Bio-stabilisation of slopes: A review DOI Creative Commons

Kannan Thakur,

Niraj Singh Parihar,

Hemant Sood

et al.

E3S Web of Conferences, Journal Year: 2024, Volume and Issue: 596, P. 01019 - 01019

Published: Jan. 1, 2024

Slope stability is essential for mitigating landslides and erosion risks, especially during heavy rainfall. Vegetation significantly enhances slope through soil reinforcement control. Plant roots stabilize the matrix, reducing likelihood of shallow landslides. However, vegetation's impact varies, with different types potentially influencing differently—some may even worsen instability under specific conditions. Evidence shows that both rigid flexible vegetation improve resistance stability, making them a cost-effective stabilization strategy. water uptake increases matric suction results in drier slopes, further reinforcing stability. The mechanical effects roots, which enhance cohesion, combined hydrological benefits improved management, are crucial maintaining integrity. present research emphasizes importance integrating into management strategies to mitigate landslide risks effectively. Additional measures, including geotechnical advancements, policy development, community involvement, will complement these efforts. Thus, comprehensive understanding diverse impacts root structures, alongside advanced numerical analysis methods, optimizing vegetation-based enhancing safety landslide-prone areas. In this paper, authors thoroughly examine review state-of-the-art techniques. Different methods concerning have been covered such as RAR, Root Morphology Density Distribution, tensile strength biomechanics, Numerical Analysis, Limit Equilibrium approaches categories techniques divided.

Language: Английский

Relationship between plant diversity and community stability in alpine mining areas DOI
Qingqing Liu,

Jiabin Shi,

Yushou Ma

et al.

Journal of Mountain Science, Journal Year: 2025, Volume and Issue: unknown

Published: Feb. 24, 2025

Language: Английский

Citations

0
Soil is alive – how does soil biota influence soil mechanical properties? A perspective review DOI Creative Commons
А. Д. Железова,

Gregorio Sorrentino,

Gerald Innocent Otim

et al.

Biogeotechnics, Journal Year: 2025, Volume and Issue: unknown, P. 100175 - 100175

Published: March 1, 2025

Language: Английский

Citations

0
Site-Specific Investigation of the Kacchi Dhang landslide Along NH-707 in Himachal Pradesh, Northwestern Himalaya, India DOI
Sonam Ladol, Satyendra Mittal, Mark B. Jaksa

et al.

Indian geotechnical journal, Journal Year: 2025, Volume and Issue: unknown

Published: March 12, 2025

Language: Английский

Citations

0
Bio-stabilisation of slopes: A review DOI Creative Commons

Kannan Thakur,

Niraj Singh Parihar,

Hemant Sood

et al.

E3S Web of Conferences, Journal Year: 2024, Volume and Issue: 596, P. 01019 - 01019

Published: Jan. 1, 2024

Slope stability is essential for mitigating landslides and erosion risks, especially during heavy rainfall. Vegetation significantly enhances slope through soil reinforcement control. Plant roots stabilize the matrix, reducing likelihood of shallow landslides. However, vegetation's impact varies, with different types potentially influencing differently—some may even worsen instability under specific conditions. Evidence shows that both rigid flexible vegetation improve resistance stability, making them a cost-effective stabilization strategy. water uptake increases matric suction results in drier slopes, further reinforcing stability. The mechanical effects roots, which enhance cohesion, combined hydrological benefits improved management, are crucial maintaining integrity. present research emphasizes importance integrating into management strategies to mitigate landslide risks effectively. Additional measures, including geotechnical advancements, policy development, community involvement, will complement these efforts. Thus, comprehensive understanding diverse impacts root structures, alongside advanced numerical analysis methods, optimizing vegetation-based enhancing safety landslide-prone areas. In this paper, authors thoroughly examine review state-of-the-art techniques. Different methods concerning have been covered such as RAR, Root Morphology Density Distribution, tensile strength biomechanics, Numerical Analysis, Limit Equilibrium approaches categories techniques divided.

Language: Английский

Citations

0