傳統鑽探法與地球物理探測法中之地電阻剖面影像法(electrical resistivity tomography, ERT)被廣泛運用於崩塌地調查,鑽探法可提供真實的單點地層資訊但施作成本較高,而ERT 法施測方便、經濟,且能快速取得地表下構造之電阻特性。本研究結合ERT法與傳統鑽探,於南投縣中寮鄉之一處崩塌地進行試驗,針對崩塌後之地層狀況、降雨事件前後地層電阻率之變化以及不同電極排列法之適用性等課題進行探討。結果顯示,地電阻法對崩塌地堆積區之探測成果大致與鑽探資料吻合。兩時期間的電阻率變化量顯示乾季時的地表下電阻較濕季時高,電極排列法則以Pole-Pole 排列最適用於本試區之地層。另外並驗證了山邊溝可間接促進水分入滲進入邊坡。
Traditional drilling and Electrical Resistivity Tomography (ERT) are widely applied to the investigation of landslides. Borehole data provide substantial information of strata but drilling work is expensive. ERT is relatively rapid and economical for investigating a large area. In this study, boring and ERT methods were applied to examine an old landslide area in Chung Liao, Nantou, Taiwan to understand the subsurface conditions. We discuss the variations in resistivity following rainfall and the suitability of the electrode array types. The thickness of colluviums detected by ERT agrees with the borehole data, as indicated in the results. Surface resistivity in the dry season is higher than that of the wet season. The pole-pole array type is the best electrode arrangement in this study area which is in a sedimentary formation. It is also verified hillside ditches can assist in rainfall infiltration.
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