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.., , .., .., .., .. - , . , 1999. 404 .

.., .., .. . . .: , 1990. 335 .

.. - // . 1980. 1. . 3343.

.. : . .... . . . ., 1978. 22 .

.., .., . .., .., .. // . . 4. . . , 2004. . 84 .., .., .. . .: - . -, 2005. 336 .

.. . .: . - . -, 1998. 170 .

2004 . , 2005. 65 .

. . .: , 1984. 240 .

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. . , 2008. 20 .

.., .. Fe, Al Si // .

1985. 8. . 10-25.

.. // . . - II . . . .: - . -, 2007. . 1. . 3637.

.. . .: - . -, 1973. 275 .

.. ( ): . .... .

.-. . ., 1988. 23 .

() / . .. . .: , 1976. 527 .

.. - // . 1984. 1. . 107113.

.., .., .. . .: , 1989. 208 .

.., .., .. .., .. // . . . . 1980. 7. . 5-24.

.. . . . . . .-. .

, 2005. 23 .

- / . .. . : , 1997. 288 .

. , , . .: , 1992. 183 .

Acton D.W., Barker J.F. In situ biodegradation potential of aromatic hydrocarbons in anaerobic groundwater // J. Contam. Hydrol. 1992. V. 9. P. 325-352.

Adams W.A., Kassim J.K. Iron oxyhydroxides in soils developed from Lower Paleozic sedimentory rocks in mid-Wales and implications for some pedogenetic processes // J. Soil Sci. 1984. V.35. N 1. P. 117-126.

Ahrland S., Dahlgren A., Persson I. Stabilities and hydrolysis of some iron(III) and manganese(III) complexes with chelating ligands // Acta Agric. Scand. 1990. V.

40. P. 101-111.

Ambe S. Adsorption-kinetics of antimony(V) ions onto alfa-Fe2O3 surfaces from an aqueous-solution // Langmuir. 1987. V. 3. P. 489493.

Anderson R.T., Lovley D.R. Ecology and biogeochemistry of in situ groundwater bioremediation // Adv. Microbial Ecol. 1997. V. 15. P. 289-350.

Anderson R.T., Lovley D.R. Naphthalene and benzene degradation under Fe(III)-reducing conditions in petroleum-contaminated aquifer // Bioremediation J. 1999.

V. 3. P. 121-135.

Anderson R.T., Rooney-Varga J.N., Lovley D.R. Anaerobic benzene oxidation in the Fe(III) reduction zone of petroleum-contaminated aquifer // Environ. Sci.

Techn. 1998. V. 32. P. 1222-1229.

Armienta M.A., Villasenor G., Rodrigues R., Ongley L.K., Mango H. The role of arsenic-bearing rocks in groundwater pollution at Zimapan Valley, Mexico // Environ. Geol. 2001. V. 40. P. 571-581.

Baedecker M.J., Cozzarelli I.M., Siegel D.I., Bennet P.C., Eganhouse R.P. Crude oil in a shallow sand and gravel aquifer. 3. Biochemical reactions and mass balance modeling in anoxic groundwater // Appl. Geochem. 1993. V. 8. P. 569-586.

Balashova V.V., Zavarzin G.A. Anaerobic reduction of ferric iron by hydrogen bacteria // Microbiology 1980. V. 48. P. 635-639.

Barker J.F., Patrick G.C., Major D. Natural attenuation of aromatic hydrocarbons in a shallow sand aquifer // Ground Water Monit. Rev. 1987. V. 7. P. 6471.

Bartlett R.J., Kimble L.M. Behavior of chromium in soils: II. Hexavalent forms // J. Environ. Quality. 1976. V. 5. P. 383386.

Bekins B.A., Godsy E.M., Warren E. Distribution of microbial natural physiological types in an aquifer by crude oil // Microbial Ecology. 1999. V. 37. P. 263275.

Belzile N., Chen Y.W., Wang Z.J. Oxidation of antimony(III) by amorphous and manganese oxyhydroxides // Chem. Geol. 2001. V. 174. P. 379387.



Benner S.G., Hansel C.M., Wielinga R.W., Barber T.M., Fendorf S. Reductive dissolution and biomineralization of iron hydroxide under dynamic flow conditions // Environ. Sci. Technol. 2002. V. 36. P. 17051711.

Bigham J.M., Golden D.C., Bowen L.H., Buol S.W., Weed S.B. Iron oxide mineralogy of well-draind Ultisols and Oxisols: I. Characterization of iron oxides in soil clays by Mossbayer spectroscopy, x-ray diffractometry, and selected chemical techniques // Soil Sci. Soc. Am. J. 1978. V. 42. P. 816825.

Blesa M.A., Marinovich H.A., Baumgrater E.C., Maroto A,J.G. Mechanism of dissolution of magnetite by oxalic acid-ferrous ion solutions // Inorganic Chemistry.

1987. V. 26. . 22. . 37133717.

Blowes D.W., Ptacek C.J., Benner S.G., McRae C.W.T., Bennet T.A., Puls R.W. Treatment of inorganic contaminants using permeable reactive barriers // J. Contam.

Hydrol. 2000. V. 45. P. 123137.

Blowes D.W., Ptacek C.J., Jambor J.L. In situ remediation of Cr(VI)-contaminated groundwater using permeable reactive walls: Laboratory studies // Environ. Sci.

Technol. 1997. V. 31. P. 22483357.

Bond D.L., Fendorf S. Kinetics and structural constrains of chromate reduction by green rust // Environ. Sci. Technol. 2003. V. 37. P. 27502757.

Bond D.R., Lovley D.R. Reduction of Fe(III) oxide by methanogens in the presense and absence of extracellular quinones // Environ. Microb. 2002. V. 4. P. 115 124.

Borrgaard O.K. Phase identification by selective dissolution techniques // Iron in soils and clay minerals. Dordrecht: Reidel, 1988. P. 8398.

Bousserrhine N., Jeanroy E., Garcera C.,Gasser U., Berthelin J. Involvement of bacterial and chemical reduction processes in the mobilization of noniron metals from substituted goethites (ferric oxides) // Sec. Int. Symp. ISMOM 96. Effect of Miner. Organic Microorg. Interactions on Soil. Nance, France, 1996. Abstr. P. 4.

Bowen H.J.M. Enviromental chemistry of elements. N.Y.: Acad. Press., 1979. 333 p.

Brannon J.M., Patrick W.H., Jr. Fixation and mobilization of antimony in sediments // Environ. Pollut. 1985. V. 9B. P. 107126.

Brennan E. W., Lindsay W.L. Reduction and oxidation effect on the solubility and transformation of iron oxides // Soil Sci. Soc. Am. J. 1998. V. 62. P. 930937.

Brett I.J., Banfield J.F. Microbial communities in acid mine drainage // FEMS Microbiol. Ecol. 2003. V. 44. P. 139152.

Brown G.E., Foster A.L., Ostergren J.D. Mineral surfase and bioavailability of heavy metals: A molecular-scale perspective // Proc. Natl. Acad. Sci. USA. 1999. V.

96. P. 33883395.

Brunori C., Cremisini C., Massanisso P., Pinto V., Torricelli L. Reuse of treated red mud bauxite waste: Studies on environmental compatibility // J. Hazard. Mater.

2005. V. 1. P. 5563.

Cantrell K.J., Kaplan D.I., Wietsma T.W. Zero-valent iron for the in-situ remediation of selected metals in groundwater // Hazard. Mater. 1995. V. 42. P. 201-212.

Cardile C.M., Childs C.M., Whitton J.S. The effct of citrate / bicarbonate / ditionite treatment on standard and soil smectites by 57Mossbauer spectroscopy // Austral. J. Soil Res. 1987. V. 25. 2. P. 145154.

Carlson L. Schwertmann U. Natural occurrence of feroxyhite (`-FeOOH) // Clays Clay Minerals. 1980. V. 28. N 4. 272280.

Chapelle F.H., Lovley D.R. Competitive exclusion of sulfate reduction by Fe(III)-reducing bacteria: A mechanism for producing discrete zones of high-iron ground water // Ground Water. 1992. V. 30. P. 2936.

Chen Y.-W., Deng T.-L., Filella M., Belzile N. Distribution and early diagenesis of antimony species in sediments and pore water of freshwater lakes // Environ. Sci.

Technol. 2003. V. 37. P. 11631168.

Cooper D.C., Neal A., Kukkadapu R.K., Brewe D., Goby A.J. Picardal F. Effects of sediment iron mineral composition on microbially mediated changes in divalent metal speciation: importance of ferrihydrite // Geochim. Cosmochim. Acta. 2005. V. 69. P. 17391754.

Cooper D.C., Picardal F., Rivera J., Talbot C. Zinc immobilization and magnetite formation via ferric oxide reduction by Shewanella putrefaciens // Environ. Sci.

Technol. 2000. V. 34. P. 100106.

Cornell R. M. The influence of some cations on the transformation of ferrigydrite into crystalline products // Clay Mineral. 1988. V. 23. P. 329332.

Cornell R.M., Schindler P.W. Photochemical dissolution of goethite in acid/oxalate solution // Clays Clay Mineral. 1987. V. 35. P. 347352.

Couling S.B., Mann S. The influence of inorganic phosphate on the crystallization of magnetite (Fe3O4) from aqueous solution // J. Chem. Soc. Chem. Comm. 1985.

P. 17131715.

Cozzarelli I.M., Baedecker M.J., Eganhouse R.P., Goerlitz D.F. Geochemical evolution of low-molecular-weiht organic acids derived from degradation of petroleum contaminants in groundwater // Geochim. Cosmochim. Acta. 1994. V. 58. P. 863877.

Crbic-Galic D. Anaerobic microbial degradation of aromatic hydrocarbons // Microbial Enhancement of Oil Recovery Recent Advances. Ed. E.C. Donaldson.

New York: Elsevier Science, 1991. P. 145161.

Crecelius E.A., Bothner M.N., Carpenter R. Geochemistries of arsenic, antimony, mercury, and related elements in sediments of Puget Sound // Environ. Sci.

Technol. 1975. V. 9. P. 325333.

Cummings D.E., Caccavo F., Fendorf S., Rosenzweig R.F. Arsenic mobilization by the dissimilatory Fe(III)-reducing bacterium Shewanella alga BrY // Environ.

Sci. Technol. 1999. V. 33. P. 723729.

umplido J., Barron V., Torrent J. Effects of phosphate on the formation of nanophase lepidocrocite from Fe(II) sulfate // Clays Clay Mineral. 2000. V. 48. N 5. P.

503510.

D,Angelo P., Benfatto M. Effect of multielectronic configurations on the XAFS analysis at the Fe K edge // J. Phys. Chem. 2004. V. 108. P. 45054514.

De Jong E. Magnetic susceptibility of Gleysolic and Chernozemic soils in Saskatchewan // Can. J. Soil Sci. 2002. V. 82. P. 191199.

De Jong E., Hestor P.A., Pennock d.J. The use of magnetic susceptibility to measure long-term soil redistribution // Catena. 1998. V. 32. P. 2335.



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