Analysis of Slope Sensitivity to Landslides by a Transdisciplinary Approach in the Framework of Future Development: The Case of La Trinité in Martinique (French West Indies)

Thiéry, Yannick; Reninger, Pierre-Alexandre; Lacquement, Frédéric; Raingeard, Anne; Lombard, Maeva; Nachbaur, Aude

doi:10.3390/geosciences7040135

Cited by 16 publications

(22 citation statements)

References 63 publications

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“…A DTM with a spatial resolution of 10 × 10 m was provided by the Instituto Geográfico Agustín Codazzi. A soil thickness map was built using interpolation, employing an empirical relationship between soil thickness and slope angle in the study area (Aristizábal, 2013;Catani et al, 2010;Thiery et al, 2019). The computed residual soil depth ranges from 1 to 2.8 m.…”

Section: Data and Proceduresmentioning

confidence: 99%

Probabilistic landslide susceptibility analysis in tropical mountainous terrain using the physically based r.slope.stability model

Palacio

Mergili

Aristizábal

2020

Nat. Hazards Earth Syst. Sci.

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Abstract. Landslides triggered by rainfall are very common phenomena in complex tropical environments such as the Colombian Andes, one of the regions of South America most affected by landslides every year. Currently in Colombia, physically based methods for landslide hazard mapping are mandatory for land use planning in urban areas. In this work, we perform probabilistic analyses with r.slope.stability, a spatially distributed, physically based model for landslide susceptibility analysis, available as an open-source tool coupled to GRASS GIS. This model considers alternatively the infinite slope stability model or the 2.5-D geometry of shallow planar and deep-seated landslides with ellipsoidal or truncated failure surfaces. We test the model in the La Arenosa catchment, northern Colombian Andes. The results are compared to those yielded with the corresponding deterministic analyses and with other physically based models applied in the same catchment. Finally, the model results are evaluated against a landslide inventory using a confusion matrix and receiver operating characteristic (ROC) analysis. The model performs reasonably well, the infinite slope stability model showing a better performance. The outcomes are, however, rather conservative, pointing to possible challenges with regard to the geotechnical and geo-hydraulic parameterization. The results also highlight the importance to perform probabilistic instead of – or in addition to – deterministic slope stability analyses.

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Section: Data and Proceduresmentioning

confidence: 99%

Probabilistic landslide susceptibility analysis in tropical mountainous terrain using the physically based r.slope.stability model

Palacio

Mergili

Aristizábal

2020

Nat. Hazards Earth Syst. Sci.

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“…Phenomena can be shallow, deep, rotational, translational, or complex. The many landslides in the Caribbean are mainly due to the following reasons: (i) A complex lithology with heterogeneous volcanic materials that are sometimes poorly consolidated and superimposition of healthy materials on highly weathered materials [12][13][14][15][16]; (ii) Hurricane and tropical storms associated with intense end heavy rainfalls [1,11,16,17].…”

Section: Introductionmentioning

confidence: 99%

“…= 15 × 10 4 m 3 ) in 1991 [18], which required €7 million in work to rehabilitate the slope after the event, and (ii) the Morne Callebasse landslide (vol. = 2 × 10 5 m 3 ) in 2011, which destroyed more than 20 buildings and the road 'RD 48 , bringing 75 expulsions and more than €17.1 million in works [15,18]. Therefore, anticipating landslides and improving their prevention in this French overseas territory has become a major challenge [8,15].…”

Section: Introductionmentioning

confidence: 99%

“…= 2 × 10 5 m 3 ) in 2011, which destroyed more than 20 buildings and the road 'RD 48 , bringing 75 expulsions and more than €17.1 million in works [15,18]. Therefore, anticipating landslides and improving their prevention in this French overseas territory has become a major challenge [8,15]. The first step in achieving these actions consists of assessing hazards [19][20][21].…”

Section: Introductionmentioning

confidence: 99%

“…; [31,32]) remains mandatory. Recently, in the framework of future development [15], there has been demonstrated interest in AEM to delineate landslide-prone areas and to improve landslide hazard assessment. New information brought by AEM has allowed a landslide hazard map to be modified by combining a 3D geological model derived from a joint analysis of field observations and AEM results and a PBM.…”

Section: Introductionmentioning

confidence: 99%

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Airborne Electromagnetics to Improve Landslide Knowledge in Tropical Volcanic Environments

2021

Self Cite

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Caribbean areas are particular volcanic territories in tropical environments. These territories juxtapose several landslide-prone areas with different predisposing factors (poorly consolidated volcanic materials, superimposition of healthy materials on highly weathered materials, high heterogeneity of thicknesses, etc.). In these environments, where rapid development of slopes and land use changes are noticeable, it is necessary to better characterize these unstable phenomena that cause damage to infrastructure and people. This characterization has to be carried out on the materials as well as on the initiation conditions of the phenomena and requires complementary investigations. This study, focusing on La Martinique, proposes a landslide analysis methodology that combines new information about landslide-prone materials acquired by an airborne electromagnetics survey with a physical-based model. Once the data are interpreted and compared with field observations and previous data, a geological model is produced and introduced into the physical model to test different instability scenarios. The results show that geophysical investigations (i) improve the knowledge of the internal structure of landslides and surficial formations, (ii) specify the spatial limits of the materials that are sensitive to landslides, and (iii) give a better understanding of landslide initiation conditions, particularly hydrogeological triggering conditions.

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Quantifying pesticide-contaminated sediment sources in tropical coastal environments (Galion Bay, French West Indies)

Bizeul,

Cerdan,

Pak

et al. 2024

J Soils Sediments

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Purpose Over the last 60 years, intensification of soil cultivation led to an acceleration of soil erosion and sediment delivery to river systems. In Martinique, this acceleration has led to the remobilization of a toxic insecticide (i.e. chlordecone) used in the 1970s-1990s to control banana weevil. A previous study attributed this accelerated remobilization to the application of glyphosate in plantations from the 1990s onwards. To further unambiguously confirm this link, the identification of soil erosion sources supplied to coastal sediment is essential. Methods Accordingly, sediment fingerprinting tools were adapted and applied to a coastal sediment core collected in the Galion Bay. Potential source samples (n=37) were collected across the drainage area. Along with the coastal sediment core layers, these samples were analysed for potential tracing properties. The optimal suite of tracers was then selected and introduced into an un-mixing model to quantify their contributions to coastal sediment. Results Results showed that subsoil (i.e. soil layer $$< 30$$ < 30 cm depth) and banana plantation soil surface supply the major sources of sediment (49-78% and 12-36%, respectively) to the Galion Bay and that their contributions increased since 2000, in line with chlordecone and glyphosate fluxes. Conclusion This evolution may be attributed to the higher sensitivity of banana plantations to erosion that may have been enhanced by the glyphosate application leaving the soil uncovered with vegetation and to the contamination of both topsoil and deep soil layers ($$< 30$$ < 30 cm) layers with chlordecone due to its vertical transfer along the soil profile and its redistribution across hillslopes.

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Analysis of Slope Sensitivity to Landslides by a Transdisciplinary Approach in the Framework of Future Development: The Case of La Trinité in Martinique (French West Indies)

Cited by 16 publications

References 63 publications

Probabilistic landslide susceptibility analysis in tropical mountainous terrain using the physically based r.slope.stability model

Probabilistic landslide susceptibility analysis in tropical mountainous terrain using the physically based r.slope.stability model

Airborne Electromagnetics to Improve Landslide Knowledge in Tropical Volcanic Environments

Quantifying pesticide-contaminated sediment sources in tropical coastal environments (Galion Bay, French West Indies)

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