Application of continuous seismic reflection methods to hydrologic studies

Groundwater
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Abstract

Oil and gas exploration and engineering studies in water‐covered areas routinely use continuous seismic profiling techniques to obtain subsurface geologic information. Such profiling also can be used effectively in hydrologic studies to define the geologic framework of aquifer systems, to locate hydrologic boundaries, and in some places, to interpret the lithologic character of aquifers and confining beds.

High‐resolution continuous seismic profiling, through the use of nonexplosive sound sources, can be used to produce continuous records that require little data processing before hydrogeologic interpretation. High‐resolution tuned transducer, minisparker, Uniboom, and small airgun systems operating from small boats in shallow water are capable of transmitting energy that can penetrate up to a hundred meters of earth materials. The resulting analog records of the reflected seismic signal closely resemble geologic sections.

Surveys on the Housatonic River in Connecticut and Massachusetts, and on the Connecticut River, in water from 1 to 10 meters deep, have defined the bedrock surface beneath 60 meters of stratified drift. Seismic‐reflection profiling also was used to determine the extent and thickness of recent lake‐bottom deposits in two Connecticut lakes.

Surveys along 90 kilometers of river channels in the Sarasota‐port Charlotte, Florida, area defined in detail the stratigrapahy and continuity of the shallow aquifers.

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Publication type Article
Publication Subtype Journal Article
Title Application of continuous seismic reflection methods to hydrologic studies
Series title Groundwater
DOI 10.1111/j.1745-6584.1986.tb01455.x
Volume 24
Issue 1
Year Published 1986
Language English
Publisher National Groundwater Association
Contributing office(s) Office of Ground Water
Description 9 p.
First page 23
Last page 31
Country United States
State Connecticut, Massachusetts
Other Geospatial Connecticut River, Housatonic River
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