Co-biosorption of copper and glyphosate by Ulva lactuca

Trinelli, M.A.; Areco, M.M.; Dos Santos Afonso, M.

doi:10.1016/j.colsurfb.2012.12.047

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Trinelli, M.A.; Areco, M.M.; Dos Santos Afonso, M. "Co-biosorption of copper and glyphosate by Ulva lactuca" (2013) Colloids and Surfaces B: Biointerfaces. 105:251-258

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Abstract:

This study investigated the adsorption of glyphosate (PMG) onto the green algae Ulva lactuca. PMG was not adsorbed by U. lactuca but PMG was adsorbed when the process was mediated by Cu(II) with molar ratios Cu(II):PMG ≥ 1.5:1.U. lactuca was characterized by water adsorption surface area, FTIR, SEM and EDS. The Langmuir and Freundlich models were applied. Results showed that the biosorption processes for copper and PMG in the presence of copper were described described by the Langmuir model (qmax=0.85±0.09mmolg-1, KL=0.55±0.14lmmol-1 and qmax=3.65±0.46mmolg-1, KL=0.103±0.03lmmol-1, respectively). Copper adsorption was greater in the presence of PMG than in the absence of the pesticide and the adsorption can only be represented by the Freundlich model (KF=0.08±0.01, 1/n=1.86±0.07).In all cases studied, the maximum metal uptake (qmax) increased with increasing pH. Surface complexes with a stoichiometry ranging from CuPMGCu to CuPMGCu3 are suggested as reaction products of the process.Due to the increasing amounts of PMG applied in Argentina, natural reservoirs present considerable amounts of this herbicide. The value of this work resides in using U. lactuca, a marine seaweed commonly found along coastlines all over the world, as a biosorbent for PMG. © 2013 Elsevier B.V.

Registro:

Documento:	Artículo
Título:	Co-biosorption of copper and glyphosate by Ulva lactuca
Autor:	Trinelli, M.A.; Areco, M.M.; Dos Santos Afonso, M.
Filiación:	INQUIMAE and Dept. de Química Inorgánica, Analítica y Quimica Física, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Ciudad Universitaria Pabellón II 3er Piso, C1428EHA Buenos Aires, Argentina
Palabras clave:	Biosorption; Copper; Glyphosate; Ulva lactuca; Argentina; Biosorbents; Biosorption process; Copper adsorption; Freundlich models; FTIR; Glyphosates; Green alga; Langmuir models; Langmuirs; Metal uptake; Molar ratio; Surface area; Surface complex; Ulva lactuca; Water adsorption; Adsorption; Algae; Biosorption; Copper; Reservoirs (water); Stoichiometry; Herbicides; copper; glyphosate; herbicide; metal ion; adsorption; article; binding site; biosorption; calculation; cell wall; complex formation; controlled study; infrared spectroscopy; isotherm; nonhuman; pH; priority journal; stoichiometry; surface property; Ulva; Adsorption; Biomass; Copper; Glycine; Herbicides; Hydrogen-Ion Concentration; Spectrophotometry, Infrared; Ulva; Water
Año:	2013
Volumen:	105
Página de inicio:	251
Página de fin:	258
DOI:	http://dx.doi.org/10.1016/j.colsurfb.2012.12.047
Título revista:	Colloids and Surfaces B: Biointerfaces
Título revista abreviado:	Colloids Surf. B Biointerfaces
ISSN:	09277765
CODEN:	CSBBE
CAS:	copper, 15158-11-9, 7440-50-8; glyphosate, 1071-83-6; Copper, 789U1901C5; Glycine, TE7660XO1C; Herbicides; Water, 059QF0KO0R; glyphosate, 1071-83-6
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_09277765_v105_n_p251_Trinelli

Referencias:

Rovedatti, M.G., Castane, P.M., Topalian, M.L., Salibian, A., (2001) Water Res., 35, p. 3457
Peruzzo, P.J., Porta, A.A., Ronco, A.E., (2008) Environ. Pollut., 156, p. 61
Sobrero, C., Martin, M.L., Ronco, A., (2007) Hidrobiologica, 17, p. 31
Hornsby, A.G., Wauchope, R.D., Herner, A.E., (1996) Pesticide Properties in the Environment, , Springer-Verlag, New York
Accinelli, C., Koskinen, W.C., Seebinger, J.D., Vicari, A., Sadowsky, M., (2005) J. Agric. Food Chem., 53, p. 4110
Pearson, R.G., (1963) J. Am. Chem. Soc., 85, p. 3533
Barja, B.C., Herszage, J., Dos Santos Afonso, M., (2001) Polyhedron, 20, p. 1821
Subramaniam, V., Hoggard, P.E., (1988) J. Agric. Food Chem., 36, p. 1326
Morillo, E., Undabeytia, T., Maqueda, C., (1997) Environ. Sci. Technol., 31, p. 3588
(2009) Informe de Mercado Argentino de Fitosanitarios, año 2007, , Cámara de Sanidad Agropecuaria y Fertilizantes, Buenos Aires CASAFE
Pessagno, R.C., Torres Sánchez, R.M., Dos Santos Afonso, M., (2008) Environ. Pollut., 153, p. 53
Khenifi, A., Derriche, Z., Mousty, C., Prévot, V., Forano, C., (2010) Appl. Clay Sci., 47, p. 362
Khoury, G.A., Gehris, T.C., Tribe, L., Torres Sanchez, R.M., Dos Santos Afonso, M., (2010) Appl. Clay Sci., 50, p. 167
Piccolo, A., Celano, G., Conte, P., (1996) J. Agric. Food Chem., 44, p. 2442
Candela, L., Alvarez-Benedi, J., de Melo, M.T.C., Rao, P.S.C., (2007) Geoderma, 140, p. 8
Wang, Y.J., Cui, Y.X., Zhou, D.M., Wang, S.Q., Xiao, A.Y., Wang, R.H., Zhang, H., (2009) Soil Sci. Soc. Am. J., 73, p. 1995
Huguenot, D., Bois, P., Jézéquel, K., Cornu, J.Y., Lebeau, T., (2010) J. Hazard. Mater., 182, p. 18
Esposito, A., Paganelli, F., Veglio, F., (2002) Chem. Eng. Sci., 57, p. 307
Van der Wal, A., Norde, W., Zhnder, J.B., Lyklema, J., (1997) Colloids Surf. B, 9, p. 81
Cochrane, E.L., Lu, S.G., Villaescusa, S.W.I., (2006) J. Hazard. Mater., 137, p. 198
Davis, T.A., Volesky, B., Vieira, R.H.S.F., (2000) Water Res., 34, p. 4270
Donghee, P., Yeoung-Sang, Y., Chi Kyu, A., Jong Moon, P., (2007) Chemosphere, 66, p. 939
Areco, M.M., Dos Santos Afonso, M., (2010) Colloids Surf. B, 81, p. 620
Basha, S., Murthy, Z.V.P., Jha, B., (2009) Ind. Eng. Chem. Res., 48, p. 961
Areco, M.M., Hanela, S., Duran, J., Dos Santos Afonso, M., (2012) J. Hazard. Mater., p. 123
Paradossi, G., Cavalieri, F., Pizzoferrato, L., Liquori, A.M., (1999) Int. J. Biol. Macromol., 25, p. 309
Omar, H.H., (2008) Pak. J. Biol. Sci., 11, p. 964
Murphy, V., Hughes, H., McLoughlin, P., (2009) J. Hazard. Mater., 166, p. 318
Sandell, E.B., (1959) Colorimetric Determination of Trace Metals, , Interscience Publishers, New York
Zhu, Y., Zhang, F., Tong, C., Liu, W., (1999) J. Chromatogr. A, 850, p. 297
Motekaitis, R.J., Martell, A.E., (1985) J. Coord. Chem., 14, p. 139
Barja, B.C., Dos Santos Afonso, M., (1998) Environ. Sci. Technol., 32, p. 3331
Daniele, P.G., Stefano, C.D., Prenesti, E., Sammartano, S., (1998) Talanta, 45, p. 425
Popov, K., Rönkkömäki, H., Lajunen, L.H.J., (2001) Pure Appl. Chem., 73, p. 1641
Szabó, Z., (2002) J. Chem. Soc. Dalton Trans., 22, p. 4242
Paschevskaya, N.V., Bolotin, S.N., Sklyar, A.A., Trudnikova, N.M., Bukov, N.N., Panyushkin, V.T., (2006) J. Mol. Liq., 126, p. 89
Sheals, J., Persson, P., Hedman, B., (2001) Inorg. Chem., 40, p. 4302
Stumm, W., Morgan, J.J., (1992) Chemistry of the Solid-Water Interface, , John Wiley & Sons, USA
Singh, V.P., Stapleton, J.R.D., (2002) Preface, Progress in Industrial Microbiology, , Elsevier, Amsterdam
Godlewska-zyłkiewicz, B., (2006) Anal. Bioanal. Chem., 384, p. 114
Morillo, E., Undabeytia, T., Maqueda, C., Ramos, A., (2000) Chemosphere, 40, p. 103
Barja, B.C., Dos Santos Afonso, M., (2005) Environ. Sci. Technol., 39, p. 585
Damonte, M., Torres Sánchez, R.M., Dos Santos Afonso, M., (2007) Appl. Clay Sci., 36, p. 86
Khoury, G.A., Gehris, T.C., Tribe, L., Torres Sánchez, R.M., Dos Santos Afonso, M., (2010) Appl. Clay Sci., 50, p. 167
Solari, P., Zouboulis, A.I., Matis, K.A., Stalidis, G.A., (1996) Sep. Sci. Technol., 31, p. 1075
Torres Sánchez, R.M., Falasca, S., Specific surface and surface charges of some Argentinean soils (1997) Z. Pflanzenernaehr. Bodenk., 160, p. 223
Areco, M.M., (2011) Métodos Alternativos para el Tratamiento de la Contaminación Ambiental por Metales Pesados, , FCEN, Universidad de Buenos Aires, Buenos Aires
Undabeytia, T., Morillo, E., Maqueda, C., (2002) J. Agric. Food Chem., 50, p. 1918
Barja, B.C., (1999) Interacción Química del Herbicida Glifosato y Compuestos Relacionados con Fe(III), , FCEN, Universidad de Buenos Aires, Buenos Aires
Robic, A., Bertrand, D., Sassi, J.F., Lerat, Y., Lahaye, M., (2009) J. Appl. Phycol., 21, p. 451
Ray, B., Lahaye, M., (1995) Carbohydr. Res., 274, p. 251
Trinelli, M.A., (2011) Estudios de Procesos de Fotodegradación y Adsorción de Plaguicidas Organofosforados para el Desarrollo de Tecnologías de Depuración, , FCEN, Universidad de Buenos Aires, Buenos Aires
Wagner, C.C., Baran, E.J., (2009) Spectrochim. Acta A, 72, p. 936

Citas:

---------- APA ----------

Trinelli, M.A., Areco, M.M. & Dos Santos Afonso, M. (2013) . Co-biosorption of copper and glyphosate by Ulva lactuca. Colloids and Surfaces B: Biointerfaces, 105, 251-258.
http://dx.doi.org/10.1016/j.colsurfb.2012.12.047

---------- CHICAGO ----------

Trinelli, M.A., Areco, M.M., Dos Santos Afonso, M. "Co-biosorption of copper and glyphosate by Ulva lactuca" . Colloids and Surfaces B: Biointerfaces 105 (2013) : 251-258.
http://dx.doi.org/10.1016/j.colsurfb.2012.12.047

---------- MLA ----------

Trinelli, M.A., Areco, M.M., Dos Santos Afonso, M. "Co-biosorption of copper and glyphosate by Ulva lactuca" . Colloids and Surfaces B: Biointerfaces, vol. 105, 2013, pp. 251-258.
http://dx.doi.org/10.1016/j.colsurfb.2012.12.047

---------- VANCOUVER ----------

Trinelli, M.A., Areco, M.M., Dos Santos Afonso, M. Co-biosorption of copper and glyphosate by Ulva lactuca. Colloids Surf. B Biointerfaces. 2013;105:251-258.
http://dx.doi.org/10.1016/j.colsurfb.2012.12.047