Simulation and Observations of Audio Magnetotelluric Measurements over Water-Covered Areas
Author:
Wu Qiong12, Li Yong-Bo123ORCID, Mi Hong-Ze12, Wang Gang12, Zhang Zhen-Yu12
Affiliation:
1. National Research Center of Modern Geological Exploration Engineering Technology, Institute of Geophysical and Geochemical Exploration, Chinese Academy of Geological Sciences, Langfang 065000, China 2. Key Laboratory of Geophysical Electromagnetic Probing Technologies, Ministry of Natural Resources, Langfang 065000, China 3. Chinese Academy of Geological Sciences, Beijing 100037, China
Abstract
Electromagnetic (EM) surveys play a significant role in mineral exploration. However, the EM method often faces limitations when investigating minerals in areas covered by rivers, lakes, or other water bodies. This paper introduces audio magnetotelluric (AMT) observation technology that utilizes separated electric and magnetic channels to deal with this challenge over water-covered areas. The study analyzes and discusses the characteristics of the relative error of the magnetic field through forward simulation. The observation and profile experiments were conducted at the estuary of a river in Liaoning Province, China, and high-quality data in the river and the pseudo-geoelectric section of the underwater space were successfully obtained. The results demonstrate the feasibility and effectiveness of the AMT observation technology over water-covered areas, emphasizing the importance of locating the magnetic channel in a quiet zone at a certain distance from the shore. This configuration helps reduce the influence of resistivity differences between water and shore, ultimately improving data quality and accuracy. The research suggests that the AMT observation technology, utilizing separated electric and magnetic channels, has the potential for further improvement and can serve as a valuable guide for mineral exploration over water-covered areas.
Funder
the Basic Scientific Research Project of the Chinese National Non-profit Institute
Subject
Geology,Geotechnical Engineering and Engineering Geology
Reference48 articles.
1. Strengthening exploration of metallic minerals in the second depth space of the crust, accelerating development and industrialization of new geophysical technology and instrumental equipment;Teng;Prog. Geophys.,2010 2. Xue, G., Chen, W., Wu, X., Yan, S., and Guo, W. (2022). A Near-Source Electromagnetic Method for Deep Ore Explorations. Minerals, 12. 3. Zhang, P.X. (1987). Salt Lakes in Qaidam Basin, Science Publishing House. [1st ed.]. 4. A tentative discussion on exploration model for potash deposits in basins of China;Liu;Miner. Depos.,2010 5. Wang, K., Zhang, Y., Han, J.H., Ma, L.C., Zheng, M.P., Wu, Y., and Yang, B.W. (2023). Distribution and Genesis of Potassium-Bearing Minerals in Lop Nor Playa, Xinjiang, China. Minerals, 13.
|
|