Improving Ground Penetrating Radar Resolution of Features of Active Sinkholes

Ground penetrating radar (GPR) is widely used to identify locations of sinkholes in covered karst terrain in Florida. Some sinkholes serve as hydraulic conduits between the surficial and underlying aquifers. Their role is critical in determining the surficial aquifer response to pumping in deeper aq...

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Main Author: Gooch, Bradley Tyler
Format: Others
Published: Scholar Commons 2010
Subjects:
Online Access:https://scholarcommons.usf.edu/etd/1646
https://scholarcommons.usf.edu/cgi/viewcontent.cgi?article=2645&context=etd
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spelling ndltd-USF-oai-scholarcommons.usf.edu-etd-26452019-12-06T03:57:06Z Improving Ground Penetrating Radar Resolution of Features of Active Sinkholes Gooch, Bradley Tyler Ground penetrating radar (GPR) is widely used to identify locations of sinkholes in covered karst terrain in Florida. Some sinkholes serve as hydraulic conduits between the surficial and underlying aquifers. Their role is critical in determining the surficial aquifer response to pumping in deeper aquifers. Improved methods for discriminating between hydraulically active sinkholes and plugged sinkholes could help regional water management. In the covered karst of west-central Florida a clay-rich weathering horizon forms over the limestone. The clay-rich layer is in turn overlain by surficial sands. Ground penetrating radar profiles typically show a strong reflector from the top of clay-rich horizon as well as internal layering within sands. Active sinkholes are expected to have sandy conduits that broach the clay layer, and perhaps layering in the overlying sand indicative of ongoing subsidence. Three dimensional simulations of GPR profiles over sinkhole with and without conduits were run with the finite-difference time-domain (FDTD) program GPRMAX. Results from the synthetic surveys were then processed with standard techniques, including migration. The modeling confirms that conduits appear in GPR records primarily as gaps in the return from the clay layer. The modeling also shows that non-traditional survey geometries (varying antenna spacing and orientation) are unlikely to recover more information than traditional proximal transmitter-receiver separation. Also examined are GPR profiles and 3D grids over a set of active and inactive sinkholes in Tampa, Florida. Results from these surveys showed decent structural recovery of a small sinkhole similar in structure to that of the modeled ones. Indications of active subsidence and possible conduit structure were apparent from this data. Finally, the dense surveys served as a benchmark to compare interpretations taken with the same surveys at lower spatial resolutions and profiles with 2D-only processing methods in order to understand errors in analysis and interpretation that are possible from 2D surveys. Two-dimensional surveys, 2D processed and migrated, showed some similarity to the 3D results previously mentioned but contained more complexities and artifacts, which led to poorer interpretation ability. 2010-03-12T08:00:00Z text application/pdf https://scholarcommons.usf.edu/etd/1646 https://scholarcommons.usf.edu/cgi/viewcontent.cgi?article=2645&context=etd default Graduate Theses and Dissertations Scholar Commons 3D migration FDTD modeling covered-karst terrain subvertical reflectors GPRMAX American Studies Arts and Humanities
collection NDLTD
format Others
sources NDLTD
topic 3D migration
FDTD modeling
covered-karst terrain
subvertical reflectors
GPRMAX
American Studies
Arts and Humanities
spellingShingle 3D migration
FDTD modeling
covered-karst terrain
subvertical reflectors
GPRMAX
American Studies
Arts and Humanities
Gooch, Bradley Tyler
Improving Ground Penetrating Radar Resolution of Features of Active Sinkholes
description Ground penetrating radar (GPR) is widely used to identify locations of sinkholes in covered karst terrain in Florida. Some sinkholes serve as hydraulic conduits between the surficial and underlying aquifers. Their role is critical in determining the surficial aquifer response to pumping in deeper aquifers. Improved methods for discriminating between hydraulically active sinkholes and plugged sinkholes could help regional water management. In the covered karst of west-central Florida a clay-rich weathering horizon forms over the limestone. The clay-rich layer is in turn overlain by surficial sands. Ground penetrating radar profiles typically show a strong reflector from the top of clay-rich horizon as well as internal layering within sands. Active sinkholes are expected to have sandy conduits that broach the clay layer, and perhaps layering in the overlying sand indicative of ongoing subsidence. Three dimensional simulations of GPR profiles over sinkhole with and without conduits were run with the finite-difference time-domain (FDTD) program GPRMAX. Results from the synthetic surveys were then processed with standard techniques, including migration. The modeling confirms that conduits appear in GPR records primarily as gaps in the return from the clay layer. The modeling also shows that non-traditional survey geometries (varying antenna spacing and orientation) are unlikely to recover more information than traditional proximal transmitter-receiver separation. Also examined are GPR profiles and 3D grids over a set of active and inactive sinkholes in Tampa, Florida. Results from these surveys showed decent structural recovery of a small sinkhole similar in structure to that of the modeled ones. Indications of active subsidence and possible conduit structure were apparent from this data. Finally, the dense surveys served as a benchmark to compare interpretations taken with the same surveys at lower spatial resolutions and profiles with 2D-only processing methods in order to understand errors in analysis and interpretation that are possible from 2D surveys. Two-dimensional surveys, 2D processed and migrated, showed some similarity to the 3D results previously mentioned but contained more complexities and artifacts, which led to poorer interpretation ability.
author Gooch, Bradley Tyler
author_facet Gooch, Bradley Tyler
author_sort Gooch, Bradley Tyler
title Improving Ground Penetrating Radar Resolution of Features of Active Sinkholes
title_short Improving Ground Penetrating Radar Resolution of Features of Active Sinkholes
title_full Improving Ground Penetrating Radar Resolution of Features of Active Sinkholes
title_fullStr Improving Ground Penetrating Radar Resolution of Features of Active Sinkholes
title_full_unstemmed Improving Ground Penetrating Radar Resolution of Features of Active Sinkholes
title_sort improving ground penetrating radar resolution of features of active sinkholes
publisher Scholar Commons
publishDate 2010
url https://scholarcommons.usf.edu/etd/1646
https://scholarcommons.usf.edu/cgi/viewcontent.cgi?article=2645&context=etd
work_keys_str_mv AT goochbradleytyler improvinggroundpenetratingradarresolutionoffeaturesofactivesinkholes
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