SOIL CHEMISTRY TRENDS

In modern soil chemistry, four main directions are being actively developed: 1) chemistry of organic matter, 2) biochemical processes in soils, 3) chemical basis of soil protection, 4) soil study as
chemical membrane and a pool of chemical elements. Interest to the study of organic matter, soil contamination and the role of soil as a chemical component of the environment reflects pragmatic trends in modern soil chemistry. Many advances in soil chemistry are now associated with the use of new nonspecific methods of analysis, primarily physical ones. The greatest progress has been made in
identification of individual chemical compounds in soil when using synchrotron X-ray technology.

1. Mozharova, N.V. Functioning and formation of soils over the underground natural gas storages (in Russian) // Proc. of Intern... Doc. of Biology. М., 2009. 48 с.

2. Babanin V.F., Trukhin V.I., Karpachevsky L.O., Ivanov A.V., Morozov V.V. Soil Magnetism. M.-Yaroslavl, 1995. 222 с.

3. Bolshakov V.A., Krasnova N.M., Borisochkina T.I., Sorokin S.E., Grakovsky V.G. Aerotechnogenic pollution of the soil cover with heavy metals: sources, scale, recultivation. M.: Soil int-It. V.V., V.V., M.V., M.V., V.V., V.V., V.V., V.V., V.V., V.V., V.V., V.V., ZH. Dokuchaeva, 1993. 90 с.

4. Motuzova, G.V.; Bezuglova, O.S. Ecological monitoring of soils. M.: Gaudeamus, 2007. 237 с.

5. Breus I.P., Mishchenko A.A. Sorption of volatile organic pollutants by soils (review of literature) // Soil science. 2006. № 12. С. 1413-1426.

6. Nikonov, V.V.; Lukina, N.V.; Frontalsieva, M.V. Scattered elements in the AL-Fe-Humus soils (in Russian) // Soil science. 1997. № 11. С. 1319-1331.

7. Vasilkonov, E.S. Features of the oil-contaminated soils remediation in Western Siberia (on the example of the Middle Priobie territory). Autoref.... dis... Cand. biol. Moscow: Moscow Unite, 2009. 26 с.

8. Nikonov, V.V.; Lukina, N.V.; Frontalsieva, M.V. Scattered elements in the podzolic Al-Fe-Humus soils under the conditions of air pollution by copper-nickel production and changing lithogenic background (in Russian) // Soil science. 1999. № 3. С. 370-382.

9. Vodianitskiy, Yu.N. Reduction biogenic transformation of the layered silicates containing Fe(III) (literature review) // Soil science. 2007. № 12. С. 1513-1522.

10. Orlov, D.S.; Sadovnikova, L.K.; Sukhanova, N.I. Soil chemistry. Moscow: Higher school, 2005. 557 с.

11. Vodianitskiy, Yu.N. Heavy metals study in soils. Moscow: Soil int-It named after M.N. Vodianitskiy. V.V., V.V., "HEAVY METALS IN SOILS". Dokuchaeva. 2005. 109 с.

12. Pikovskiy, Yu.I.; Gennadiev, A.N.; Chernyanskiy, S.S.; Sakharov, G.N. Problem of diagnostics and normalization of soil contamination with oil and oil products (in Russian) // Soil science. 2003. № 9. С. 1132-1140.

13. Vodianitskiy, Yu.N. Heavy and superheavy metals and metalloids in soils. M.: Soil int-Int. Dokuchaeva. 2009. 181 с.

14. Pinskiy, D.L. Ion-exchange processes in the soils. Pushchino: Soil science and photosynthesis institute. 1997. 162 с.

15. Vodianitskiy, Yu.N. Heavy metals in soils. M.: Soil int-It named after M. Vodianitskiy. Dokuchaeva. 2008. 164 с.

16. Soil science and agrochemistry, abstract journal. M.: VINITI, 2009. № 1-12.

17. Vodianitskiy, Yu.N.; Shelobolina, E.S. Biological reduction of the iron (III) oxides (hydr)in the soils and the role of the natural organic matter in this process (in Russian) // Agrochemistry. 2007. № 8. С. 87-96.

18. Rusanova, G.V. Micro-morphological diagnostics of the cryogenic soils pollution with the oil hydrocarbons (in Russian) // Fundamental achievements in soil science, ecology, agriculture on the way to innovations. 1st scientific-practice conf. of M., 2008. С. 258-259.

19. Possibilities of the modern and future fundamental researches in soil science (in Russian) / Per. M.: Geos, 2000. 131 с.

20. Samonova O.A. Rare earth elements: lanthanum, cerium, samarium, europium - in the forest-steppe soils of the Volga lowland (in Russian) // Soil science. 1992. № 6. С. 45-50.

21. Gennadiev, A.N.; Pikovskiy, Yu.I. Maps of the soil resistance to the oil products and the polycyclic aromatic hydrocarbons pollution: method and experience of the compilation (in Russian) // Soil science. 2007. № 1. С. 80-92.

22. Sokolova T.A., Dronova, T.Ya., Tolpeshta I.I., Ivanova S.E. Interaction of forest loamy podzol soils with model acidic deposits and acid-base buffer of podzol soils. Moscow: Izd-in-Moscow Unta, 2001. 207 с.

23. Gennadiev, A.N.; Pikovskiy, Yu.I. Oil and soil cover (in Russian) // Modern problems of the soil pollution. III Interd. scientific conference. М., 2010. С. 32-36.

24. Solntseva, N.P. Oil production and geochemistry of the natural landscapes. Moscow: Moscow Unite, 1998. 170 с.

25. Gennadiev A.N., Pikovskiy Yu.I., Chernyanskiy S.S., Alekseeva T.A. Geochemistry of polycyclic aromatic hydrocarbons at technogenic pollution of environment // Geochemistry of biosphere. M.-Smolensk, 2006. С. 17-18.

26. Trofimov, S.Ya. Actual problems of the oil-contaminated soils remediation in the taiga zone (in Russian) // Modern problems of soil contamination. II Intern. scientific conf. of M., 2007. Т. 1. С. 36-37.

27. Glagolev, M.V.; Chistotin, M.V.; Shnyrev, R.A.; Sirin, A.A. Summer-autumn emission of carbon dioxide and methane by the dried peat bogs changed at economic use and by natural bogs (in Russian) // Agrochemistry. 2008. № 5. С. 46-58.

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

29. Zavarzin, G.A. Carbon cycle in the natural ecosystems of Russia (in Russian) // Nature. 1993. № 7. С. 15-18.

30. 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.

31. Kaurichev, I.S.; Orlov, D.S. Oxidation-reduction processes and their role in soil genesis and fertility. Moscow: Kolos, 1982. 246 с.

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

33. Kudeyarov V.N. Carbon dioxide emission by the soil cover of Russia // Nature. 1994. № 7. 37-43.

34. Baveye P. A vision for future of soil science. The future of soil science / Ed. A.E. Harttemink. Wageningen, 2006. P. 10-12.

35. Paladonin, V.V.; Plyaskina, O.V. Application of the isotopic relations for revealing the sources of the soil contamination in the South-Eastern administrative district of Moscow with lead (in Russian) // Modern problems of soil contamination. II Interd. scientific conference. М., 2007. Т. 2. С. 208-212.

36. Baron S., Carignan J., Ploquin A. Dispersion of heavy metals (metalloids) in soils from 800-year-old pollution (Mont-Lozere, France) // Environ. Sci. Technol. 2006. V. 40. P. 5319-5326.

37. Mozharova, N.V. Functioning and formation of soils over the underground natural gas storages (in Russian) // Proc. of Intern... Doc. of Biology. М., 2009. 48 с.

38. 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. 263-275.

39. Motuzova, G.V.; Bezuglova, O.S. Ecological monitoring of soils. M.: Gaudeamus, 2007. 237 с.

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

41. Nikonov, V.V.; Lukina, N.V.; Frontalsieva, M.V. Scattered elements in the AL-Fe-Humus soils (in Russian) // Soil science. 1997. № 11. С. 1319-1331.

42. Bouma J. Future of soil science. The future of soil science / Ed. A.E. Harttemink. Wageningen, 2006. P. 22-24.

43. Nikonov, V.V.; Lukina, N.V.; Frontalsieva, M.V. Scattered elements in the podzolic Al-Fe-Humus soils under the conditions of air pollution by copper-nickel production and changing lithogenic background (in Russian) // Soil science. 1999. № 3. С. 370-382.

44. Breuning-Madsen H. The future of soil science in industrial societies. The future of soil science / Ed. A.E. Harttemink. Wageningen, 2006. P. 25-27.

45. Orlov, D.S.; Sadovnikova, L.K.; Sukhanova, N.I. Soil chemistry. Moscow: Higher school, 2005. 557 с.

46. Cotter-Howells J.D., Cheampness P.E., Charnock J.M., Pattrick R.A.D. Identification of pyromorphite in mine-waste contaminated soils by ATEM and EXAFS // Eur. J. Soil Sci. 1994. V. 45. P. 393-402.

47. Pikovskiy, Yu.I.; Gennadiev, A.N.; Chernyanskiy, S.S.; Sakharov, G.N. Problem of diagnostics and normalization of soil contamination with oil and oil products (in Russian) // Soil science. 2003. № 9. С. 1132-1140.

48. 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. 863-877.

49. Pinskiy, D.L. Ion-exchange processes in the soils. Pushchino: Soil science and photosynthesis institute. 1997. 162 с.

50. Dahn R., Scheidegger A.M., Mаnceau A., Schlegel M., Baeyens B., Bradbary H., Morales M. Neoformation of Ni phyllosilicate upon Ni uptake on montmorillonite. A kinetic study by powder and polarized EXAFS // Geochim. Cosmochim Acta. 2002. V. 66. P. 2335-2347.

51. Soil science and agrochemistry, abstract journal. M.: VINITI, 2009. № 1-12.

52. Essaid H.I., Bekins B.A., Godsy E.M., Warren E., Baedecker M.J., Cozzarelli I. Simulation of aerobic and anaerobic biodegradation processes at a crude oil spill site // Water Resources Research. 1995. V. 31. P. 3309-3327.

53. Rusanova, G.V. Micro-morphological diagnostics of the cryogenic soils pollution with the oil hydrocarbons (in Russian) // Fundamental achievements in soil science, ecology, agriculture on the way to innovations. 1st scientific-practice conf. of M., 2008. С. 258-259.

54. Frossard E. The future of soil science: the role of soils for the society and the environment. The future of soil science / Ed. A.E. Harttemink. Wageningen. 2006. P. 46-48.

55. Samonova O.A. Rare earth elements: lanthanum, cerium, samarium, europium - in the forest-steppe soils of the Volga lowland (in Russian) // Soil science. 1992. № 6. С. 45-50.

56. Hesterberg D., Savers D.E., Zhou W., Plummer G.M. Robarg W.P. X-ray adsorption spectroscopy of lead and zinc speciation in a contaminated groundwater aquifer // Environ. Sci. Technol. 1997. V. 31. P. 2840-2846.

57. Sokolova T.A., Dronova, T.Ya., Tolpeshta I.I., Ivanova S.E. Interaction of forest loamy podzol soils with model acidic deposits and acid-base buffer of podzol soils. Moscow: Izd-in-Moscow Unta, 2001. 207 с.

58. Hundall L.S., Carmo A.M., Bleam W.L., Thompson M.L. Sulfur in biosolis-derived fulvic acid: characterization by XANES spectroscopy and selective dissolution approaches // Environ. Sci. Technol. 2000. V. 34. P. 5184-5188.

59. Solntseva, N.P. Oil production and geochemistry of the natural landscapes. Moscow: Moscow Unite, 1998. 170 с.

60. Kim C.S., Bloom N.S., Rytuba J.J., Brown G.E. Mercury speciation by X-ray absorption fine structure spectroscopy and sequential chemical extractions: A comparison of speciation methods // Environ. Sci. Technol. 2003. V. 37. P. 5102-5108.

61. Trofimov, S.Ya. Actual problems of the oil-contaminated soils remediation in the taiga zone (in Russian) // Modern problems of soil contamination. II Intern. scientific conf. of M., 2007. Т. 1. С. 36-37.

62. Lovley D.R. Dissimilatory Fe(III) and Mn(IV) reduction // Microbiol. Review. 1991. V. 55. P. 259-287.

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

64. Lovley D.R. Organic matter mineralization with the reduction of ferric iron: a review // Geomicrobiology J. 1987. V. 5. № 3/4. P. 375-399.

65. 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.

66. Lovley D.R., Baedecker M.J., Lonergan D.J. Baedecker M.J., Cozzarelli I.M., Phillips E.J.P., Siegel D.I. Oxidation of aromatic contaminants coupled to microbial iron reduction // Nature. 1989. V. 339. P. 297-299.

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

68. Lovley D.R., Phillips E.J.P. Organic matter mineralization with reduction of iron in anaerobic sediments // Appl. Environ. Microbiol. 1986. V. 51. P. 683-689.

69. Baveye P. A vision for future of soil science. The future of soil science / Ed. A.E. Harttemink. Wageningen, 2006. P. 10-12.

70. Lovley D.R., Phillips E.J.P. Novel mode of microbial energy metabolism: organic carbon oxidation coupled to dissimilatory reduction of iron or manganese // Appl. Environ. Microbiol. 1988. V. 54. P. 1472-1480.

71. Baron S., Carignan J., Ploquin A. Dispersion of heavy metals (metalloids) in soils from 800-year-old pollution (Mont-Lozere, France) // Environ. Sci. Technol. 2006. V. 40. P. 5319-5326.

72. Mаnceau A., Boisset M.C., Sarret G., Hazemann J.L., Mench M., Cambier P., Prost R. Direct determination of lead speciation in contaminated soils by EXAFS spec-troscopy // Environ. Sci. Technol. 1996. V. 30. P. 1540-1552.

73. 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. 263-275.

74. Mаnceau A., Lanson B., Schlegel M.L., Harge J.C., Musso M., Eybert-Berard L., Hazemann J-L., Chateigner D., Lamble G.M. Quantitative Zn speciation in smelter-contaminated soils by EXAFS spectroscopy // American J. Sci. 2000. V. 300, P. 289-343.

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

76. Mаnceau A., Marcus M.A., Tamura N. Quantative speciation of heavy metals in soils and sediments by synchrotron X-ray techniques // Applications of Synchrotron Radiation in Low-Temperature Geochemistry and Enviromental Science. Reviews in Mineralogy and Geochemistry. Washington, 2002. V. 49. P. 341-428.

77. Bouma J. Future of soil science. The future of soil science / Ed. A.E. Harttemink. Wageningen, 2006. P. 22-24.

78. Mаnceau A., Tamura N., Celestre R.S., Macdowell A.A. Geoffroy N., Sposito G., Padmore H.A. Molecular-scale speciation of Zn and Ni soil ferromanganese nodules from loess soils of the Mississippi Basin // Environ. Sci. Technol. 2003. V. 37. P. 75-80.

79. Breuning-Madsen H. The future of soil science in industrial societies. The future of soil science / Ed. A.E. Harttemink. Wageningen, 2006. P. 25-27.

80. Morin G., Juillot F., Casiot C., Bruneel O., Persone J.-C., Elbaz-Poulichet F., Leblanc M., Ildefonse P., Calas G. Bacterial formation of tooeleite and mixed arsenic (III) or arsenic (V) - iron (III) gels in the Carnoules acid mine drainage, France. A XANES, XRD, and SEM study // Environ. Sci. Technol. 2003. V. 37. P. 1705-1712.

81. Cotter-Howells J.D., Cheampness P.E., Charnock J.M., Pattrick R.A.D. Identification of pyromorphite in mine-waste contaminated soils by ATEM and EXAFS // Eur. J. Soil Sci. 1994. V. 45. P. 393-402.

82. Morin G., Ostergren J.D., Juillot F., Ildefonse P., Calas G., Brown J.E. XAFS determination of the chemical form of lead in smelter-contaminated soils and mine tailings: Importance of adsorption process // Am. Mineral. 1999. V. 84. P. 420-434.

83. 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. 863-877.

84. Morra M.G., Fendorf S.E., Brown P.D. Speciation of sulfur in humic and fulvic acids using X-ray absorption near-edge structure (XANES) spectroscopy // Geochim. Cosmohim. Acta. 1997. V. 61. P. 683-688.

85. Dahn R., Scheidegger A.M., Mаnceau A., Schlegel M., Baeyens B., Bradbary H., Morales M. Neoformation of Ni phyllosilicate upon Ni uptake on montmorillonite. A kinetic study by powder and polarized EXAFS // Geochim. Cosmochim Acta. 2002. V. 66. P. 2335-2347.

86. Nowack B., Obrecht J.-M. Schluep M., Schulin R., Hansmann W., Koppel V. Elevated lead and zinc contents in remote alpine soils of the Swiss National Park // J. Environ. Qual. 2001. V. 30. P. 919-926.

87. Essaid H.I., Bekins B.A., Godsy E.M., Warren E., Baedecker M.J., Cozzarelli I. Simulation of aerobic and anaerobic biodegradation processes at a crude oil spill site // Water Resources Research. 1995. V. 31. P. 3309-3327.

88. Olmez I., Sholkovitz E.R., Hermann D., Eganhouse R.P. Rare earth elements in sediments off Southern California: A new Anthropogenic indicator // Environ. Sci. Technol. 1991. V. 25. P. 310-331.

89. Frossard E. The future of soil science: the role of soils for the society and the environment. The future of soil science / Ed. A.E. Harttemink. Wageningen. 2006. P. 46-48.

90. Paktung D., FosterА., Laflamme G. Speciation and characterization of arsenic in Ketza River mine tailings using X-ray adsorptoin spectroscopy // Environ. Sci. Technol. 2003. V. 37. P. 2067-2074.

91. Hesterberg D., Savers D.E., Zhou W., Plummer G.M. Robarg W.P. X-ray adsorption spectroscopy of lead and zinc speciation in a contaminated groundwater aquifer // Environ. Sci. Technol. 1997. V. 31. P. 2840-2846.

92. Roden E.E. Fe(III) oxide reactivity toward biological versus chemical reduction. Environ. Science Technol. 2003. V. 37. P. 1319-1324.

93. Hundall L.S., Carmo A.M., Bleam W.L., Thompson M.L. Sulfur in biosolis-derived fulvic acid: characterization by XANES spectroscopy and selective dissolution approaches // Environ. Sci. Technol. 2000. V. 34. P. 5184-5188.

94. Savichev A.T., Vodyanitskii Yu.N. Determination of barium, lanthanum and cerium contents in soil by X-ray radiometric method // Eurasian Soil Sci. 2009. № 13. Р. 1461-1469.

95. Kim C.S., Bloom N.S., Rytuba J.J., Brown G.E. Mercury speciation by X-ray absorption fine structure spectroscopy and sequential chemical extractions: A comparison of speciation methods // Environ. Sci. Technol. 2003. V. 37. P. 5102-5108.

96. Scheinost A.C., Krerzchmar R.S., Prister S., Roberts D.R. Combining selective sequential extractions, X-ray absorptoin spectroscopy, and principal component analysis for quantitative zinc speciation in soil // Environ. Sci. Technol. 2002. V. 36. P. 5021-5028.

97. Lovley D.R. Dissimilatory Fe(III) and Mn(IV) reduction // Microbiol. Review. 1991. V. 55. P. 259-287.

98. Shelobolina E.S., Anderson R.T., Vodyanitskii Y.N., Sivtsov A.V., Vuretich R., Lovley D.R. Importance of clay size minerals for Fe(III) respiration in a petrolium-contaminated aquifer // Geobiology. 2004. V. 2. Р. 67-76.

99. Lovley D.R. Organic matter mineralization with the reduction of ferric iron: a review // Geomicrobiology J. 1987. V. 5. № 3/4. P. 375-399.

100. Schulze D.G., Sutton S.R., Bajt S. Determing manganese oxidation state in soils using X-ray absorption near-edge structure (XANES) spectroscopy // Soil Sci. Soc. Am. J. 1995. V. 59. P. 1540-1548.

101. Lovley D.R., Baedecker M.J., Lonergan D.J. Baedecker M.J., Cozzarelli I.M., Phillips E.J.P., Siegel D.I. Oxidation of aromatic contaminants coupled to microbial iron reduction // Nature. 1989. V. 339. P. 297-299.

102. Sutton S.R., Rivers M.L. Hard X-ray synchrotron microprobe techniques and applications // Synchrotron X-ray methods in clay science / Eds.: D. Schulse, P. Bertsch, J. Stucki. 1999. P. 146-163.

103. Lovley D.R., Phillips E.J.P. Organic matter mineralization with reduction of iron in anaerobic sediments // Appl. Environ. Microbiol. 1986. V. 51. P. 683-689.

104. Vesely J., Majer V. The effect of pH and atmospheric deposition on concentrations of trace elements in acidified surface waters: A statistical approach // Water, Air, Soil Poll. 1996. V. 88. P.

105. Lovley D.R., Phillips E.J.P. Novel mode of microbial energy metabolism: organic carbon oxidation coupled to dissimilatory reduction of iron or manganese // Appl. Environ. Microbiol. 1988. V. 54. P. 1472-1480.

106. Vesely J., Majer V., Norton S.A. Heterogeneous response of central European to decreased acidic atmospheric deposition // Environmental Pollution. 2002. V. 120. P. 275-281.

107. Mаnceau A., Boisset M.C., Sarret G., Hazemann J.L., Mench M., Cambier P., Prost R. Direct determination of lead speciation in contaminated soils by EXAFS spec-troscopy // Environ. Sci. Technol. 1996. V. 30. P. 1540-1552.

108. Waychunas G.A., Rea B.A., Fuller C.C., Davis J.A. Surface chemistry of ferrigydrite: Part 1. EXAFS studies of the geometry of coprecipitated and adsorbed arsenate // Geochim. Cosmochim. Acta. 1993. V. 57. P. 2251-2269.

109. Mаnceau A., Lanson B., Schlegel M.L., Harge J.C., Musso M., Eybert-Berard L., Hazemann J-L., Chateigner D., Lamble G.M. Quantitative Zn speciation in smelter-contaminated soils by EXAFS spectroscopy // American J. Sci. 2000. V. 300, P. 289-343.

110. Xia K., Weesner F., Bleam W.F., Bloom P.R., Skyllberg U.L., Helmke P.A. XANES studies of oxidation states of sulfur in aquatic and soil humic substances // Soil Sci. Soc. Am. J. 1998. V. 62. P. 1240-1246.

111. Mаnceau A., Marcus M.A., Tamura N. Quantative speciation of heavy metals in soils and sediments by synchrotron X-ray techniques // Applications of Synchrotron Radiation in Low-Temperature Geochemistry and Enviromental Science. Reviews in Mineralogy and Geochemistry. Washington, 2002. V. 49. P. 341-428.

112. Mаnceau A., Tamura N., Celestre R.S., Macdowell A.A. Geoffroy N., Sposito G., Padmore H.A. Molecular-scale speciation of Zn and Ni soil ferromanganese nodules from loess soils of the Mississippi Basin // Environ. Sci. Technol. 2003. V. 37. P. 75-80.

113. Morin G., Juillot F., Casiot C., Bruneel O., Persone J.-C., Elbaz-Poulichet F., Leblanc M., Ildefonse P., Calas G. Bacterial formation of tooeleite and mixed arsenic (III) or arsenic (V) - iron (III) gels in the Carnoules acid mine drainage, France. A XANES, XRD, and SEM study // Environ. Sci. Technol. 2003. V. 37. P. 1705-1712.

114. Morin G., Ostergren J.D., Juillot F., Ildefonse P., Calas G., Brown J.E. XAFS determination of the chemical form of lead in smelter-contaminated soils and mine tailings: Importance of adsorption process // Am. Mineral. 1999. V. 84. P. 420-434.

115. Morra M.G., Fendorf S.E., Brown P.D. Speciation of sulfur in humic and fulvic acids using X-ray absorption near-edge structure (XANES) spectroscopy // Geochim. Cosmohim. Acta. 1997. V. 61. P. 683-688.

116. Nowack B., Obrecht J.-M. Schluep M., Schulin R., Hansmann W., Koppel V. Elevated lead and zinc contents in remote alpine soils of the Swiss National Park // J. Environ. Qual. 2001. V. 30. P. 919-926.

117. Olmez I., Sholkovitz E.R., Hermann D., Eganhouse R.P. Rare earth elements in sediments off Southern California: A new Anthropogenic indicator // Environ. Sci. Technol. 1991. V. 25. P. 310-331.

118. Paktung D., FosterА., Laflamme G. Speciation and characterization of arsenic in Ketza River mine tailings using X-ray adsorptoin spectroscopy // Environ. Sci. Technol. 2003. V. 37. P. 2067-2074.

119. Roden E.E. Fe(III) oxide reactivity toward biological versus chemical reduction. Environ. Science Technol. 2003. V. 37. P. 1319-1324.

120. Savichev A.T., Vodyanitskii Yu.N. Determination of barium, lanthanum and cerium contents in soil by X-ray radiometric method // Eurasian Soil Sci. 2009. № 13. Р. 1461-1469.

121. Scheinost A.C., Krerzchmar R.S., Prister S., Roberts D.R. Combining selective sequential extractions, X-ray absorptoin spectroscopy, and principal component analysis for quantitative zinc speciation in soil // Environ. Sci. Technol. 2002. V. 36. P. 5021-5028.

122. Shelobolina E.S., Anderson R.T., Vodyanitskii Y.N., Sivtsov A.V., Vuretich R., Lovley D.R. Importance of clay size minerals for Fe(III) respiration in a petrolium-contaminated aquifer // Geobiology. 2004. V. 2. Р. 67-76.

123. Schulze D.G., Sutton S.R., Bajt S. Determing manganese oxidation state in soils using X-ray absorption near-edge structure (XANES) spectroscopy // Soil Sci. Soc. Am. J. 1995. V. 59. P. 1540-1548.

124. Sutton S.R., Rivers M.L. Hard X-ray synchrotron microprobe techniques and applications // Synchrotron X-ray methods in clay science / Eds.: D. Schulse, P. Bertsch, J. Stucki. 1999. P. 146-163.

125. Vesely J., Majer V. The effect of pH and atmospheric deposition on concentrations of trace elements in acidified surface waters: A statistical approach // Water, Air, Soil Poll. 1996. V. 88. P.

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