Oxolinic Acid Binding at Goethite and Akaganeite Surfaces: Experimental Study and Modeling - Université de Rennes Access content directly
Journal Articles Environmental Science and Technology Year : 2016

Oxolinic Acid Binding at Goethite and Akaganeite Surfaces: Experimental Study and Modeling

Remi Marsac
Sébastien Martin
Khalil Hanna
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Abstract

Oxolinic acid (OA) is a widely used quinolone antibiotic in aquaculture. In this study, its interactions with synthetic goethite (α-FeOOH) and akaganéite (β-FeOOH) particle surfaces were monitored to understand the potential fate of OA in marine sediments where these phases occur. Batch sorption experiments, liquid chromatography (LC) analyses of supernatants, attenuated total reflectance-Fourier transform infrared (ATR-FTIR) spectroscopy and multisite complexation (MUSIC) modeling were used to monitor OA binding at these particle surfaces. Both LC and ATR-FTIR showed that adsorption did not degrade OA, and that OA adsorption was largely unaffected by NaCl concentrations (10-1000 mM). This was explained further by ATR-FTIR suggesting the formation of metal-bonded complexes at circumneutral to low pHc = -log [H(+)] and with a strongly hydrogen-bonded complex at high pHc. The stronger OA binding to akaganéite can be explained both by the higher isoelectric point/point-of-zero charge (9.6-10) of this mineral than of goethite (9.1-9.4), and an additional OA surface complexation mechanism at the (010) plane. Geminal sites (≡Fe(OH2)2(+)) at this plane could be especially reactive for metal-bonded complexes, as they facilitate a mononuclear six-membered chelate complex via the displacement of two hydroxo/aquo groups at the equatorial plane of a single Fe octahedron. Collectively, these findings revealed that Fe-oxyhydroxides may strongly contribute to the fate and transport of OA-type antibacterial agents in marine sediments and waters
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Dates and versions

hal-01904132 , version 1 (24-10-2018)

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Remi Marsac, Sébastien Martin, Jean-François Boily, Khalil Hanna. Oxolinic Acid Binding at Goethite and Akaganeite Surfaces: Experimental Study and Modeling. Environmental Science and Technology, 2016, 50 (2), pp.660-668. ⟨10.1021/acs.est.5b04940⟩. ⟨hal-01904132⟩
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