Landslide susceptibility assessment in the Rangun  Khola watershed of far western Nepal

Pathak, Lalit; Devkota, Krishna Chandra

doi:10.3126/jngs.v63i01.50827

Cited by 5 publications

(11 citation statements)

References 32 publications

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“…in Relation to Landslides in Mid-hills of Nepal decades, leading to erosion (Pathak & Devkota, 2022a). In this watershed, the natural elements, particularly the weather elements, are highly erosive (Dhital, 2015).…”

Section: Estimation Of Soil Erosion Using the Revised Universal Soil ...mentioning

confidence: 99%

“…In this watershed, the natural elements, particularly the weather elements, are highly erosive (Dhital, 2015). Because of the high intensity of monsoon rainfall over short periods of time, the erosivity of rain and run-off are major drivers of soil loosening, slope weakening, and finally mass movements of solid and semi-solid materials such as soil creep, landslips, and landslides (Bhandari et al, 2021;Koirala et al, 2019;Pathak & Devkota, 2022b). Like many of the hilly areas that are on the way of being developed, this watershed is also in the growing phase of development.…”

Section: Estimation Of Soil Erosion Using the Revised Universal Soil ...mentioning

confidence: 99%

“…With the ongoing developmental activities and some other development projects in the pipeline for future developments, the risk of soil erosion and landslide events (Bhandari et al, 2021;Pathak & Devkota, 2022a). As a result, the Rangun Khola watershed can be assumed to be under constant pressure for various agricultural and urban developments.…”

Section: Estimation Of Soil Erosion Using the Revised Universal Soil ...mentioning

confidence: 99%

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Estimation of soil erosion using the Revised Universal Soil Loss Equation (RUSLE) in Relation to Landslides in Mid-hills of Nepal

Pathak¹,

Joshi

Ghimire

2023

J. Env. Sci

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An attempt has been made in this research to assess soil erosion and its spatial distribution by the revised universal soil loss equation (RUSLE) model at Rangun Khola Watershed, western Nepal. The erosion factors were acquired from multiple sources (Satellite images, ALOSPALSAR DEM, SOTER soil database, Esri 2020 land cover map, rainfall database of DHM) and an integrated analysis was carried out in raster format of GIS. A landslide inventory was generated on the basis of satellite images and past literature to validate soil erosion intensity in the area. The result map of the RUSLE model was categorized into six levels based on the erosion severity, and 9.06 % of the area was found to be under extremely severe soil erosion risk (> 80 ton ha”1year”1) indicating urgent consequences. The frequency ratios for each level of potential erosion susceptible to landside exhibited a linear relationship depicting reasonable and satisfactory level of agreement between the landslide event/location data and the erosion map that validates the model result. The result of this study will be helpful to detect the sensitive zones presenting a priority of protection and offer valuable information that aids decision-makers and user agencies in creating adequate conservation planning programs to stop soil erosion and maintain the natural balance.

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Section: Estimation Of Soil Erosion Using the Revised Universal Soil ...mentioning

confidence: 99%

Section: Estimation Of Soil Erosion Using the Revised Universal Soil ...mentioning

confidence: 99%

Section: Estimation Of Soil Erosion Using the Revised Universal Soil ...mentioning

confidence: 99%

See 1 more Smart Citation

Estimation of soil erosion using the Revised Universal Soil Loss Equation (RUSLE) in Relation to Landslides in Mid-hills of Nepal

Pathak¹,

Joshi

Ghimire

2023

J. Env. Sci

View full text Add to dashboard Cite

show abstract

“…In this watershed, the natural elements, particularly the weather elements, are highly erosive (Dhital 2015). Because of the high intensity of monsoon rainfall over short periods of time, the erosivity of rain and run-off are major drivers of soil loosening, slope weakening, and nally mass movements of solid and semi-solid materials such as soil creep, landslips, and landslides (Koirala et al 2019;Bhandari et al 2021;Pathak and Devkota 2022b). Like many of the hilly areas that are on the way of being developed, this watershed is also in the growing phase of development.…”

Section: Introductionmentioning

confidence: 99%

Estimation of soil erosion using the Revised Universal Soil Loss Equation (RUSLE) in Relation to Landslides in Western Mid-hills of Nepal

Pathak

Joshi

Ghimire

2023

Preprint

Self Cite

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An attempt has been made in this research to assess soil erosion and its spatial distribution by the revised universal soil loss equation (RUSLE) model at Rangun Khola Watershed, western Nepal. The erosion factors were acquired from multiple sources (Satellite images, ALOSPALSAR DEM, SOTER soil database, Esri 2020 land cover map, rainfall database of DHM) and an integrated analysis was carried out in raster format of GIS. A landslide inventory was generated on the basis of satellite images and past literature to validate soil erosion intensity in the area. The result map of the RUSLE model was categorized into six levels based on the erosion severity, and 9.06% of the area was found to be under extremely severe soil erosion risk (> 80 ton ha− 1year− 1) indicating urgent consequences. The frequency ratios for each level of potential erosion susceptible to landside exhibited a linear relationship depicting reasonable and satisfactory level of agreement between the landslide event/location data and the erosion map that validates the model result. The result of this study will be helpful to detect the sensitive zones presenting a priority of protection and offer valuable information that aids decision-makers and user agencies in creating adequate conservation planning programs to stop soil erosion and maintain the natural balance.

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“…Recovery of mental well-being tends to occur relatively swiftly once the situation is addressed, in contrast to the prolonged recovery periods associated with physical health issues or loss of life. Consequently, the presence of a digital platform capable of offering supplementary information equips government agencies to enhance their problem-solving efficiency [13][14][15]. Currently, the monitoring and surveillance of landslides in Thailand rely on data provided by the Department of Mineral Resources.…”

Section: Introductionmentioning

confidence: 99%

Development and Application of a Real-Time GIS Digital Platform for Landslide Risk Analysis

Puttinaovarat,

Kongcharoen,

Pruitikanee

et al. 2023

IJSDP

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In the current global context of climate change, the frequency and intensity of disasters, including landslides, are on the rise. During the initial three quarters of 2023, a notable incidence of fatalities resulting from landslides was observed across several nations, with specific instances including India reporting 26 casualties, South Korea documenting 43 fatalities, and Burma recording 31 lives lost, among others. Moreover, there has been significant damage to critical infrastructure, encompassing various forms of infrastructure, such as transportation networks and buildings. To address this challenge, researchers have turned to Geographic Information Systems (GIS) for studying and analyzing landslide risks. However, they face a limitation: the analysis results mainly consist of static maps, lacking a real-time digital platform for efficient data management and dynamic display of landslide information. This limitation hampers effective monitoring and surveillance efforts. To overcome this limitation, the present study introduces an innovative approach that integrates GIS with the development of a digital platform, effectively addressing the existing challenges. This integrated solution not only enables accurate landslide risk analysis with an impressive accuracy rate of 83.50% but also provides users with the ability to access information about specific landslide sites within a defined radius, regardless of their geographical location. Unlike previous studies, this research demonstrates the potential to address past methodological limitations by utilizing a real-time data platform. Accuracy varies based on geographic context, and landslide occurrences are influenced by diverse factors in different terrains. The digital platform elucidated in this study holds applicability for utilization by disaster prevention and relief organizations, as well as government agencies.

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Landslide susceptibility assessment in the Rangun Khola watershed of far western Nepal

Cited by 5 publications

References 32 publications

Estimation of soil erosion using the Revised Universal Soil Loss Equation (RUSLE) in Relation to Landslides in Mid-hills of Nepal

Estimation of soil erosion using the Revised Universal Soil Loss Equation (RUSLE) in Relation to Landslides in Mid-hills of Nepal

Estimation of soil erosion using the Revised Universal Soil Loss Equation (RUSLE) in Relation to Landslides in Western Mid-hills of Nepal

Development and Application of a Real-Time GIS Digital Platform for Landslide Risk Analysis

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