An Experimental and Numerical Study of Landslides Triggered by Agricultural Irrigation in Northwestern China

Gu, Tianfeng; Sun, Peide; Wang, Jiading; Lin, Haipeng; Xu, Youlong; Kong, Jiaxu; Sun, Bin

doi:10.1155/2020/8850381

Cited by 4 publications

(1 citation statement)

References 36 publications

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“…In addition, concave slopes are more susceptible to irrigation-induced soil moisture. Landslides are more likely to occur in gullies or on the backs of landslides [71]. Finally, the detrimental effects of irrigation-induced high-speed landslides in remote areas of loesses are also worth mentioning [72].…”

Section: The Effect Of Watermentioning

confidence: 99%

Factors Affecting the Stability of Loess Landslides: A Review

Wei,

Zeng,

Yan

2024

Applied Sciences

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The stability of loess landslides affects the production and livelihood of the people in its vicinity. The stability of loess landslides is influenced by various factors, including internal structure, collapsibility, water content, and shear strength. The landslide stability of loesses can be analyzed by several geophysical methods, such as seismic refraction tomography (SRT), electrical resistivity tomography (ERT), micro-seismic technology, and ground penetrating radar (GPR). Geotechnical tests (compression and shear tests) and remote sensing techniques (Global Navigation Satellite System (GNSS), Interferometric Synthetic Aperture Radar (InSAR) and airborne 3D laser technology) are used for studying the landslide stability of loesses as well. Some of the methods above can measure parameters (e.g., fractures, water content, shear strength, creep) which influence the stability of loess landslides, while other methods qualitatively indicate the influencing factors. Integrating parameters measured by different methods, minimizing disturbances to landslides, and assessing landslide stability are important steps in studying landslide hazards. This paper comprehensively introduces the methods used in recent studies on the landslide stability of loesses and summarizes the factors which affect the landslide stability. Furthermore, the relationships between different parameters and methods are examined. This paper enhances comprehension of the underlying mechanisms of the stability of loess landslides to diminish disastrous consequences.

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Section: The Effect Of Watermentioning

confidence: 99%

Factors Affecting the Stability of Loess Landslides: A Review

Wei,

Zeng,

Yan

2024

Applied Sciences

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Slope stabilization through groundwater management with limited hydrogeological data: a case study from Majes, southern Peru

Stein,

Dugan,

Gonzales Zenteno

et al. 2024

Environ Earth Sci

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Water table rise near a cliff may trigger a landslide due to the associated increase pore pressure and decrease in frictional resistance. One main cause of water table rise is intense irrigation for agriculture in arid and semi-arid regions. One such case is in Majes, southern Peru, where a landslide has evolved near an intensively irrigated agricultural area. Mitigation strategies for landslides exist, such as physical strengthening of the cliff, but can be expensive. We describe a groundwater management approach to reduce the pore pressure in the vicinity of the cliff to either slow the propagation of an existing landslide or prevent the initiation of a new landslide. A 3D numerical groundwater flow model was built for the Majes area which employs the limited data existing on the local hydrogeology. Simulations were run to understand the connection between the hydraulic properties and the water table level change due to irrigation and pumping. Results show that through a series of pumping wells near the cliff edge, the pore pressure can be decreased effectively. Moreover, decreasing the water table via pumping can be accomplished in 25–35% of the time it took to elevate the water table level by irrigation. In addition, the pumping can capture water that could be reused for irrigation. Thus, based on our analysis, we conclude that wells could provide a groundwater management approach that keeps the pore pressure at low levels to mitigate landslide processes and simultaneously supplies water for irrigation existing and future irrigation-heavy agriculture in semi-arid environments.

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An introduction to “Application of Novel High-Tech Methods to Geological Hazard Research”

Xu¹

2023

Natural Hazards Research

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An Experimental and Numerical Study of Landslides Triggered by Agricultural Irrigation in Northwestern China

Cited by 4 publications

References 36 publications

Factors Affecting the Stability of Loess Landslides: A Review

Factors Affecting the Stability of Loess Landslides: A Review

Slope stabilization through groundwater management with limited hydrogeological data: a case study from Majes, southern Peru

An introduction to “Application of Novel High-Tech Methods to Geological Hazard Research”

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