Abstract
Geochemical analysis of the bottom sediments of Lakes Banryoko, Onbe, Hamahara and Kijima in Shimane prefecture of southwest Japan was carried out to determine their metal concentrations, and to assess the potential for ecological harm by comparison with sediment quality guidelines. The work conducted includes water quality measurement, and analyses of trace and major elements and rare earth element (REE) of sediments. Results showed that water quality of the lakes contrasts slightly between their upper and lower parts. Average abundances of As, Pb, Zn, Cu, Ni, and Cr in Banryoko sediments were 27, 33, 90, 27, 25, and 46 ppm, respectively, compared to 31, 52, 175, 44, 44, and 75 ppm at Onbe, 11, 26, 96, 13, 13, and 35 ppm at Hamahara, and 24, 43, 193, 31, 12, and 30 ppm at Kijima. These concentrations exceeded the lowest effect level that has moderate impact on aquatic organisms as proposed by the New York State Department of Environmental conservation. Pb and Cu abundances are comparable to the Coastal Ocean Sediment Database threshold, while As and Zn exceed this value, indicating the concentrations of these metals are potentially toxic. Increases in the abundances of these metals in lake sediments are probably related to the reducing condition of the sediments, anthropogenic sources and surface soil erosion. The REE patterns of sediments in the study areas are broadly comparable to the average upper continental crust, but show some contrast between lakes due to differing source litho type. Significant positive correlations between Fe2O3 and As, Pb, Zn, and Cu were found in the sediments, suggesting these metals may be adsorbed on Fe oxides in the lake sediments.
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Abraham J (1998) Spatial distribution of major and trace elements in shallow reservoir sediments: an example from Lake Waco, Texas. Environ Geol 36(3–4):349–363
Ahmed F, Bibi MH, Monsur MH, Ishiga H (2005) Present environment and historic changes from the record of lake sediments, Dhaka City, Bangladesh. Environ Geol 48(1):25–36
Albering HJ, Rila J-P, Moonen EJC, Hoogewerff JA, Kleinjans JCS (1999) Human health risk assessment in relation to environmental pollution of two artificial freshwater lakes in the Netherlands. Environ Health Perspect 107(1):27–35
Arnason JG, Fletcher BA (2003) A 40+ year record of Cd, Hg, Pb, and U deposition in sediments of Patroon Reservoir, Albany County, NY, USA. Environ Pollut 123:383–391
Bellanger B, Huon S, Steinmann P, Chabaux F, Velasquez F, Vallès V, Arn K, Clauer N, Mariotti A (2004) Oxic-anoxic conditions in the water column of a tropical freshwater reservoir (Peña-Larga dam, NW Venezuela). Appl Geochem 19:1295–1314
Chandrajith RLR, Okumura M, Hashitani H (1995) Human influence on the Hg pollution in Lake Jinzai, Japan. Appl Geochem 10:229–235
Condie KC (1993) Chemical composition and evolution of the upper continental crust: contrasting results from surface samples and shales. Chem Geol 104:1–37
Das BK (2005) Environmental pollution impact on water and sediments of Kumaun lakes, Lesser Himalaya, India: a comparative study. Environ Geol 49:230–239
Daskalakis KD, O’Connor TP (1995) Distribution of chemical concentrations in US coastal and estuarine sediment. Mar Environ Res 40(4):381–398
EBGMSP (Editorial board of geological map of Shimane Prefecture) (1997) Geological map of Shimane Prefecture at 1:200,000. Naigai-Chizu, Tokyo
Evans G, Howarth RJ, Nombela MA (2003) Metals in the sediments of Ensenada de San Simón (inner Ría de Vigo), Galicia, NW Spain. Appl Geochem 18:973–996
Galán E, Gómez-Ariza JL, González I, Fernández-Caliani JC, Morales E, Giráldez I (2003) Heavy metal partitioning in river sediments severely polluted by acid mine drainage in the Iberian Pyrite Belt. Appl Geochem 18:409–421
Garcia-Sanchez A, Alvarez-Ayuso E (2003) Arsenic in soils and waters and its relation to geology and mining activities (Salamanca Province, Spain). J Geochem Explor 80:69–79
Graney JR, Eriksen TM (2004) Metals in pond sediments as archives of anthropogenic activities: a study in response to health concerns. Appl Geochem 19:1177–1188
Ishiga H, Nakamura T, Sampei Y, Tokuoka T, Takayasu K (2000a) Geochemical record of the Holocene Jomon transgression and human activity in coastal lagoon sediments of the San’in district, SW Japan. Glob Planet Change 25:223–237
Ishiga H, Mihara A, Sampei Y (2000b) Environmental geology of Lake Jaike, Koryo-cho, Shimane Prefecture, Japan. Geosci Rep Shimane Univ Jpn 19:47–55
Ishiga H, Dozen K, Ahmed F, Bibi MH, Kaita M (2003) Evaluation of sedimentary environment using a Zn-Fe2O3 diagram. Geosci Rep Shimane Univ Jpn 22:15–20
Jones B, Manning DAC (1994) Composition of geochemical indices used for the interpretation of palaeoredox conditions in ancient mudstones. Chem Geol 111(1–4):111–129
Jones DS, Suter GW, Hull RN (1997) Toxicological benchmarks for screening contaminations of potential concern for effects on sediments-associated biota: 1997 Revision. ES/ER/TM-95/R4. Oak Ridge National Laboratory, Oak Ridge, TN
Kojima S, Saito T, Takada J, Furukawa M, Oda H, Nakamura T, Yokota K (2003) Environmental pollution by Sb and Zn in Lake Biwa. J Radioanal Nucl Chem 255:119–123
Long ER, Field LJ, MacDonald DD (1998) Predicting toxicity in marine sediments with numerical sediment quality guidelines. Environ Toxicol and Chem 17:714–727
McLennan SM, Hemming S, McDaniel DK, Hanson GN (1993) Geochemical approaches to sedimentation, provenance and tectonics. Geol Soc Am Spec Pap 284:21–40
Marvin C, Painter S, Williams D, Richardson V, Rossmann R, Hoof PV (2004) Spatial and temporal trends in surface water and sediment contamination in the Laurentian Great Lakes. Environ Pollut 129:131–144
Matsunaga T, Ueno T, Chandrajith RLR, Amano H, Okumura M, Hashitani H (1999) Cesium-137 and mercury contamination in lake sediments. Chemosphere 39(2):269–283
Mogollón JL, Bifano C, Davies BE (1996) Geochemistry and anthropogenic inputs of metals in a tropical lake in Venezuela. Appl Geochem 11:605–616
Musashino M (1990) The Panthalassa—a cerium-rich Atlantic-type ocean: sedimentary environments of the Tamba group, Southwest Japan. Tectonophysics 181:165–177
NYSDEC (New York State Department of Environmental Conservation) (1999) Technical guidance for screening contaminated sediments. NYSDEC, Department of Fish, Wildlife and Marine Resources, Albany, NY
NRC (National Research Council) (1989) Contaminated marine sediments—assessment and remediation. National Research Council, National Academy Press, 493 pp
Ogasawara M (1987) Trace element analysis of rock samples by X-ray fluorescence spectrometry, using Rh anode tube. Bull Geol Surv Jpn 38(2):57–68
Ortiz E, Roser BP (2003) Major and trace element abundances in the <180 μm fractions of stream sediments from the Kando River, Shimane Prefecture, Japan. Geosci Rep Shimane Univ Jpn 22:111–120
Ortiz E, Roser BP (2004) Major and trace element abundances in the <180 μm and sand fractions of stream sediments from the Hino River, Tottori, Japan. Geosci Rep Shimane Univ Jpn 23:27–37
Ortiz E, Roser BP (2006) Major and trace element provenance signatures in stream sediments from the Kando River, San’in district, southwest Japan. Island Arc 15:223–238
Potts PJ, Tindle AG, Webb PC (1992) Geochemical reference material compositions. Whittles Publishing, Caithness, 313 pp
Roach AC (2005) Assessment of metals in sediments from Lake Macquarie, New South Wales, Australia, using normalisation models and sediment quality guidelines. Mar Environ Res 59:453–472
Rosales-Hoz L, Carranza-Edwards A, Lopez-Hernandez M (2000) Heavy metals in sediments of a large, turbid tropical lake affected by anthropogenic discharges. Environ Geol 39(3–4):378–383
Roser BP (2000) Geochemistry and provenance of Cretaceous sediments from the Euisong block, Gyeongsang Basin, Korea. Mem Geol Soc Jpn 57:155–170
Ruiz-Fernández AC, Hillaire-Marcel C, Páez-Osuna F, Ghaleb B, Soto-Jiménez M (2003) Historical trends of metal pollution recorded in the sediments of the Culiacan River Estuary, Northwestern Mexico. Appl Geochem 18:577–588
Sadakata N (1985) Landform transition caused by iron sand mining (Kannanagashi) and formation of alluvial plains in San-in district, southwest Japan. Quat Res 24:167–176
Singh M, Sharma M, Tobschall HJ (2005) Weathering of the Ganga alluvial plain, northern India: implications from fluvial geochemistry of the Gomati River. Appl Geochem 20:1–21
Soares HMVM, Boaventura RAR, Machado AASC, Esteves da Silva JCG (1999) Sediments as monitors of heavy metal contamination in the Ave river basin (Portugal): multivariate analysis of data. Environ Pollut 105:311–323
Sprenke KF, Rember WC, Bender SF, Hoffmann ML, Rabbi F, Chamberlain VE (2000) Toxic metal contamination in the lateral lakes of the Coeur d’Alene River valley, Idaho. Environ Geol 39(6):575–586
Taylor SR, McLennan SM (1985) The continental crust: its composition and evolution. Blackwell, Oxford, pp 312
Terashima S, Ishihara S (1986) Copper, lead, zinc, arsenic and sulfur of the Japanese granitoids (3): Green Tuff Belt of northeast Japan and outer zone of southwest Japan. Bull Geol Surv Jpn 37(12):605–624
Tessier A, Carignan R, Belzile N (1994) Processes occurring at the sediment-water interface: emphasis on trace elements. In: Buffle J, DeVitre RR (eds) Chemical and biological regulation of aquatic system. Lewis Publishers, Boca Raton, pp 137–173
Tribovillard NP, Desprairies A, Verges EL, Bertrand P, Moureau N, Ramdani A, Ramanampisoa L (1994) Geochemical study of organic-matter rich cycles from the Kimmeridge Clay Formation of Yorkshire (UK): productivity versus anoxia. Palaeogeogr Palaeoclimatol palaeoecol 108:165–181
USEPA (United States Environmental Protection Agency) (1998) National recommended water quality criteria; notice. Federal register/Dec 7, 1998, Part IV, EPA (FRL-OW-6186-6a) 63(234):67548–67558
Yang H, Rose N (2005) Trace element pollution records in some UK lake sediments, their history, influence factors and regional differences. Environ Int 31:63–75
Yang H, Rose NL, Battarbee RW (2002) Distribution of some trace metals in Lochnagar, a Scottish mountain lake ecosystem and its catchment. Sci Total Environ 285:197–208
Yoshimura C, Omura T, Furumai H, Tockner K (2005) Present state of rivers and streams in Japan. River Res Applic 21:93–112
Zereen F, Islam F, Habib MA, Begum DA, Zaman MS (2000) Inorganic pollutants in the Padma River, Bangladesh. Environ Geol 39(9):1059–1062
Acknowledgments
The authors thank Professor Yoshihiro Sawada of Shimane University for access to the XRF facilities, and to Emi Yokoi, Masayuki Nakamoto, Koichi Uemura and Jarkynai Usubalieva of Shimane University for their help with sampling. Dr. Barry Roser of Shimane University is acknowledged for his constructive review, which improved the manuscript considerably. The INAA was carried out under the Visiting Researchers Program of the Research Reactor Institute, Kyoto University, Japan.
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Bibi, M.H., Ahmed, F. & Ishiga, H. Assessment of metal concentrations in lake sediments of southwest Japan based on sediment quality guidelines . Environ Geol 52, 625–639 (2007). https://doi.org/10.1007/s00254-006-0492-x
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DOI: https://doi.org/10.1007/s00254-006-0492-x