Review of the mechanisms of debris-flow impact against barriers

Our limited understanding of the mechanisms pertaining to the force exerted by debris flows on barriers makes it difficult to ascertain whether a design is inadequate, adequate, or over-designed. The main scientific challenge is because flow-type landslides impacting a rigid barrier is rarely captured in the field, and no systematic, physical experimental data is available to reveal the impact mechanisms. An important consideration in flow-structure interaction is that the impact dynamics can differ radically depending on the composition of the flow. Currently, no framework exists that can characterize the impact behavior for a wide range of flow compositions. This review paper examines recent works on debris-flow structure interactions and the limitations of commonly used approaches to estimate the impact load for the design of barriers. Key challenges faced in this area and outlook for further research are discussed

Cell interactions in abnormal neural tube and neural crest cell development of splotch mice

Early identification of mutant embryos prior to the manifestation of a defect facilitates the study of dysmorphogenesis. The In(l)lRk inversion was used as a cytogenetic marker to distinguish embryonic day 9 (D9) splotch (Sp) and splotch-delayed $(Sp sp{d})$ mouse mutants from heterozygous and wild-type littermates, and cellular aspects of abnormal neurulation and NCC migration were examined before inherent neural tube defects (NTDs) and deficiencies in neural crest cell (NCC) derivatives developed. In vitro analysis of NCC emigration from D9 neural tube explants revealed a delay in the release of NCCs from mutant neural tubes compared to controls, suggesting that the primary effect of the mutation was intrinsic to the neuroepithelium. Immunofluorescent localization of the neural cell adhesion molecule (N-CAM) antibody in situ demonstrated an increased intensity of antibody fluorescence in mutant tissue compared to controls, and further characterization by immunoblot analysis showed an altered embryonic N-CAM profile in both Sp and $Sp sp{d}$ mutants at D9 of gestation. The importance of N-CAMs in mediating cellular organization and communication has been well documented, supporting the idea that an alteration in this adhesion mechanism could result in the types of defects seen in splotch locus mouse mutants

Review of the mechanisms of debris-flow impact against barriers

International audienceOur limited understanding of the mechanisms pertaining to the force exerted by debris flows on barriers makes it difficult to ascertain whether a design is inadequate, adequate, or over-designed. The main scientific challenge is because flow-type landslides impacting a rigid barrier is rarely captured in the field, and no systematic, physical experimental data is available to reveal the impact mechanisms. An important consideration in flow-structure interaction is that the impact dynamics can differ radically depending on the composition of the flow. Currently, no framework exists that can characterize the impact behavior for a wide range of flow compositions. This review paper examines recent works on debris-flow structure interactions and the limitations of commonly used approaches to estimate the impact load for the design of barriers. Key challenges faced in this area and outlook for further research are discussed