Abstract
New data are reported on the major- and trace-component compositions of acidic and weakly acidic low-concentration wetland waters and other water types. Special attention was given to dissolved organic compounds: fulvic and humic acids, bitumens, and hydrocarbons. The first comprehensive data are presented for organic trace components in the wetland waters of western Siberia: alkanes, pentacyclic terpenoids, steranes, alkylbenzenes, naphthalenes, phenanthrenes, tetraarenes, etc.
Similar content being viewed by others
References
L. I. Inisheva, A. A. Zemtsov, O. L. Liss, S. M. Novikov, N. G. Inishev, Vasyugan Bog: Natural Conditions, Structure, and Functioning (TsNTI, Tomsk, 2000) [in Russian].
O. L. Liss, L. I. Abramova, N. A. Avetov, et al., Wetland Systems of West Siberia and Their Nature Conservation Role (Grif i Ko, Tula), 2001) [in Russian].
Great Vasyugan Bog: A Present-Day State and Evolution, Ed. by M. V. Kabanov, (Inst. Opt. Atmosf., Tomsk, 2002) [in Russian].
K. E. Ivanov, Water Exchange in Wetland Landscapes (Gidrometeoizdat, Leningrad, 1975) [in Russian].
L. I. Inisheva and N. G. Inishev, “Elements of Water Balance and Hydrochemical Characteristic of Oligotrophic Bogs in the Southern Taiga Subzone of Western Siberia,” Water. Res. 28(4), 364–370 (2001).
N. V. Melent’eva, “Chemical Composition of Waters of Forest Wetlands,” in Hydromorphic Forest-Wetland Complexes (ILiD, Krasnoyarsk, 1986), pp. 50–62 [in Russian].
L. I. Inisheva and N. G. Inishev, “Water Migration of Chemical Elements in the System of Geochemically Conjugate Oligotrophic Landscapes with Flux of Surface-Bog Waters,” in Fundamental Problems of Water and Water Resources at the Turn of the Third Millennium (NTL, Tomsk, 2000), pp. 204–208 [in Russian].
S. L. Shvartsev, “Geochemistry of Natural Waters of the Great Vasyugan Bog,” in Complex Monitoring of the Great Vasyugan Bog (Tomsk, 2002), pp. 139–149 [in Russian].
N. M. Rasskazov, “Main Features of the Chemical Composition of Wetland Waters as Exemplified by Southeastern West Siberia,” Izv. Tomsk. Politechn. Univ. 308(4), 55–58 (2005).
O. E. Lepokurova, S. L. Shvartsev, and O. F. Zyateva, “Chemical Composition of Some Organogenic Types of Groundwaters in the Western Part of the Tomsk Oblast,” in Hydrogeochemistry of Sedimentary Basins (NTL, Tomsk, 2007), pp. 270–275 [in Russian].
O. G. Savichev, “Chemical Composition of Wetland Waters from the Territory of Tomsk Oblast, Western Siberia, and Their Interaction with Mineral and Organomineral Compounds,” Izv. Tomsk Politekhn. Univ. 314(1), 72–77 (2009).
V. K. Bakhnov, Biogeochemcial Aspects of the Wetland-Forming Process (Nauka, Novosibirsk, 1986) [in Russian].
G. J. Whiting and J. P. Chanton, “Primary Production Control of Methane Emission from Wetlands,” Nature 364, 794–795 (1993).
G. G. Efremova, N. M. Bazhin, I. M. Gadzhiev, S. P. Efremov, G. A. Makhov, “Pecularities of Methanogenesis at the Oligotrophic Bogs of Western Siberia and Estimate of Natural Factors in Relation with the Correct Extrapolation of Methane Fluxes over Large Territories,” Sib. Ekol. Zhurnal, No. 6, 563–570 (1998).
V. A. L’gotin, O. G. Savichev, and O. T. Savicheva, “Ecological-Geochemical State of Undisturbed Wetland Systems in the Territory of the Tomsk Bog, West Siberia,” Izv. Tomsk. Politekhn. Univ. 313(1), 82–87 (2008).
T. T. Efremova, S. P. Efremov, K. P. Kutsenogii, A. A. Onuchin, and V. F. Peresedov, “Biogeochemistry of Fe, Mn, Cr, Ni, Co, Ti, V, Mo, Ta, W, and U in a Low Moor Peat Deposit of the Ob’-Tom’ Interfluve,” Eur. Soil Sci. 36, 50–510 (2003).
K. B. Bartlett and R. C. Harris, “Review and Assessment of Methane from Wetlands,” Chemosphere 26, 261–320 (1993).
R. D. Shannon, J. R. White, J. E. Lawson, and B. S. Gilmour, “Methane Efflux from Emergent Vegetation in Peatlands,” J. Ecol. 84(2), 239–246 (1996).
A. I. Krylova and V. N. Krupchatnikov, “Global Modeling of Methane Fluxes from Wetland Ecosystems,” in The Great Vasyugan Bog. Modern State and Processes of Evolution (Inst. Optiki Atmosf., Tomsk, 2002), pp. 98–103 [in Russian].
M. V. Glagolev, I. E. Kleptsova, V. S. Kazantsev, and Sh. Sh. Maksyutov, “CH4 Emission from Wetland Landscapes of Subtaiga of Western Siveria: Toward a ’standard Model’ of Ab4,” in Proceedings of Russian Conference on Eighth Siberian Conference on Climatic-Ecological Monitoring, Ed. by M. V. Kabanov (Agraf-Press, Tomsk, 2009), pp. 240–242 [in Russian].
Yu.Yu. Lur’e, The Unified Methods of Water Analysis (Khimiya, Moscow, 1973).
S. L. Shvartsev, Hydrogeochemistry of the Supergene Zone 2nd Ed. (Nedra, Moscow, 1998) [in Russian].
V. I. Vernadskii, History of Natural Waters (Nauka, Moscow, 2003) [in Russian].
L. I. Inisheva and E. A. Golovatskaya, “Runoff and Emission of Carbon in the Vasyugan Bog,” in The Great Vasyugan Bog. Modern State and Processes of Evolution (Inst. Optiki Atmosf., Tomsk, 2002), pp. 123–133 [in Russian].
S. L. Shvartsev, N. M. Rasskazov, T. N. Sidorenko, and A. M. Zdvizhkov, “Geochemistry of Natural Waters of the Great Vasyugan Bog,” in The Great Vasyugan Bog. Modern State and Processes of Evolution (Inst. Optiki Atmosf., Tomsk, 2002), pp. 139–149 [in Russian].
S. R. Krainov, B. N. Ryzhenko, and V. M. Shvets, Geochemistry of Groundwaters. Theoretical, Applied, and Ecological Aspects (Nauka, Moscow, 2004) [in Russian].
S. L. Shvartsev, B. N. Ryzhenko, V. A. Alekseev, E. M. Dutova, I. A. Kondrat’eva, Yu. G. Kopylova, and O. E. Lepokurova, Geological Evolution and Self-Organization of the Water-Rock System. Vol. 2. Water-Rock System under Supergene Zone Conditions (Izd. SO RAN, Novosibirsk, 2007) [in Russian].
Author information
Authors and Affiliations
Corresponding author
Additional information
Original Russian Text © S.L. Shvartsev, O.V. Serebrennikova, M.A. Zdvizhkov, O.G. Savichev, O.S. Naimushina, 2012, published in Geokhimiya, 2012, Vol. 50, No. 4, pp. 403–417.
Rights and permissions
About this article
Cite this article
Shvartsev, S.L., Serebrennikova, O.V., Zdvizhkov, M.A. et al. Geochemistry of wetland waters from the lower Tom basin, Southern Tomsk oblast. Geochem. Int. 50, 367–380 (2012). https://doi.org/10.1134/S0016702912040076
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S0016702912040076