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Abstrakty
This paper contains XRD, Mössbauer and IR spectroscopy, chemical composition and thermal analysis results for the mineral schwertmannite present in the weathering zone developed in two abandoned sulphide mines in the Sudetes (SW Poland). In Wieściszowice a pyrite deposit was exploited, and in Radzimowice the deposit consisted of polymetallic mineralization with predominant arsenopyrite. In both localizations schwertmannite is developed as dripstones in underground workings and loose sediments precipitating from the acid mine drainage (AMD) waters. Schwertmannite forms tiny, needle-like crystals 2–3 m in size, usually grouped in botryoidal aggregations. The chemical composition of schwertmannite from Wieściszowice is typical for this mineral, and in Radzimowice the mineral contains up to 5.20 wt. % of As2O5. Due to highly developed specific surface and structural features, schwertmannite has the strongest sorption capabilities among the components of ochres, and takes up the largest amounts of arsenate oxyanion fromAMD, as well as considerable amounts of phosphates and heavymetals. About 71-87% of arsenate is sorbed on to the surface of the schwertmannite crystals and may readily be released into solution, 12–30% is bound into the structure of the mineral, and about 1% is an admixture of insoluble ferric arsenates.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
475--486
Opis fizyczny
fot., tab., wykr., bibliogr. 49 poz.
Twórcy
autor
autor
- Institute of Geochemistry, Mineralogy and Petrology, Warsaw University, Żwirki i Wigury 93, PL-02-089 Warszawa, j.parafiniuk@uw.edu.pl
Bibliografia
- ARDAU C. (2002) - Mineralogy and geochemistry of arsenic from the dismantled mine area of Baccu Locci. Plinius, 27: 39-43.
- BAKER B. J. and BANFIELD J. F. (2003) - Microbial communities in acid drainage. FEMS Microbiology Ecology, 44: 139-152.
- BARANOWSKI Z., HAYDUKIEWICZ A., KRYZA R., LORENC S., MUSZYŃSKI A., SOLECKI A. and URBANEK Z. (1990) - Outline of the geology of the Góry Kaczawskie (Sudetes Poland). Neues. Jahrb. Geol. Palant. ABH., 179 (2-3): 223-257.
- BERGERA. C., BETHKEC. M. andKRUMHANSLJ. L. (2000) -Aprocess model of natural attenuation in drainage from a historic mining district. Appl. Geochem., 15: 655-666.
- BIGHAM J. M., CARLSON L. and MURAD E. (1994) - Schwertmannite, a new iron oxyhydroxysulphate from Pyhasalmi, Finland, and other localities. Miner. Mag., 58: 641-648.
- BIGHAM J. M. and NORDSTROM D. K. (2000) - Iron and aluminum hydroxysulfates from acid sulfate waters. In: Sulfate minerals -crystallography, geochemistry and environmental significance. Rev. Miner. Geochem., 40: 351-403.
- BIGHAM J. M., SCHWERTMANN U., CARLSON L. and MURAD E. (1990) - A poorly crystallized oxyhydroxysulfate of iron formed by bacterial oxidation of Fe(II) in acid mine waters. Geochim. Cosmochim. Acta, 54: 2743-2758.
- BOWELL R. J. and BRUCE I. (1995) - Geochemistry of ochres and mine waters from Levant Mine, Cornwall. Appl. Geochem., 10: 237-250.
- DAUS B., WEISS H. and WENNRICH R. (1998) - Arsenic speciation in iron hydroxide precipitates. Talanta, 46: 867-873.
- DOLD B. (2003) - Dissolution kinetics of schwertmannite and ferrihydrite in oxidized mine samples and their detection by differential X-ray diffraction (DXRD). Appl. Geochem., 18: 1531-1540.
- FUKUSHI K., SASAKI M., SATO T., YANASE N., AMADO H. and IKEDA H. (2003) - A natural attenuation of arsenic in drainage from an abandoned arsenic mine dump. Appl. Geochem., 18: 1267-1278.
- FUKUSHI K., SATO T., YANASE N., MINATO J. and YAMATA H. (2004) - Arsenate sorption on schwertmannite. Am. Miner., 89: 1728-1734.
- GARCIA-SANCHEZ A. and 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.
- HUDSON-EDWARDS K. A., SCHELL CH. and MACKIN M. G. (1999) - Mineralogy and geochemistry of alluvium contaminated by metal mining in the Rio Tinto area, southwest Spain. Appl. Geochem., 14: 1015-1030.
- JASKÓLSKI S. (1964) - On the origin of pyrite schists at Wieściszowice (Lower Silesia) (in Polish with English summary). Ann. Soc. Geol. Pol., 34 (1-2): 29-63.
- KAWANO M. and TOMITA K. (2001) - Geochemical modeling of bacte-rially induced mineralization of schwertmannite and jarosite in sulfu-ric acid spring water. Am. Miner., 86: 1156-1165.
- KIM J. J. and KIM S. J. (2004) - Seasonal factors controlling mineral precipitation in the acid mine drainage at Donghea coal mine, Korea. Sc. Total Environ., 325: 181-191.
- KIM J. J., KIM S. J. and TAZAKIK. (2002) - Mineralogical characterization of microbial ferrihydrite and schwertmannite, and non-biogenic Al-sulfate precipitates from acid mine drainage in the Donghae mine area, Korea. Environ. Geol., 42: 19-31.
- KRYZA R., MAZUR S. and PIN C. (1995) - Leszczyniec meta-igneous complex in the eastern part of the Karkonosze-Izera Block, Western Sudetes: trace element and Nd isotope study. Neues. Jahrb. Geol. Palant. ABH., 170: 59-74.
- KRYZA P. and MUSZYŃSKI A. (2003) - The metamorphic Kaczawa Complex - fragment of Variscan accretionary prism. In: Sudety Zachodnie od wendu do czwartorzędu (eds. W. Ciężkowski, J. Wojewoda and A. Żelaźniewicz): 95-104. WIND. Wrocław.
- LINTNEROVA O., SUCHA V. and STREŚKO V. (1999) - Mineralogy and geochemistry of acid mine Fe-precipitates from main Slovak mining regions. Geol. Carpath., 50: 395-404.
- LOAN M., COWLEY J. M., HART R. and PARKINSON G. M. (2004) - Evidence on the structure of synthetic schwertmannite. Am. Miner., 89: 1735-1742.
- LUMSDON D. G., FRASER A. R., RUSSELL J. D. and LIVESEY N. T. (1984) - New infrared band assignments for the arsenate ion adsorbed on synthetic goethite. J. Soil Sc., 35: 381-386.
- MANCEAU A. (1995) - The mechanism of anion adsorption on iron oxides: Evidence for the bonding of arsenate tetrahedra on free Fe(O, OH)6 edges. Geochim. Cosmochim. Acta, 59: 3647-3653.
- MANECKI A. (1965) - Mineralogical and petrographical study of ore veins of the vicinity of Wojcieszów (Lower Silesia) (in Polish with English summary). Pr. Miner. Kom. Nauk Miner. PAN Oddz. w Krakowie, 2: 1-90.
- MAZUR S. (2002) - Geology of the Karkonosze-Izera massif: an overview. In: Massif, Western Sudetes, Central European Variscides. Miner. Soc. Pol., Spec. Pap., 20: 22-34.
- MAZUR S. and ALEKSANDROWSKI P. (2001) - The Tepla(?)/Saxothuringian suture in the Karkonosze-Izera massif, Western Sudetes, Central European Variscides. Int. J. Earth Sci., 90 (2): 341-360.
- MAZUR S., ALEKSANDROWSKI P., KRYZA R., OBERC-DZIEDZIC T. (2006) - The Variscan Orogen in Poland. Geol. Quart., 50 (1): 89-118.
- MIKULSKI S. Z. (2005) - Geological, mineralogical and geochemical characteristics of the Radzimowice Au-As-Cu deposit from Kaczawa Mountains (Western Sudetes, Poland): an example of transition of porphyry and epithermal style. Mineral. Dep., 39 (8): 904-920.
- MIKULSKI S. Z., LEROUGE C. and KOZŁOWSKI A. (2003) - Fluid inclusion and reconnaissance oxygen isotopic studies of quartz from the Radzimowice Au-Cu-As deposit in Sudetes Mountains, Poland. In: Mineral Exploration and Sustainable Development (eds. I. Eliopoulos et al.): 343-345. Rotterdam.
- MURAD E. and ROJlK P. (2003) - Iron-rich precipitates in a mine drainage environment: Influence of pH on mineralogy. Am. Miner., 88: 1915-1918.
- MUSZYŃSKI A. and MACHOWIAK K. (2000) - Geochemistry of igneous rocks in the area of Żeleźniak Hill (The Kaczawa Mountains). Min. Soc. Pol. Spec. Pap., 17: 212-214.
- MYNENI S. C. B., TRAINA S. J., WAYCHUNAS G. A. and LOGAN T. J. (1998) - Vibrational spectroscopy of functional group chemistry and arsenate coordination in ettringite. Geochim. Cosmochim. Acta, 62: 3499-3514.
- NAKAMOTO K. (1986) - Infrared and raman spectra of inorganic and coordination compounds. Wiley. New York.
- OLIVER R. J. H., CORFU F. and KROGH T. E. (1993) - U-Pb ages from SW Poland: evidence for a Caledonian suture zone between Baltica and Gondwana. J. Geol. Soc., London, 150: 355-369.
- PARAFINIUK J. (1996) - Sulfate minerals and their origin in the weathering zone of the pyrite-bearing schists at Wieściszowice (Rudawy Janowickie Mts, Western Sudetes). Acta Geol. Pol., 46 (3-4): 353-414.
- POWERS D. A., ROSSMAN G. R., SCHUGAR H. J. and GRAY H. B. (1975) - Magnetic behavior and infrared spectra of jarosite, basic iron sulfate and their chromate analogs. J. Solid State Chem., 13: 1-13.
- PIESTRZYŃSKI A. and SALAMON W. (1977) - New data on polymetallic mineralization of quartz veins in pyrite deposit from Wieściszowice (Lower Silesia) (in Polish with English summary). Kwart. Geol., 21 (1): 27-35.
- REGENSPURG S., BRAND A. and PEIFFER S. (2004) - Formation and stability of schwertmannite in acid mining lakes. Geochim. Cosmochim. Acta, 68: 1185-1197.
- REGENSPURG S. and PEIFFER S. (2005) - Arsenate and chromate incorporation in schwertmannite. Appl. Geochem., 20: 1226-1239.
- SCHWERTMANN U., BIGHAM J. M. and MURAD E. (1995) - The first occurrence of schwertmannite in natural stream environment. Eur. J. Miner., 7: 547-552.
- SCHWERTMANN U. and CORNELL R. M. (2000) - Schwertmannite. In: Iron Oxides in the Laboratory Preparation and Characterization: 147-152. Wiley-VCH. Weinheim.
- SIUDA R. (2001) - New sulphate minerals from the Stara Góra oxidised zone, Radzimowice, Kaczawskie Mts. Miner. Soc. Pol. Spec. Pap., 18: 186-188.
- SIUDA R. (2004) - Iron arsenates from Stara Góra deposit at Radzimowice in Kaczawa Mountains, Poland - a preliminary report. Miner. Soc. Pol. Spec. Pap., 24: 345-348.
- TEISSEYRE J. H. (1973) - Metamorphic rocks of the Rudawy Janowickie and Lasocki Range. Geol. Sud., 8: 7-120.
- WAYCHUNAS G. A., DAVIS J. A. and FULLER C. C. (1995) - Geometry of sorbed arsenate on ferrihydrite and crystalline FeOOH: Re-evaluation of EXAFS results and topological factors in predicting sorbate geometry, and evidence for monodentate complexes. Geochim. Cosmochim. Acta, 59: 3655-3661.
- YU J. Y., HEO B., CHOI I. K., CHO J. P. and CHANG H. W. (1999) - Apparent solubilities of schwertmannite and ferrihydrite in natural stream water polluted by mine drainage. Geochim. Cosmochim. Acta, 63: 3407-3416.
- YU J. Y., PARK M.and KIM J. (2002) - Solubilities of synthetic schwertmannite and ferrihydrite. Geochem. J., 36: 119-132.
- ZIMNOCH E. (1965) - New data on the ore mineralization of deposit at Stara Góra (in Polish with English summary). Biul. Geol. Uniw. Warszawski Wydział Geologii, 5: 3-38.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS2-0011-0013