Hydrogeology and geochemistry of near-shore submarine groundwater discharge at Flamengo Bay, Ubatuba, Brazil

Hydrogeology and geochemistry of near-shore submarine groundwater discharge at Flamengo Bay, Ubatuba, Brazil

Near-shore discharge of fresh groundwater from the fractured granitic rock at Flamengo Bay, Ubatuba, Brazil, is strongly controlled by the local geology. Freshwater flows primarily through a zone of weathered granite to a distance of 24 m offshore. In the nearshore environment this weathered granite...

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Bibliographic Details
Published in:Estuarine, coastal and shelf science Vol. 76; no. 3; pp. 457 - 465
Main Authors: Oberdorfer, June A., Charette, Matthew, Allen, Matthew, Martin, Jonathan B., Cable, Jaye E.
Format: Journal Article
Language:English
Published: Elsevier Ltd 10-02-2008
Subjects:
nutrient fluxes
porewater geochemistry
submarine groundwater discharge
ASW, Brazil, Sao Paulo, Ubatuba, Flamengo Bay
ASW, Brazil, Sao Paulo, Ubatuba
ASW, Brazil
nutrient fluxes
submarine groundwater discharge
porewater geochemistry
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Summary:Near-shore discharge of fresh groundwater from the fractured granitic rock at Flamengo Bay, Ubatuba, Brazil, is strongly controlled by the local geology. Freshwater flows primarily through a zone of weathered granite to a distance of 24 m offshore. In the nearshore environment this weathered granite is covered by about 0.5 m of well-sorted, coarse sands containing pore water with sea water salinity, with an abrupt transition to much lower salinity once the weathered granite is penetrated. Further offshore, low-permeability marine sediments contain saline porewater, marking the limit of offshore migration of freshwater. Freshwater flux rates based on tidal signal and hydraulic gradient analysis indicate a fresh submarine groundwater discharge of 0.17–1.6 m 3/day per m of shoreline. Dissolved inorganic nitrogen and silicate are elevated in the porewater relative to seawater, and appeared to be a net source of nutrients to the overlying water column. The major ion concentrations suggest that the freshwater within the aquifer has a short residence time. Major element concentrations do not reflect in situ alteration of the granitic rocks, possibly because the alteration occurred prior to development of the current discharge zones, or because of large volumes of water discharge in this high rainfall region.
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ISSN:0272-7714
1096-0015
DOI:10.1016/j.ecss.2007.07.020