Abstract—
The paper analyzes currently applied methodological approaches to evaluating the speciation of metals in natural waters and presents literature data and original author’s experimental results on the forms of metals in natural waters in various natural–climatic zones in Russia and other countries. Data are presented on the geochemical specifics of the distribution of metals between their forms in lakes in the European part of Russia and western Siberia.
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REFERENCES
Yu. V. Alekhin, S. M. Ilina, S. A. Lapitskiy, and M. V. Sitnikova, “Results of a study of co-migration of trace elements and organic matter in a river flow in a boreal zone,” Moscow Univ. Geol. Bull., 65 (6), 380–386 (2010)
L. L. Demina, Migration Species of Heavy Metals in Ocean (Nauka, Moscow, 1982) [in Russian].
M. I. Dinu, Influence of Functional Features of Humic matters on the Metal Speciation in Natural Waters (TyumGU, Tyumen, 2012) [in Russian].
S. Donald, M. Gamble, H. Schnitzer, and C. H. Kerndorff, “Langford Multiple metal ion exchange equilibria with humic acid,” Geochim. Cosmochim. Acta 47 (7), 1311–1323 (1983)
D. Dudare and M. Klavins, “The interaction between humic substances and metals, depending on structure and properties of humic sustances,” in 4th International Conference on Environ., Energy and Biotechnology85, 10–15 (2000).
T. G. Dzherayan, A. G. Zavarzina, T. V. Danilova, and V. M. Shkinev, “Multistep flow-membrane filtration, gel-permeation chromatography, and spectrophotometric determination of polydisperse compounds,” J. Analyt.Chem. 63 (9), 844–847 (2008).
J. H. Ephrai and B. Allard, Metal Ion Binding by Humic Substances in Modelling in Aquatic Chemistry (World, New York, 1997).
C. D. Evans and D. T. Monteith, Water Chemistry Discussion. UK Acid Waters Monitoring Network: 10 Year Report (ENSIS Publishing, London, 2000)
Yu. A. Izrael, and I. M. Nazarov, Acid Rains (Gidrometeoizdat, Leningrad, 1989) [in Russian].
P. N. Linnik and B. I. Nabivanets, Species of Metal Migration in Fresh Surface Waters (Gidrometeoizdat, Leningrad, 1986) [in Russian].
T. I. Moiseenko, N. A. Gashkina, and M. I. Dinu, Acidification of Waters: Sensitivity and Critical Loads (URSS, Moscow, 2017) [in Russian].
T. I. Nifanteva, P. Burba, O. Fedorova, V. M. Shkinev, and B. Yu. Spivakov, “Ultafiltration and determination of Zn and Cu-humic substances complexes stability constant,” Talanta 53, 1127–1131 (2001).
T. I. Nifanteva, V. M. Shkinev, B. Spivakov, and P. Yu Burba, “Membrane filtration studies of aquatic humic substances and their metal species: a concise overview,” Talanta 48, 257–267 (1999).
D. S. Orlov, Soil Chemistry (MGU, Moscow, 1992) [in Russian].
A. I. Perelman, Geochemistry of Natural Waters (MGU, Moscow, 1983) [in Russian].
I. V. Rodyushkin, Extended Abstract of Candidate’s Dissertation in Geography (St. Petersburg, 1995)
B. N. Ryzhenko, and E. S. Sidkina, “Water–granite” system: time of formation of fresh water composition,” Izv. Tomsk. Politekhn. Univ., 328 (4), 108–115 (2017).
B. Y. Saito, S. Nagasaki, S. Tanaka, and L. K. Koopal, “Application of the NICA-Donnan model for proton, copper and uranyl binding to humic acid,” Radiochim. Acta 92, 567–574 (2004).
A. R. Schneider, M. Ponthieu, B. Cances, A. Conreux, X. Morvan, M. Gommeaux, B. Marin, and M. E. Benedetti, “Influence of dissolved organic matter and manganese oxides on metal speciation in soil solution. A modelling approach,” Environ. Pollut. 213, 618–627 (2016).
F. J. Stevenson, Humus Chemistry. Genesis, Composition, Reactions, 2nd Ed., (John Wiley & Sons, Inc., New York, 1994).
G. M. Varshal, T. K. Velyukhanova, and I. Ya. Koshcheeva, “Geochemical role of humic acids in element migration,” in Humic Matter in Biosphere (Nauka, Moscow, 1993), pp. 97–117.
E. V. Vasyukova, O. S. Pokrovsky, J. Viers, P. Oliva, B. Dupre, F. Martin, and F. Candaudap, “Trace elements in organic- and iron-rich surficial fluids of the boreal zone: assessing colloidal forms via dialysis and ultrafiltration,” Geochim. Cosmochim. Acta 74, 449–468 (2010).
R. Vinodh, R. Padmavathi, and D. Sangeetha, “Separation of heavy metals from water samples using anion exchange polymers by adsorbtion process,” Desalination 267, 267–276 (2011).
ACKNOWLEDGMENTS
This study was financially supported by the Russian Science Foundation, Grant 18-17-00184.
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Translated by E. Kurdyukov
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Dinu, M.I. Geochemical Specifics of the Distribution of Elements between Their Forms in Lakes in the European Part of Russia and Western Siberia. Geochem. Int. 56, 1036–1045 (2018). https://doi.org/10.1134/S0016702918100051
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DOI: https://doi.org/10.1134/S0016702918100051