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Mechanisms of the formation of the soluble phosphorus containing compounds in acid phosphatized soils

Abstract

Mechanisms of formation of soluble phosphorus containing compounds in acid overphosphatized soils are connected with the chemisorption of phosphate anions. Soluble phosphorus containing compounds are the products of destructive transformation of metal-humus sorbents. The role of complex metal-phosphate anions in the decrease of the efficiency of soil sorption barriers is considered.

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References

  1. Pereverzev, V.N. and Koshleva, E.A., Agrokhimia, 1990, no. 5, p. 10.

  2. Efimov, V.N. and Ivanov, A.I., Agrokhimia, 2001, no. 6, p. 5.

  3. Barberis, E., Marsan, F.A., Scalenghe, R., Lammers, A., Schwertmann, U., Edwards, A.C, Maguire, R., Wilson, M.J., Delgado, A., and Torrent, J., Fertilizer Res., 1996, no. 45, p. 99.

  4. Kudeyarova, A.Yu., Fosfatogennaya Transformatsiya Pochv (Phosphatogenic Transformation of Soils), Moscow: Nauka, 1995.

    Google Scholar 

  5. Shafran, S.A., Agrokhimia., 2004, no. 1, p. 9.

  6. Pochvy Evropejskogo Severo-Vostoka i Ih Plodorodie (The Soils of the European North-East and Their Fertility), Leningrad: Nauka, 1989.

  7. Thomas, Yu.A., in Phosphorus in the Environment, Moscow: Mir, 1977, pp. 638–665.

    Google Scholar 

  8. Koplan-Diks, I.C, Nazarov, G.V., and Kuznetsov, V.K., Rol’ Mineral’nyh Udobrenij v Evtrofirovanii Vod Sushi (The Role of Mineral Fertilizers in Eutrophication of Land Water), Leningrad: Nauka, 1985.

    Google Scholar 

  9. Evolyutsiya Krugovorota Fosfora i Evtrofirovanie Prirodnyh Vod (Evolution of Phosphorus Cycle and Eutrophication of Natural Waters), Leningrad: Nauka, 1988.

  10. Bellemakers, M.J.S. and Maessen, M., Water, Air, Soil Pollut., 1998, no. 101, p. 3.

  11. Petrova, N.A., Iofina, I.V., Kapustina, L.L., Kulish, T.P., Petrova, T.N., and Raspletina, G.F., Ekol. Khimia, 2005, no. 14, p. 209.

  12. Kudeyarova, A.Yu., Agrokhim., 1979, no. 2, p. 32.

  13. Kudeyarova, A.Yu., Pedogeohimiya Orto- i Oolifosfatov v Usloviyah Primeneniya Udobrenij (Pedogeochemistry of Fertilizer Ortho- and Polyphosphates), Moscow: Nauka, 1993.

    Google Scholar 

  14. Kudeyarova, A.Yu., Euras. Soil Sci., 2004, no. 37, p. S85.

  15. Vinokurov, I.Yu., Evolyutsiya Pochvennyh Ekosistem: Khimicheskoe Zagryaznenie, Samoregulyatsiya, Samoorganizatsiya, Ustojchivost’ (Evolution of the Soil Ecosystems: Chemical Contamination, Self-regulation, Selforganization, Stability), Moscow: Yurkniga, 2007.

    Google Scholar 

  16. Ivanov, S.N. and Stolyarova, T.F., Pochvovedenie, 1972, no. 7, p. 72.

  17. Kaurichev, I.C., Peltzer, A.S., Anisimova, T.A. and Kukushkin, V.K., Izvestiya Timiryazevskoj Sel`skohozyajstvennoj Akad., 1989, no. 2, p. 55.

  18. Gerke, J., Geoderma, 1993, no. 59, p. 279.

  19. Arias, M., Da Silva-Carballal, J., Garcia-Rio, L., Mejuto, J., and Nunez, A., J., Colloid Interface Sci., 2006, no. 295, p. 65.

  20. Fontes, M.P.F. and Weed, S.B., Geoderma, 1996, no. 72, p. 37.

  21. Yuan, G., and Lavkulich, L.M., Soil Sci. Soc. Am. J., 1994, no. 58, p. 343.

  22. McLaughlin, J.R, Ryden, J.C., and Syers, J.K., J. Soil Sci., 1981, no. 32, p. 365.

  23. Parfitt, R.L., Fraser, A.R., Russell, J.D., and Farmer, V.C., J. Soil Sci., 1977, no. 28, p. 40.

  24. Saha, U.K., Hiradate, S., and Inoue, K., Soil Sci. Soc. Am. J., 1998, no. 62, p. 922.

  25. Herbillon, A.J., in Iron in Soils and Clay Minerals, Dordrecht: Reidel, 1988, pp. 251–266.

    Google Scholar 

  26. Helyar, K.R., Munns, D.N., and Burau, R.G., J. Soil Sci., 1976, no. 27, p. 315.

  27. Beylar, J., Jr. and Bush, D., in Khimiya Koordinatsionnyh Soedinenij (Chemistry of Coordination Compounds), Moscow: Izd. Inostrannaya Literatura, 1960, pp. 7–86.

    Google Scholar 

  28. Rollinson, K., in Khimiya Koordinatsionnyh Soedinenij (Chemistry of Coordination Compounds), Moscow: Izd. Inostrannaya Literatura, 1960, pp. 379–398.

    Google Scholar 

  29. Kostromina, N.A., Kumok, V.N., and Skorik, N.A., Khimiya Koordinatsionnyh Soedinenij (Chemistry of Coordination Compounds), M.: Vysshaya shkola, 1990.

    Google Scholar 

  30. Basolo, F. and Pearson, R., Mehanizmy Neorganicheskih Reaktsij: Izuchenie Kompleksov Metallov v Rastvore (Mechanisms of Inorganic Reactions: Study of Metal Complexes in Solution), Moscow: Mir, 1971.

    Google Scholar 

  31. Parfitt, R.L. and Russell, J.D., J. Soil Sci., 1977, no. 28, p. 297.

  32. Stumm, W., Kummert, R., and Sigg, L., Croat.Chem. Acta, 1980, no. 53, p. 291.

  33. Mott, C.J.B., in: The Chemistry of Soil Processes, Chichester-N.Y.: Wiley-Sons, 1981, pp. 179–219.

    Google Scholar 

  34. Goldberg, S. and Sposito, G., Soil Sci. Soc. Am. J., 1984, no. 48, p. 772.

  35. Okazaki, M., Sakaidani, K., Saigusa, T., and Sakaida, N., Soil Sci. Plant Nutr., 1989, no. 35, p. 337.

  36. Kudeyarova, A.Yu., Agrokhimia, 1991, no. 5, p. 125.

  37. Troitskaya, A.D., in Reaktsionnaya Sposobnost` Koordinatsionnyh Soedinenij (Chemical Reactivity of Coordination Compounds), Moscow: Nauka, 1976, pp. 7–19.

    Google Scholar 

  38. Harsh, J.B. and Doner, H.E., Geoderma, 1985, no. 36, p. 45.

  39. Kuo, S., Soil Sci. Soc. Am. J., 1986, no. 50, p. 1412.

  40. Manning, B. and Goldberg, S., Soil Sci. Soc. Am. J., 1996, no. 60, p. 121.

  41. Koski-Vahala, J. and Hartikainen, H., J. Environ. Qual., 2001, no. 30, p. 960.

  42. Komkov, Yu.A., Ivanov, M.A., Shagisultanova, G.A., and Yakovlev, Yu.B., Zh. Neorg. Khimii, 1982, no. 27, p. 2547.

  43. Van Weser, D.R., Phosphorus and its Compounds, Moscow: Izd. Inostrannaya Literatura, 1962.

    Google Scholar 

  44. White, R.E. and Taylor, A.W., J. Soil Sci., 1977, no. 28, p. 314.

  45. Riemsdijk, W.H., Boumans, L.J.M., and de Haan, F.A.M., Soil Sci. Soc. Am. J., 1984, no. 48, p. 537.

  46. Nanzyo, M., J. Soil Sci., 1984, no. 35, p. 63.

  47. Villapando, R.R. and Graetz, D.A., Soil Sci. Soc. Am. J., 2001, no. 65, p. 331.

  48. Laverdiere, M., Can. J. Soil Sci., 1982, no. 62, p. 519.

  49. Ryden, J.C., Syers, J.K., and McLaughlin, J.R., J. Soil Sci., 1977, no. 28, p. 62.

  50. Ryden, J.C., McLaughlin, J.R., and Syers, J.K., J. Soil Sci., 1977, no. 28, p. 72.

  51. Lapina, L.M. and Grishina, I.A., in Rastvorimost’ Alyumoammonijfosfatov v Rastvore Fosfatov Ammoniya. Mineral`nye Udobreniya i Sernaya Kislota (Mineral Fertilizers and Sulfuric Acid), Moscow: NIUIF, 1973, no. 221, pp. 56–62.

    Google Scholar 

  52. Kudeyarova, A.Yu. and Trubin, A.I., Pochvovedenie, 1978, no. 5, p. 137.

  53. Lehr, J.R., Brown, E.H., Frazier, A.W., Smith, J.P., and Thrasher, R.D., Chem. Eng. Bull., 1967, no. 6, p. 166.

  54. Wilson, M.J. and Bain, D.C., Amer. Miner., 1976, no. 61, 1027.

  55. Qureshi, R.H., Jenkins, D.A., and Davies, R.I., Soil Sci. Soc. Am. J., 1978, no. 42, p. 698.

  56. Savenko, A.V., Baturin, G.N., and Golubev, S.V., Geokhimia, 2005, no. 11, p. 1235.

  57. Kudeyarova, A.Yu. and Trubin, A.I., Pochvovedenie, 1976, no. 11, p. 108.

  58. Kudeyarova, A.Yu., in Ekologicheskie Problemy Primeneniya Udobrenij (Ecological Problems of Fertilizer Application), Moscow: Nauka, 1984, pp. 61–124.

    Google Scholar 

  59. Mattsel, V. and Richter, V., in Reports of Foreign Participants to the VIII Internat. Congr. Mineral Fertilizers, Moscow: Vneshtorgizdat, 1976, no. 4, pp. 50–58.

    Google Scholar 

  60. Nikolskaya, L.E., in Reaktsionnaya Sposobnost` Koordinatsionnyh Soedinenij (Chemical Reactivity of Coordination Compounds), Moscow: Nauka, 1976, pp. 44–57.

    Google Scholar 

  61. Nesmeyanov, A.N., Issledovaniya v Oblasti Organicheskoj Khimii (Studies on Organic Chemistry), Moscow: Nauka, 1971.

    Google Scholar 

  62. Alexandrova, L.N., Organicheskoe Vecshestvo Pochvy i Protsessy ego Transformatsii (Organic Matter of Soil and the Processes of its Transformation), Leningrad: Nauka, 1980.

    Google Scholar 

  63. Orlov, D.S., Khimia Pochv (Soil Chemistry), Moscow: Izdanie Moskovskogo Gosudarstvennogo Universiteta, 1992.

    Google Scholar 

  64. Becker, G., Vvedenie v Elektronnuyu Teoriyu Organicheskih Reaktsij (Introduction to Electron Theory of Organic Reactions), Moscow: Mir, 1965.

    Google Scholar 

  65. Ingold, K., Teoreticheskie Osnovy Organicheskoj Khimii (Theoretical Fundamentals of Organic Chemistry), Moscow: Mir, 1973.

    Google Scholar 

  66. Neiland, O.Ya., Organicheskaya Khimiya (Organic Chemistry), Moscow: Vysshaya Shkola, 1990.

    Google Scholar 

  67. Reutov, O.A., Beletskaya, I.P., and Sokolov, V.I., Mehanizmy Reaktsij Metalloorganicheskih Soedinenij (Mechanisms of Reactions of Organometallic Compounds), Moscow: Khimia, 1972.

    Google Scholar 

  68. Ivanov, I.A., and Ivanov, A.I., Agrokhimia, 2000, no. 2, p 22.

  69. Ahti, E., Commun. Inst. Forest. Fenn., 1983, no. 111, p. 1.

  70. Kudeyarova, A.Yu., Euras. Soil Sci., 2007, no. 40, p. 934.

  71. Stetsenko, A.I., in Reaktsionnaya Sposobnost’ Koordinatsionnyh Soedinenij (Chemical Reactivity of Coordination Compounds), Moscow: Nauka, 1976, pp. 58–90.

    Google Scholar 

  72. Kudeyarova, A.Yu., Euras. Soil Sci., 2000, no. 33, p. 4876.

  73. Kudeyarova, A.Yu., Euras. Soil Sci., 2004, no. 37, p. 937.

  74. Kaurichev, I.S. and Nozdrunova, E.M., Pochvovedenie, 1960, no. 12, p. 30.

  75. Samuelson, O., Ionoobmennye Razdeleniya v Analiticheskoj Khimii (Ion-exchange Separations in Analytical Chemistry), Leningrad: Khimia, 1966.

    Google Scholar 

  76. Lurie, A.A., Agrokhimia, 1964, 1 no. 1, p. 80.

    Google Scholar 

  77. Murphy, J., and Riley, J.P., Anal. Chim. Acta, 1962, no. 27, p. 31.

  78. Kudeyarova, A.Yu., Euras. Soil Sci., 2001, no. 34, p 1180.

  79. Kudeyarova, A.Yu., Agrokhimia, 2007, no. 11, p. 71.

  80. Kudeyarova, A.Yu., Euras. Soil Sci., 2008, no. 41, p. 953.

  81. Shulman, V.M., in Reaktsionnaya Sposobnost` Koordinatsionnyh Soedinenij (Chemical Reactivity of Coordination Compounds), Moscow: Nauka, 1976, pp. 20–43.

    Google Scholar 

  82. Tikhonova, L.P., in Biologicheskie Aspekty Koordinatsionnoj Khimii (Biological Aspects of Coordination Chemistry), Kiev: Naukova Dumka, 1979, pp. 121–148.

    Google Scholar 

  83. Grinberg, A.A., Vvedenie v Khimiyu Kompleksnyh Soedinenij (Introduction into the Chemistry of Complex Compounds), Leningrad: Khimia, 1971.

    Google Scholar 

  84. Brested, R. and Cooley, V., in Khimiya Koordinatsionnyh Soedinenij (Chemistry of Coordination Compounds), Moscow: Izd. I.L., 1960, pp. 474–525.

    Google Scholar 

  85. Popov, Yu.P. and Litvinov, V.P., Izv. Acad. Nauk SSSR, Ser. Khim., 1979, no. 1, p. 64.

  86. Sverdlova, O.V., Elektronnye Spektry v Organicheskoj Khimii (Electronic Spectra in Organic Chemistry), Leningrad: Khimia, 1985.

    Google Scholar 

  87. Berenblum, I. and Chain, E., Biochem. J., 1938, no. 32, p. 295.

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Original Russian Text © A.Yu. Kudeyarova, 2009, published in Ekologicheskaya Khimiya, 2009, Vol. 18, no. 4, pp. 202–221.

Agniya Yul’evna Kudeyarova, Dr. Sci. (Biol.), Leading Researcher, Laboratory of geochemistry and mineralogy of soils, Institute of Physicochemical and Biological problems of Soil Science, Russian Academy of Sciences. Scientific areas of focus: biogeochemical cycles of phosphorus and carbon, ecological consequences of chemical soil pollution.

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Kudeyarova, A.Y. Mechanisms of the formation of the soluble phosphorus containing compounds in acid phosphatized soils. Russ J Gen Chem 80, 2704–2720 (2010). https://doi.org/10.1134/S1070363210130049

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  • DOI: https://doi.org/10.1134/S1070363210130049

Keywords

  • Humus
  • General Chemistry
  • Fulvic Acid
  • Complex Anion
  • Peat Soil