Sinkhole formation along the Dead Sea (DS) shorelines is attributed to collapse into cavities that formed by dissolution of subsurface salt layers due to the replacement of hypersaline groundwater by fresh groundwater as the DS level drops. Further, our analysis suggests that short-term deformation in consolidated gravel layers at shallow depths could be approximated by simple elastic modeling. We find that the induced stress field favors generation of sinkholes at the perimeters of the subsiding areas rather than at their centers, in agreement with field observations, providing important information for sinkhole hazard assessment. A Coulomb failure stress criterion is applied to calculate the stress field induced by the deflating cavity at the ground surface. The geometry of the deflating cavity roof is determined by elastic inverse modeling of the surface displacements. We exploit satellite radar interferometry (interferometric synthetic aperture radar) to resolve temporal and spatial relationships between gradual subsidence and sinkhole collapse. Sinkholes along the Dead Sea shorelines are preceded by, associated with, and followed by gradual surface subsidence that accompanies the cavities' growth. Labs supporting Ukrainian Scientists is an expansive list of labs and PIs offering support at this time.Sinkholes commonly form by subsurface dissolution cavities that collapse after the overlying layers become mechanically unsupported.Science for Ukraine provides an overview of labs offering a place for researchers and students who are affected to work from, as well as offers of employment, funding, and accommodation:.Personally, I have found the messages of support from scientists everywhere to be truly heartfelt, and I would like to highlight some of the community initiatives I’ve seen here: We also want to use our platform to highlight the response from the scientific community.
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