Abstract
In this study, we investigated the natural attenuation of the uranium (U) load in the surface water within a humid forest in Japan. Surface water and sediments that had accumulated behind dams in the area were investigated in terms of their mineralogy and chemistry. The chemistry of the surface water was analyzed by field measurements of pH, dissolved oxygen (DO) concentration, and electrical conductivity (EC), as well as laboratory analyses via inductively coupled plasma mass spectrometry and ion chromatography. We determined U levels in the surface water; the distribution of U in phases within the sediment was estimated using a sequential extraction procedure. The results of this investigation indicate that U, which within the study area is derived from pegmatites at a mine, is attenuated by uptake onto the surface of organic material and uptake by amorphous material that forms over time within the dammed sediments. The U concentration within the sediment was as great as 8 mg kg−1, whereas the downstream U concentrations and loads in surface water decreased from 1.69 μg l−1 and 11.0 mg min−1 to 0.115 μg l−1 and 2.31 mg min−1, respectively.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Anderson RF (1987) Redox behavior of uranium in an anoxic marine basin. Uranium 3:145–164
Anderson RF, Fleisher MQ, Lehuray AP (1989a) Concentration, oxidation state, and particulate flux of uranium in the Black Sea. Geochim Cosmochim Acta 53:2215–2224
Anderson RF, Lehuray AP, Fleisher MQ, Murray JW (1989b) Uranium deposition in Saanich Inlet sediments, Vancouver Island. Geochim Cosmochim Acta 53:2205–2213
Arnold T, Zorn T, Bernhard G, Nitsche H (1998) Sorption of uranium(VI) onto phyllite. Chem Geol 151:129–141
Bargar JR, Reitmeyer R, Davis JA (1999) Spectroscopic confirmation of uranium(VI)-carbonate adsorption complexes on hematite. Environ Sci Technol 33:2481–2484
Bargar JR, Reitmeyer R, Lenhart JJ, Davis JA (2000) Characterization of U(VI)-carbonate ternary complexes on hematite: EXAFS and electrophoretic mobility measurements. Geochim Cosmochim Acta 64:2737–2749
Barnett MO, Jardine PM, Brooks SC, Selim HM (2000) Adsorption and transport of uranium(VI) in subsurface media. Soil Sci Soc Am J 64:908–917
Barnett MO, Jardine PM, Brooks SC (2002) U(VI) adsorption to heterogeneous subsurface media: application of a surface complexation model. Environ Sci Technol 36:937–942
Bethke CM (1998) The geochemist’s workbench users guide. University of Illinois, Champaign, IL
Brunauer S, Emmett PH, Teller E (1938) Adsorption of gases in multimolecular layers. J Am Chem Soc 60:309–319
Carlsson E, Büchel G (2005) Screening of residual contamination at a former uranium heap leaching site, Thuringia, Germany. Chemie Erde 65(S1):75–95
Duff MC, Amrhein C (1996) Uranium(VI) adsorption on goethite and soil in carbonate solutions. Soil Sci Soc Am J 60:1393–1400
Ferris FG, Hallberg RO, Lyvén B, Pedersen K (2000) Retention of strontium, cesium, lead and uranium by bacterial iron oxides from a subterranean environment. Appl Geochem 15:1035–1042
Gariépy C, Ghaleb B, Hillaire-Marcel C, Mucci A, Vallières S (1994) Early diagenetic processes in Labrador Sea sediments: uraniumisotope geochemistry. Can J Earth Sci 31:28–37
Hamachi T, Igarashi T (1969) Uraniferous deposits of the Oguni-Kanamaru District, Niigata and Yamagata prefectures. Report Geol Surv Jpn 232:581–593 (in Japanese with English abstract)
Ho CH, Doern DC (1984) The sorption of uranyl species on a hematite sol. Can J Chem 63:1100–1104
Ho CH, Miller NH (1986) Adsorption of uranyl species from bicarbonate solution onto hematite particles. J Colloid Interface Sci 110:165–171
Hsi C-KD, Langmuir D (1985) Adsorption of uranyl onto ferric oxyhydroxides: Application of the surface complexation site-binding model. Geochim Cosmochim Acta 49:1931–1941
Jeon B-H, Kelly SD, Kemner KM, Barnett MO, Burgos WD, Dempsey BA, Roden EE (2004) Microbial reduction of U(VI) at the solid-water interface. Environ Sci Technol 38:5649–5655
Kadota O (1962) Uranium deposits in the Oguni-Kanamaru District on the border of Niigata and Yamagata prefectures. Mining Geol 12:199–210 (in Japanese with English abstract)
Kadota O, Sato M, Togo F, Nakamura E (1961) Oguni-Kanamaru uranium deposits in the Uetsu massif region, northeast Japan. J Atomic Energy Soc Jpn 3:422–429 (in Japanese with English abstract)
Langmuir D (1978) Uranium solution-mineral equilibria at low temperature with applications to sedimentary ore deposits. Geochim Cosmochim Acta 42:547–569
Liger E, Charlet L, Cappellen PV (1999) Surface catalysis of uranium(VI) reduction by iron(II). Geochim Cosmochim Acta 63:2939–2955
Mehra OP, Jackson ML (1960) Iron oxide removal from soils and clays by a dithionite-citrate system buffered with sodium bicarbonate. Clays Clay Miner 7:317–327
Morgan MF (1935) The universal soil testing system. Conn Agric Exp Stn Bull 372
Morrison SJ, Spangler RR, Tripathi VS (1995) Adsorption of uranium(VI) on amorphous ferric oxyhydroxide at high concentrations of dissolved carbon(IV) and sulfur(VI). J Contam Hydrol 17:333–346
Moyes LN, Parkman RH, Charnock JM, Vaughan DJ, Livens FR, Hughes CR, Braithwaite A (2000) Uranium uptake from aqueous solution by interaction with goethite, lepidocrocite, muscovite, and mackinawite: an X-ray absorption spectroscopy study. Environ Sci Technol 34:1062–1068
Murray AS, Johnston A, Martin P, Hancock G, Marten R, Pfitzner J (1993) Transport of naturally occurring radionuclides by a seasonal tropical river, northern Australia. J Hydrol 150:19–39
Murphy RJ, Lenhart JJ, Honeyman BD (1999) The sorption of thorium(IV) and uranium(VI) to hematite in the presence of natural organic matter. Colloids Surf A 157:47–62
Nanbu A, Hamano K, Tanaka R, Ishihara S (1997) Chemical and mineralogical characteristics of the Kanamaru pegmatite deposit, Niigata Prefecture, Japan. Res Geol 47:1–10
Ohnuki T, Isobe H, Yanase N, Nagano T, Sakamoto Y, Sekine K (1997) Change in sorption characteristics of uranium during crystallization of amorphous iron minerals. J Nucl Sci Technol 34:1153–1158
Okada S (1967) Studies on uranium in granitic rocks: with special reference to the uranium contents in the Japanese granitic rocks. Professor Hidetaka Shibata Memorial Volume, Tokyo, pp 41–52 (in Japanese with English abstract)
Ranville JF, Schmiermund RL (1999) General aspects of aquatic colloids in environmental geochemistry. In: Plumlee GS, Logsdon MJ (eds) The environmental geochemistry of mineral deposits. Society of Economic Geologists, Littleton, CO, pp 183–199
Rogers JJW, Adams JAS (1969) Uranium. In: Wedepohl KH (ed) Handbook of geochemistry, vol II. Springer-Verlag, Berlin, sections 92-D-O
Schmeide K, Pompe S, Bubner M, Heise KH, Bernhard G, Nitsche H (2000) Uranium(VI) sorption onto phyllite and selected minerals in the presence of humic acid. Radiochim Acta 88:723–728
Sheppard MI, Thibault DH (1988) Migration of technetium, iodine, neptunium, and uranium in the peat of 2 minerotrophic mires. J Environ Qual 17:644–653
Tamm O (1932) Über die Oxalatemethode in der chemischen Bodenanalyse. Medd Statens Skogsforsokst Stockh 27:1–20
Ticknor KV (1994) Uranium sorption on geological materials. Radiochim Acta 64:229–236
Tutu H, Cukrowska EM, Dohnal V, Havel J (2005) Application of artificial neural networks for classification of uranium distribution in the Central Rand goldfield, South Africa. Environ Model Assess 10:143–152
Ueno M (1967) On the pegmatite deposit of the Kanamaru Mine, Niigata prefecture. Bull Geol Surv Jpn 18:542–550 (in Japanese with English abstract)
Waite TD, Davis JA, Payne TE, Waychunas GA, Xu N (1994) Uranium(VI) adsorption to ferrihydrite: application of a surface complexation model. Geochim Cosmochim Acta 58:5465–5478
Waite TD, Davis JA, Fenton BR, Payne TE (2000) Approaches to modeling uranium(VI) adsorption on natural mineral assemblages. Radiochim Acta 88:687–693
Wanty RB, Miller WR, Briggs PH, McHugh JB (1999) Geochemical processes controlling uranium mobility in mine drainages. In: Plumlee GS, Logsdon MJ (eds) The environmental geochemistry of mineral deposits. Society of Economic Geologists, Littleton, CO, pp 201–213
WHO (2004) Guidelines for drinking water quality, 3rd edn. World Health Organization, Geneva
Wilson TRS, Thomson J, Colley S, Hydes DJ, Higgs NC (1985) Early organic diagenesis: the significance of progressive subsurface oxidation fronts in pelagic sediments. Geochim Cosmochim Acta 49:811–822
Wilson TRS, Thomson J, Hydes DJ, Colley S, Culkin F, Sorensen J (1986) Oxidation fronts in pelagic sediments: diagenetic formation of metal-rich layers. Science 232:972–975
Yanase N, Sato T, Isobe H, Sekine K (1996) Selective extraction procedure and its importance in a natural analogue study. Case study at the Koongarra uranium deposit. Radioact Waste Res 2:121–135
Zielinski RA, Meier AL (1988) The association of uranium with organic matter in Holocene peat: an experimental leaching study. Appl Geochem 3:631–643
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Manaka, M., Seki, Y., Okuzawa, K. et al. Natural attenuation of dissolved uranium within a small stream of central Japan. Limnology 8, 143–153 (2007). https://doi.org/10.1007/s10201-007-0199-z
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10201-007-0199-z