pH-Dependent iron oxide precipitation in a subterranean estuary
Publication date
2006
Authors
Spiteri, C.
Regnier, P.
Slomp, C.P.
Charette, M.A.
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DOI
Document Type
Article
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(c) UU Universiteit Utrecht, 2006
Abstract
Iron-oxide-coated sediment particles in subterranean estuaries can act as a geochemical barrier (biron curtainQ) for various
chemical species in groundwater (e.g. phosphate), thus limiting their discharge to coastal waters. Little is known about the factors
controlling this Fe-oxide precipitation. Here, we implement a simple reaction network in a 1D reactive transport model (RTM), to
investigate the effect of O2 and pH gradients along a flow-line in the subterranean estuary ofWaquoit Bay (Cape Cod, Massachusetts)
on oxidative precipitation of Fe(II) and subsequent PO4 sorption. Results show that the observed O2 gradient is not the main factor
controlling precipitation and that it is the pH gradient at the mixing zone of freshwater (pH 5.5) and seawater (pH 7.9) near the beach
face that causes a ~7-fold increase in the rate of oxidative precipitation of Fe(II) at ~15 m. Thus, the pH gradient determines the
location and magnitude of the observed iron oxide accumulation and the subsequent removal of PO4 in this subterranean estuary.
Keywords
Subterranean estuaries, Iron-oxide precipitation, Phosphate adsorption