块化、表面拖曳的混合时频域CSEM系统,能够检测100米水深的OFG和SGD。该系统在亚得里亚海中部数十米至约160米的水深进行了现场测试,以说明其能力。通过其在时域和频域中促进连续测量的能力,该系统已经证明了其在2.5至3千牛的拖曳速度下操作时获取高质量数据的有效性。由此产生的数据覆盖范围使该系统能够检测海底以下约150至200米深度的地下电阻率变化。SWAN具有模块化、用户友好的设计,为调查浅海环境的水文地质提供了一种方便、经济高效的方法。
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来源期刊
Leading Edge
Leading Edge Earth and Planetary Sciences-Geology
CiteScore
3.10
自引率
0.00%
发文量
180
期刊介绍: THE LEADING EDGE complements GEOPHYSICS, SEG"s peer-reviewed publication long unrivalled as the world"s most respected vehicle for dissemination of developments in exploration and development geophysics. TLE is a gateway publication, introducing new geophysical theory, instrumentation, and established practices to scientists in a wide range of geoscience disciplines. Most material is presented in a semitechnical manner that minimizes mathematical theory and emphasizes practical applications. TLE also serves as SEG"s publication venue for official society business.
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