UIS Commission on Karst Hydrogeology and Speleogenesis
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Karstbase Bibliography Database

Shaw Faulkner, M.G.; Stafford, K.W.; Bryant, A.W.
Land, L.; Doctor, D.H.; Stephenson, J.B.
Delineation and classification of karst depressions using lidar: fort hood military installation, texas
Sinkholes and the Engineering and Environmental Impacts of Karst: Proceedings of the Thirteenth Multidisciplinary Conference, May 6-10, Carlsbad, New Mexico: NCKRI Symposium 2.
Carlsbad
2013
459
468

The Fort Hood Military Installation is a karst landscape characterized by Cretaceous-age limestone plateaus and canyons in Bell and Coryell Counties, Texas. The area is located in the Lampasas Cut Plain region of the Edwards Plateau and is stratigraphically defined by exposures of the Fredericksburg Group. Spatial interpolation of 105 km2 of the Fort Hood Military Installation provided depression data that were delineated and classified using geoanalytical methods. Most of the karst features within the study area are predominantly surficial expressions of collapse features, creating windows into karst conduits with surficial exposures of epikarst spatially limited.The increasing capabilities of GIS (Geographic Information Systems) and accuracy of geographically referenced data has provided the basis for more detailed terrain analysis and modeling. Research on terrain-related surface features is highly dependent on terrain data collection and the generation of digital models. Traditional methods such as field surveying can yield accurate results; however, they are limited by time and physical constraints. Within the study area, dense vegetation and military land use preclude extensive traditional karst survey inventories. Airborne Light Detection and Ranging (LiDAR) provides an alternative for high-density and high-accuracy three-dimensional terrain point data collection. The availability of high density data makes it possible to represent terrain in great detail; however, high density data significantly increases data volume, which can impose challenges with respect to data storage, processing, and manipulation. Although LiDAR analysis can be a powerful tool, filter mechanisms must be employed to remove major natural and anthropogenic terrain modifications resulting from military use, road building and maintenance, and the natural influence of water bodies throughout the study area.

Fort Hood Military Installation; TEXAS; epikarst; SINKHOLE
978-0-9795422-7-5
Shaw Faulkner, M.G.; Stafford, K.W.; Bryant, A.W., 2013, Delineation and classification of karst depressions using lidar: fort hood military installation, texas , 459 - 468 http://www.karstportal.org/sites/karstportal.org/files/KIP-0011735-25.pdf