Impacts of sediment transported downstream from the 2015 deep-seated landslide in Mt. Hakusan, Japan

A massive landslide occurred in May 2015 in the Mt. Hakusan Sennindani area, leading to the discharge of a substantial amount of sediment into the Tedori River. We conducted a cross-sectional analysis of secondary data to assess the potential effects of discharged sediments on the downstream environment, including long-term turbidity in rivers, alterations in fish habitats, and groundwater depletion. To analyse the spatio-temporal changes in the river floodplain elevation and paddy fields, aerial photographs and airborne light detection and ranging data were assessed using the ArcGIS software. After the landslide, the turbidity of the Tedori River increased and continued flowing turbid for approximately 6 months. Turbid water spread in the alluvial fan through the irrigation canal network and sediment was deposited in the paddy fields, leading to a reduction in infiltration rates. The groundwater level in the alluvial fan area decreased by more than 2.0 m following the 2015 Sennindani landslide. The sediment deposition in the river floodplain increased by 0.58 m from 2013 to 2015 (pre- and post-landslide). The sediment from upstream destroyed the spawning sites of the Ayu fish along the Tedori River, leading to a decrease in the number of eggs laid in 2015 and 2016 to the lowest levels. The Tomiyo fish disappeared in 2016 and 2017, downstream of the alluvial fan, which received water recharge from the Tedori River. Moreover, Chum salmon showed an exceptionally high anadromous movement towards the Tedori River from coastal areas during 2015 and 2016. In conclusion, discharged sediment from deep upstream landslides can have various adverse impacts on downstream ecosystems, and recovery to their original state may require a considerable amount of time. This study was conducted to understand consequences of a landslide event that took place in upstream region of the Tedori River catchment in central Japan. This research encompassed an examination of geomorphological analysis (turbidity of river water and spatio-temporal changes in erosion/sedimentation within river floodplains and paddy fields on the alluvial fan), hydrological investigation (alterations in the water level of wells situated in the alluvial fan) and ecological impact assessment (changes in the habitat of three fish species). image