Sinkhole risk assessment by ERT: The case study of Sirino Lake (Basilicata, Italy)

Sinkhole risk assessment by ERT: The case study of Sirino Lake (Basilicata, Italy)

The presence of natural or artificial lakes and reservoirs that can drain because of natural phenomena can generate catastrophic events affecting urban and agricultural areas next to the source area. Therefore, geophysical prospecting techniques have been applied in the study of Sirino Lake, which,...

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Bibliographic Details
Published in:Geomorphology (Amsterdam, Netherlands) Vol. 253; pp. 1 - 9
Main Authors: Giampaolo, V., Capozzoli, L., Grimaldi, S., Rizzo, E.
Format: Journal Article
Language:English
Published: Elsevier B.V 15-01-2016
Subjects:
Arrays
Electrodes
ERT
Freshwater
Geomorphology
Geophysics
Hydrogeology
Lakes
Piping
Prospecting
Sinkhole
Sinkholes
Water flow
MED, Italy
Italy, Basilicata
Sinkhole
Hydrogeology
Piping
ERT
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Summary:The presence of natural or artificial lakes and reservoirs that can drain because of natural phenomena can generate catastrophic events affecting urban and agricultural areas next to the source area. Therefore, geophysical prospecting techniques have been applied in the study of Sirino Lake, which, during the last century, was affected by the sudden opening of small sinkholes, resulting in the almost total draining of the lake and in the sudden increase of water flow rates of distal springs. Two electrical resistivity tomographies (ERTs) were carried out across the lake, using electrode arrays located on land and across the water body. Self-potential (SP) data were acquired around the lake shore and the surrounding area. The geophysical prospecting contributed significant data toward explaining the unique hydrogeological characteristics of the lake. Integration of geophysical, geological, hydrogeological, and geomorphological data allowed us to estimate the thickness of the lacustrine deposits beneath the lake, to describe the main patterns of the subsurface fluid flows in the area, and to identify possible water escape routes causing the piping phenomena. •We study the Sirino Lake, affected by piping phenomena, by geophysics.•We integrate geophysical and hydro-geomorphological information.•The electrical resistivity tomographies individuate possible water escape routes.•We propose a monitoring system on the vulnerable lake shore.
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ISSN:0169-555X
1872-695X
DOI:10.1016/j.geomorph.2015.09.028