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Referencias:

• Amezkieta, E., Soil aggregate stability: A review (1999) Journal of Sustainable Agriculture, 14, pp. 83-151
• An, J., Jho, E.H., Nam, K., Effect of dissolved humic acid on the Pb bioavailability in soilsolution and its consequence on ecological risk (2015) Journal of Hazardous Materials, 286, pp. 236-241
• Arnarson, T.S., Keil, R.G., Mechanisms of pore water organic matter adsorption to montmorillonite (2000) Marine Chemistry, 71, pp. 309-320
• Barancikova, G., Senesi, N., Brunetti, G., Chemical and spectroscopic characterization of humic acids isolated from different Slovak soil types (1997) Geoderma, 78, pp. 251-266
• Bittner, M., Janosek, J., Hilscherova, K., Giesy, J., Holoubek, I., Blaha, L., Activation of ah receptor by pure humic acids (2006) Environmental Toxicology, 21, pp. 338-342
• Bojemueller, E., Nennemann, A., Lagaly, G., Enhanced pesticide adsorption by thermally modified bentonites (2001) Applied Clay Science, 18, pp. 277-284
• Cases, J.M., Berend, I., Francois, M., Uriot, J.-P., Michot, L.J., Thomas, F., Mechanism of adsorption of water vapor by homoionic montmorillonite. 3. The Mg2+, Ca2+, Sr2+ and Ba2+ exchanged forms (1997) Clays and Clay Minerals, 45, pp. 8-22
• Czímerová, A., Bujdákand, J., Dohrmann, R., Traditional and novel methods for estimating the layer charge of smectites (2006) Applied Clay Science, 34 (1-4), pp. 2-13
• Durán, J.D.G., Ramos-Tejada, M.M., Arroyo, F.J., González-Caballero, F., Rheological and electrokinetic properties of Na-montmorillonite suspensions (2000) Journal Colloids and Interface Science, 229, pp. 107-117
• Emmerich, K., Madsen, F., Kahr, G., Dehydroxylation behaviour of heat treated and steam treated homoionic cis-vacant montmorillonites (1999) Clays and Clay Minerals, 47, pp. 591-604
• Feng, X., Simpson, A.J., Simpson, M., Chemical and mineralogical controls on humic acid sorption to clay mineral surfaces (2005) Journal Organic Geochemistry, 36 (11), pp. 1553-1566
• Fernández, M., Alba, M.D., Torres Sánchez, R.M., Effects of thermal and mechanical treatments on montmorillonite homoionized with mono-and polyvalent cations: Insight into the surface and structural changes (2013) Colloids and Surfaces A: Physicochem. Eng. Aspects, 423, pp. 1-10
• Heller-Kallai, L., Rozenson, P., Dehydroxylation of dioctahedral phyllosilicates (1980) Clays and Clay Minerals, 28, pp. 355-368
• Hseu, Y.C., Chen, S.C., Chen, Y.L., Chen, J.Y., Lee, M.L., Lu, F.J., Wu, F.Y., Yang, H.L., Humic acid induced genotoxicity in human peripheral blood lymphocytes using comet and sister chromatid exchange assay (2008) Journal of Hazardous Materials, 153, pp. 784-791
• Hur, J., Lee, B.M., Shin, H.S., Microbial degradation of dissolved organic matter (DOM) and its influence on phenanthrene-DOM interactions (2011) Chemosphere, 85, pp. 1360-1367
• Kappler, A., Benz, M., Schink, B., Brune, A., Electron shuttling via humic acids in microbial iron(III) reduction in a freshwater sediment (2004) FEMS Microbiology Ecology, 47, pp. 85-92
• Kar, S., Maity, J.P., Jean, J.-S., Liu, C.-C., Bibhashnath, C., Lee, Y.-C., Bundschuh, J., Li, Z., Role of organic matter and humic substances in the binding and mobility of arsenic in a Gangetic aquifer (2011) Journal of Environmental Science and Health, Part A, 46, pp. 1231-1238
• Kihara, Y.Y., Tanaka, M., Gumiri, S.A., Hosokawa, T., Tanaka, S., Saito, T., Kurasaki, M., Mechanism of the toxicity induced by natural humic acid on human vascular endothelial cells (2014) Environmental Toxicology, 29 (8), pp. 916-925
• Koyama, M., Adsorption of humic acid on Ca-montmorillonite (1995) Soil Science and Plant Nutrition, 41 (2), pp. 215-223
• Liang, H.-J., Tsai, Ch.-L., Chen, P.-Q., Lu, F.-J., Oxidative injury induced by synthetic hum1c acid polymer and monomer in cultured rabbit articular chondrocytes (1999) Life Sciences, 65 (11), pp. 1163-1173
• Liu, A., Gonzalez, R.D., Adsorption/desorption in a system consisting of humic acid, heavy metals, and clay minerals (1999) Journal of Colloid and Interface Science, 218, pp. 225-232
• Lombardi, B., Baschini, M., Torres Sánchez, R.M., Bentonite deposits of northern patagonia (2003) Applied Clay Science, 22, pp. 309-312
• Lombardi, B., Torres Sánchez, R.M., Eloy, P., Genet, M., Interaction of thiabendazole and benzimidazole with montmorillonite (2006) Applied Clay Science, 33, pp. 59-65
• Lubetkin, S., Middleton, S., Ottewil, R., Some properties of clay water dispersions (1984) Philosophical Transactions of the Royal Society A, 311, pp. 353-368
• Majzik, A., Tombácz, E., Interaction between humic acid and montmorillonite in the presence of calcium ions, I. Interfacial and aqueous phase equilibria: Adsorption and complexation (2007) Organic Geochemistry, 38, pp. 1319-1329
• Majzik, A., Tombácz, E., Interaction between humic acid and montmorillonite in the presence of calcium ions, II. Colloidal interactions: Charge state, dispersing and/or aggregation of particles in suspension (2007) Organic Geochemistry, 38, pp. 1330-1340
• Michot, L.J., Villieras, F., Developments in Clay Sci. Surface area and porosity (2006) Handbook of Clay Science, pp. 965-978. , Bergaya, F., Theng, B.K. and Lagaly, G. (Eds.): Elsevier, Amsterdam
• Nelson, P.N., Baldock, J.A., Clarke, P., Oades, J.M., Churchman, G.J., Dispersed clay and organic matter in soil: Their nature and associations (1999) Australian Journal of Soil Research, 37, pp. 289-315
• Nennemann, A., Kulbach, S., Lagaly, G., Entrapping pesticides by coagulating smectites (2001) Applied Clay Science, 18, pp. 285-298
• Ormerod, E.C., Newman, A.C.D., Water sorption on Ca-saturated clays: 2. Internal and external surfaces of montmorillonite (1983) Clay Minerals, 18, pp. 289-299
• Park, S.I., Kwak, I.S., Bae, M.A., Mao, J., Won, S.W., Han, D.H., Recovery of gold as a type of porous fiber by using biosorption followed by incineration (2012) Bioresources Technology, 104, pp. 208-214
• Parks, G.A., The isoelectric point of solid oxides, solid hydroxides and aqueous hydroxo complex systems (1968) Chemical Reviews, 65, pp. 177-198
• Sondi, I., Biscan, J., Pravdic, V., Electrokinetics of pure clay minerals revisited (1996) Journal of Colloids and Interface Science, 178, pp. 514-522
• Stevenson, F.J., (1982) Humus Chemistry, Genesis, Composition, Reaction, p. 443. , J. Wiley and Sons, New York
• Swarten-Allen, L.S., Matijevic, E., Surface and colloid chemistry of clays (1974) Chemical Reviews, 74, pp. 385-400
• Thomas, F., Michot, L.J., Vantelon, D., Montarges, E., Prelot, B., Cruchaudet, M.J., Delon, F., Layer charge and electrophoretic mobility of smectites (1999) Colloids and Surfaces. A, 159, pp. 351-358
• Tiller, K.G., Smith, L.H., Limitations of EGME retention to estimate the surface area of soils (1990) Australian Journal of Soil Research, 28, pp. 1-26
• Ting, H.C., Yen, C.C., Chen, W.K., Chang, W.H., Chou, M.C., Lu, F.J., Humic acid enhances the cytotoxic effects of arsenic trioxide on human cervical cancer cells (2010) Environ. Toxicol. Pharmacol, 29, pp. 117-125
• Tipping, E., (2002) Cation Binding by Humic Substances, , Cambridge University Press, Cambridge
• Tombácz, E., Szekeres, M., Colloidal behaviour of aqueous montmorillonite suspensions: The specific role of pH in the presence of indifferent electrolytes (2004) Applied Clay Science, 27, pp. 75-94
• Tombácz, E., Gilde, M., Szántó, F., The effects of Na-salicylate and Na-fulvate on the stability and rheological properties of Na-montmorillonite suspensions (1984) Acta Physica et Chemica, 30, pp. 165-174
• Torres Sánchez, R.M., Mechanochemical effects on physicochemical parameters of homoionic smectite (1997) Colloids and Surface A, 127, pp. 135-140
• Torres Sánchez, R.M., Falasca, S., Specific surface area and surface charges of some argentinean soils (1997) Zeitschrift für Pflanzenern'hrung und Bodenkunde, 160, pp. 223-226
• Torres Sánchez, R.M., Basaldella, E., Marco, J.F., The effect of thermal and mechanical treatments on kaolinite characterization by XPS and IEP measurements (1999) Journal Colloids and Interface Science, 215, pp. 339-344
• Torres Sánchez, R.M., Genet, M.J., Gaigneaux, E.M., Dos Santos Afonso, M., Yunes, S., Benzimidazole adsorption on the external and interlayer surfaces of raw and treated montmorillonite (2011) Applied Clay Science, 53, pp. 366-373
• Tschapek, M., Torres Sánchez, R.M., Wasowski, C., Handy methods for determining the isoelectric point of soils (1989) Zeitschrift für Pflanzenern'hrung und Bodenkunde, 152, pp. 73-76
• Vacca, W.D.J., Bleam, F., Hickey, W.J., Isolation of soil bacteria adapted to degrade humic acid-sorbed phenanthrene (2005) Applied Environmental Microbiology, 71 (7), pp. 3797-3805
• Vermeer, A., Van Riemsdijk, W., Koopal, L., Adsorption of humic acid to mineral particles 1. Specific and electrostatic interactions (1998) Langmuir, 14, pp. 2810-2819
• Wang, M., Bai, Y., Chen, W., Markert, B., Peng, C., Ouyang, Z., A GIS technology based potential eco-risk assessment of metals in urban soils in Beijing, China (2012) Environmental Pollution, 161, pp. 235-242
• Wu, P., Zhang, Q., Dai, Y., Zhu, N., Dang, Z., Li, P., Wu, J., Wang, X., Adsorption of Cu(II), Cd(II) and Cr(III) ions from aqueous solutions on humic acid modified Ca-montmorillonite (2011) Geoderma, 164 (3-4), pp. 215-219
• Yang, H.L., Hseu, Y.C., Hseu, Y.T., Lu, F.J., Liu, E., Lai, J.S., Humic acid induceds apoptosis in human premyelocytic leukemia HL-60 cells (2004) Life Science, 75, pp. 1817-1831
• Young, D., Smith, D.E., Simulations of clay mineral swelling and hydration: Dependence upon interlayer ion size and charge (2000) Journal Physical Chemistry B, 104, pp. 9163-9170

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