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引用次数: 1
摘要
摘要第四纪沉积复杂而非均质。它们含有一些最丰富和最广泛使用的含水层。为了提高对此类矿床空间异质性的认识,我们在瑞士上Aare山谷获得了一个大型(超过1400公顷)和密集(20 m间距)的时域电磁(TDEM)数据集。TDEM是一种快速、可靠的测量与地下电阻率直接相关的磁场的方法。在本文中,我们介绍了从这次采集中获得的反演电阻率模型,以及所有必要的数据,以便对处理后的数据进行不同的反演(https://doi.org/10.5281/ZENODO.4269887 (Neven et al., 2020))。调查深度在40 ~ 120m之间,数据标准差中包含平均数据残差。这些数据可以用于许多不同的目的:从第四纪环境的沉积学解释,地质和水文地质建模,到基准地球物理反演技术。
tTEM20AAR: a benchmark geophysical dataset for unconsolidated
fluvio-glacial sediments
Abstract. Quaternary deposits are complex and heterogeneous. They contain some of the most abundant and extensively used aquifers. In order to improve the knowledge of the spatial heterogeneity of such deposits, we acquired a large (more than 1400 hectares) and dense (20 m spacing) Time Domain ElectroMagnetic (TDEM) dataset in the upper Aare Valley, Switzerland. TDEM is a fast and reliable method to measure the magnetic field directly related to the resistivity of the underground. In this paper, we present the inverted resistivity models derived from this acquisition, and all the necessary data in order to perform different inversions on the processed data ( https://doi.org/10.5281/ZENODO.4269887 (Neven et al., 2020)). The depth of investigation ranges between 40 to 120 m depth, with an average data residual contained in the standard deviation of the data. These data can be used for many different purposes: from sedimentological interpretation of quaternary environments in alpine environments, geological and hydrogeological modeling, to benchmarking geophysical inversion techniques.
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