Abstract
Soil pipes are commonly found in landslide scarps, and it has been suggested that build-up of pore water pressure due to clogged soil pipes influences landslide initiation. Several researchers have also suggested that entrapped air in the soil layer increases the pore water pressure. We carried out bench-scale model experiments to investigate the influence of soil pipes and entrapped air on the build-up of pore water pressure. We installed a water supply system consisting of an artificial rainfall simulator, and used a water supply tank to supply water to the model slope and artificial pipe. We used two types of artificial pipe: A straight pipe, and a confluence of three pipes. Furthermore, we placed a layer of silica sand on top of the model slope to investigate the effect of entrapped air in the soil layer on the build-up of pore water pressure. Silica sand is finer than the sand that we used for the bulk of the model slope. Our results indicate that, although artificial pipes decrease the pore water pressure when the amount of water supplied was smaller than the pipe drainage capacity, the pore water pressure increased when the water supply was too large for the artificial pipe to drain. In particular, the confluence of pipes increased the pore water pressure because the water supply exceeded the drainage capacity. The results also indicate that entrapped air increases the pore water pressure in the area with relatively low drainage capacity, too. Based on these results, we found that although soil pipes can drain a certain amount of water from a soil layer, they can also increase the pore water pressure, and destabilize slopes. Furthermore, entrapped air enhances the trend that the pore water pressure can increase in the area with relatively low drainage capacity, as pore water pressure increases when too much water is supplied, and the artificial pipe cannot drain all of it.
Highlights
It has been observed that soil pipes are often located at the sites of landslides [1,2,3,4]
We investigated the effects of the confluence of pipes and entrapped air on landslides by measuring the pore water pressure just prior to landslides, and by assessing the form and timing of landslides
Planar landslides were observed in cases with one straight pipe, whereas rotational landslides occurred in cases with a confluence of three pipes; these were deepest around the confluence of pipes
Summary
It has been observed that soil pipes are often located at the sites of landslides [1,2,3,4]. Based on field observations at the sites of landslides in previous studies, it has been suggested that there is a relationship between the presence of soil pipes and the incidence of landslides. It has been pointed out that soil pipes influence hillslope hydrological processes, such as runoff from soil pipe outlets [4,6]. Jones [6] indicated that the amount of pipe flow plays a large role in the runoff from the side hillslopes on river discharge, influencing river flow in first order streams.
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