The Effects of Bedrock Topography and Soil Permeability on Saturated Zone Distribution in a Mountainous Steep-Slope Area

IF 3.2 3区 地球科学 Q1 Environmental Science
Kotaro Yanai, Naoya Masaoka, Ken'ichirou Kosugi, Masamitsu Fujimoto, Yosuke Yamakawa
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Abstract

Saturation development and distribution at the soil–bedrock interface are important for predicting shallow landslide occurrence. Previous studies have indicated that saturation is generated in bedrock depressions and valleys and that bedrock groundwater seepage generates locally saturated areas. However, the effects of soil permeability, which is known to be heterogeneously distributed, on saturation development and distribution are poorly understood. In this study, we performed unprecedented high-resolution (approximately 50 cm grid) soil pore water pressure and soil temperature monitoring using 141 tensiometer–thermocouple sets in a plot measuring approximately 5 × 4 m to investigate the effects of topography and bedrock groundwater seepage on saturation development and distribution. We then measured permeability distribution of two soil profiles, including at the soil–bedrock interface, using the Guelph Permeameter method (GP method) for comparison with saturated zone distribution and saturation duration. The results indicated that a perennial saturated area was formed by bedrock groundwater seepage and was distributed downstream from a certain bedrock surface altitude in the lower region of the study plot. After a peak of rainfall, the perennial saturated area expanded upslope owing to the increased seepage. In areas without the influence of bedrock groundwater, saturation was observed to retreat rapidly at high permeability points and persist over long periods at low permeability points; however, the saturation duration was inconsistent with the bedrock surface topography. Therefore, it is suggested that the bedrock altitude controls the saturation distribution generated by bedrock groundwater, whereas the distribution of saturation that is associated with direct rainwater infiltration may be controlled by the permeability distribution during recession periods. Although the plot size was small, the unprecedented high-resolution observations suggest that the permeability distribution, rather than the bedrock topography, may control the saturated zone distribution following rainfall.

基岩地形和土壤渗透性对山区陡坡地带饱和带分布的影响
土壤-岩石界面的饱和度发展和分布对于预测浅层滑坡的发生非常重要。以往的研究表明,饱和是在基岩洼地和山谷中产生的,基岩地下水渗流会产生局部饱和区域。然而,人们对已知为异质分布的土壤渗透性对饱和发展和分布的影响知之甚少。在这项研究中,我们在一块面积约为 5 × 4 米的地块上使用 141 套张力计热电偶对土壤孔隙水压力和土壤温度进行了前所未有的高分辨率(约 50 厘米网格)监测,以研究地形和基岩地下水渗流对饱和度发展和分布的影响。然后,我们使用圭尔夫渗透仪法(GP 法)测量了两个土壤剖面的渗透率分布,包括土壤-岩石界面,以便与饱和带分布和饱和持续时间进行比较。结果表明,由基岩地下水渗流形成的常年饱和区分布在研究地块下部区域的某一基岩表面高度的下游。降雨高峰过后,由于渗流增加,多年饱和区向上游扩展。在不受基岩地下水影响的区域,观察到饱和在高渗透点迅速消退,而在低渗透点长期存在;然而,饱和持续时间与基岩表面地形不一致。因此,可以认为基岩海拔高度控制着基岩地下水产生的饱和度分布,而与雨水直接渗透相关的饱和度分布可能受衰退期渗透率分布的控制。虽然地块面积较小,但前所未有的高分辨率观测结果表明,降雨后的饱和带分布可能受渗透率分布而非基岩地形控制。
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来源期刊
Hydrological Processes
Hydrological Processes 环境科学-水资源
CiteScore
6.00
自引率
12.50%
发文量
313
审稿时长
2-4 weeks
期刊介绍: Hydrological Processes is an international journal that publishes original scientific papers advancing understanding of the mechanisms underlying the movement and storage of water in the environment, and the interaction of water with geological, biogeochemical, atmospheric and ecological systems. Not all papers related to water resources are appropriate for submission to this journal; rather we seek papers that clearly articulate the role(s) of hydrological processes.
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