Distinguishing Areas of Cave Collapse: A Case Study Applied to Carter Caves State Resort Park, Kentucky, USA
Abstract
While dissolution dominates the genesis of karst systems, physical erosion processes also play a significant role in their development. Lowering of the water table exposes caves to vadose conditions, reducing roof-supporting buoyancy and potentially leading to catastrophic conduit ceiling failure and cave collapse. The locations and extents of collapse areas are not always identifiable at the landscape surface. High-resolution topographic data derived from LiDAR were used to develop a digital elevation model (DEM) that isolates areas that may have sustained episodes of cave collapse and improves our understanding of past hydrogeological and geomorphological conditions of the system. Cave level delineation from LiDAR data was used to assign elevations to cave entrances. Spatial susceptibility to past collapse was evaluated using a weighted multi-criteria analysis that integrated terrain slope, proximity to mapped cave entrances, and distance to surface streams. Areas identified as having a high likelihood of collapse spatially coincide with cave level contacts and known karst windows and terraces, indicating that this replicated methodology is effective as an initial survey tool for identifying collapse-prone areas in karst landscapes.
Department(s)
School of Earth, Environment and Sustainability
Document Type
Article
DOI
10.3390/geosciences16030102
Keywords
cave collapse, geospatial analytics, karst
Publication Date
3-1-2026
Recommended Citation
Dogwiler, Toby J.; Conley, Ethan W.; Peterson, Eric W.; and Kostelnick, John C., "Distinguishing Areas of Cave Collapse: A Case Study Applied to Carter Caves State Resort Park, Kentucky, USA" (2026). Faculty Scholarship. 26.
https://bearworks.missouristate.edu/articles00/26
Journal Title
Geosciences Switzerland
