INVESTIGADORES
ARROYAVE RODRIGUEZ Jeison Manuel
artículos
Título:
Desorption rate of glyphosate from goethite as affected by different entering ligands: hints on the desorption mechanism
Autor/es:
ARROYAVE, JEISON M.; WAIMAN, CAROLINA C.; ZANINI, GRACIELA P.; TAN, WENFENG; AVENA, MARCELO J.
Revista:
ENVIRONMENTAL CHEMISTRY
Editorial:
CSIRO PUBLISHING
Referencias:
Año: 2017
ISSN:
1448-2517
Resumen:
The desorption kinetics of glyphosate (Gly) from goethite was studied in a flow cell using attenuated total reflectance Fourier-transform infrared spectroscopy. Because Gly forms an inner-sphere surface complex by coordinating to Fe atoms at the goethite surface, the desorption process is actually a ligand-exchange reaction, where Gly is the leaving ligand and water molecules or dissolved substances are the entering ligands. A series of possible entering ligands that can be found in nature was tested to evaluate their effect on the desorption kinetics of Gly. Contrarily to expectations, the desorption rate was quite independent of the entering ligand concentration. Moreover, the identity of this ligand (phosphate, citrate, sulfate, oxalate, EDTA, thiocyanate, humic acid, water) had only a small effect on the value of the desorption rate constant. By analogy with the reactivity of transition metal complexes in solution, it is concluded that the rate is mainly controlled by the breaking of the Fe?Gly bond, through a dissociative or a dissociative interchange mechanism. The results are relevant in understanding and predicting the environmental mobility of Gly: irrespective of the identity of the entering ligand, Gly will always desorb from iron (hydr)oxides in nature at nearly the same rate, simplifying calculations and predictions enormously. The importance of studying desorption kinetics using mineral surfaces and environmentally relevant molecules is also highlighted.