• 中文核心期刊
  • 中国科技核心期刊
  • ISSN 1007-6336
  • CN 21-1168/X
Volume 44 Issue 2
Apr.  2025
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Article Contents
YANG Lin, CHEN Bo, YU Hongjun, SU Qiao. Experimental study on determining the impact range of seawater intrusion based on continuous high-density resistivity measurements[J]. Chinese Journal of MARINE ENVIRONMENTAL SCIENCE, 2025, 44(2): 266-275. DOI: 10.12111/j.mes.2023-x-0314
Citation: YANG Lin, CHEN Bo, YU Hongjun, SU Qiao. Experimental study on determining the impact range of seawater intrusion based on continuous high-density resistivity measurements[J]. Chinese Journal of MARINE ENVIRONMENTAL SCIENCE, 2025, 44(2): 266-275. DOI: 10.12111/j.mes.2023-x-0314

Experimental study on determining the impact range of seawater intrusion based on continuous high-density resistivity measurements

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  • Received Date: November 26, 2023
  • Revised Date: February 19, 2024
  • Accepted Date: February 19, 2024
  • Available Online: March 24, 2024
  • Seawater intrusion has emerged as a significant coastal hazard in our country, profoundly impacting the ecological environment and sustainable development of coastal regions. The high-density resistivity method offers notable advantages, such as cost-effectiveness and efficiency, in delineating the extent of seawater intrusion and identifying its boundary. However, it also presents challenges, including the potential for multiple interpretations of results, which hinder the establishment of a standardized criterion. This study conducted a simulation experiment on seawater intrusion, considering the influence of tides. By analyzing the impact of various factors on formation resistivity, and examining the relationship between frequency, amplitude characteristics and simulated tide level data using the continuous formation resistivity observation method, the researchers successfully outlined the scope of seawater intrusion. Consequently, they overcame limitations associated with multiple solutions in single-section resistivity measurement and proposed a novel approach to determine the seawater intrusion interface based on the continuous high-density resistivity method.

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