水文地质工程地质2026,Vol.53Issue(3):106-116,11.DOI:10.16030/j.heg.202603001
重庆大足石刻宝顶山卧佛区域导水裂隙的高密度电阻率动态监测研究
Dynamic monitoring of water-conducting fractures in reclining Buddha area of Baoding Mountain,Dazu Rock Carvings,Chongqing using electrical resistivity tomography
摘要
Abstract
To address seepage issues caused by water-conducting fractures in the Reclining Buddha area of Baoding Mountain at the Dazu Rock Carvings,and to overcome the limitations of traditional survey methods in characterizing such features,this study employed electrical resistivity tomography(ERT)combined with multi-parameter approach for long-term monitoring.Hydrological and meteorological data were collected simultaneously and classified into dry and wet seasons based on precipitation levels to facilitate comparative analysis.The results reveal two water-conducting fracture zones in the study area.Fracture Zone 1,located 3-5 m below ground surface,is sensitive to rainfall and presents short-term fluctuations.Fracture Zone 2,extending from 2 to 12 m in depth,serves as one of the main preferential pathways and shows a sustained response to continuous rainfall during the rainy season.Groundwater recharge exhibits a lag effect of approximately 3 to 5 days following precipitation,with the delay increasing with depth.This study characterizes the spatial distribution of the water-conducting fracture zones and elucidated the patterns of groundwater migration,provides a scientific basis and technical support for water seepage control in the Reclining Buddha area of the Dazu Rock Carvings,as well as for the conservation of similar cave cultural relics.关键词
大足石刻/导水裂隙/高密度电阻率法/滞后效应Key words
Dazu Rock Carvings/water-conducting fractures/electrical resistivity tomography/lag effect分类
天文与地球科学引用本文复制引用
夏腾,杨凯,王金华,许枝钰,魏行之,毛德强..重庆大足石刻宝顶山卧佛区域导水裂隙的高密度电阻率动态监测研究[J].水文地质工程地质,2026,53(3):106-116,11.基金项目
国家自然科学基金项目(42177056) (42177056)
重庆市文物局重点项目(DZCG21112) (DZCG21112)
