MULTISOURCE DATA INTEGRATION FOR GROUNDWATER PROSPECTING IN PRECAMBRIAN SHEAR ZONES, ESPIRITO SANTO STATE (SOUTHEASTERN BRAZIL)
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Data
2021-04-01
Autores
Hartwig, Marcos Eduardo
Moreira, Cesar Augusto [UNESP]
Melo, Marilane Gonzaga de [UNESP]
Título da Revista
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Título de Volume
Editor
Inst Geophysics Unam
Resumo
The Precambrian metamorphic rocks in the southern region of the Espirito Santo State (southeastern Brazil) is intercepted by ductile and brittle/ductile shear zones over which towns like Guacui, Marechal Floriano and Domingos Martins were established. In the years of 2014 to 2016 the Espirito Santo State faced the worst drought in the past 80 years. In situations like that, the only source of fresh water available is underground. Therefore, the purpose of this study was to integrate multisource data for groundwater prospecting and management. The study area comprises the central sectors of the Guacui and Batatal shear zones. Methodology involved the interpretation of stereo-pairs for the identification of lineaments, electrical resistivity surveys and geological fieldwork. The results were tentatively validated with available groundwater well production data. Six resistivity profiles with a total length of 2,400 m were surveyed and 15 outcrops were described across these structures. Results have shown that the structural framework of the shear zones is predominantly made of NW to NNW and NE to NNE-trending lineaments. The former is related to brittle tectonics and the latter coincides with the ductile Precambrian fabric of the crystalline basement rocks. A near-surface porous aquifer regarded to the regolith and recent unconsolidated sedimentary deposits presenting resistivity values < 1,372 Ohm.m and depths < 30 m have good potential for groundwater storage. However, results are not conclusive about the hydrogeological significance of tectonic structures for groundwater prospection in the study area.
Descrição
Palavras-chave
groundwater resources, electrical resistivity tomography, structural lineaments, fractured rock mass, porous aquifer
Como citar
Geofisica Internacional. Mexico: Inst Geophysics Unam, v. 60, n. 2, p. 124-140, 2021.