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Diagnostic horizons in the Russian soil classification system

  • Genesis and Geography of Soils
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Abstract

The analysis of the responses of users of the substantive-genetic Russian soil classification system revealed some problems concerning the genetic (diagnostic) horizons. Applying horizons is essential since soil diagnostics are based on their identification and their combinations in soil profiles. In the recent Russian system, there are many diagnostic horizons, and their recognition is not always easy. This review is aimed at displaying the main elements and the genetic essence of the horizons, as well as the reasons to choose the diagnostic criteria and parameters for most of them. The horizons are grouped into genetic sets, and the specific properties of the horizons are emphasized, as well as the differences between the horizons and the feasibility to introduce new horizons. A rough comparison of the diagnostic horizons in the Russian and WRB systems revealed the considerable similarity of the taxa, whose definitions depend on the presence of the diagnostic horizons: these are the orders and soil reference groups, respectively.

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References

  1. E. A. Afanas’eva, “On the Genesis and Evolution of Chernozemic Soils,” Pochvovedenie, No. 6, 379–384 (1946).

  2. A. I. Bessonov, Soil Cover of Samara Gubernia (Gubizdat, Samara, 1924) [in Russian].

    Google Scholar 

  3. G. N. Vysotskii, “Steppe Illuvium and Structure of Steppe Soils,” Pochvovedenie, No. 2, 153–173 (1902).

  4. V. I. Volkovintser, Steppe Cryoarid Soils (Nauka. Sib. otd, Novosibirsk, 1978) [in Russian].

    Google Scholar 

  5. I. P. Gerasimov, “An Experience in the Genetic Diagnostics of Soils on the Basis of Elementary Soil Processes,” Pochvovedenie, No. 65, 3–9 (1975).

  6. I. P. Gerasimov, “Elementary Soil Processes as the Basis for the Genetic Diagnostics of Soils,” Pochvovedenie, No. 5, 102–113 (1973).

  7. M. I. Gerasimova and A. K. Evdokimova, “Studies of the Soil Cover Heterogeneity in the Areas of Soddy-Podzolic Soils of Secondary Moraine Plains,” Vestn. Mosk. Univ., Ser. Geogr., No. 3, 54–60 (1978).

  8. M. I. Gerasimova, V. D. Tonkonogov, and I. I. Lebedeva, “The Concept of Elementary Soil Processes in the New Classification System of Russian Soils using the Example of Metamorphic Horizons,” Eur. Soil Sci. 38(12), 1329–1335 (2005).

    Google Scholar 

  9. M. A. Glazovskaya and I. A. Gorbunova, “Genetic Analysis and Classification of Brown Arid Soils,” Eur. Soil Sci. 35(11), 1139–1148 (2002).

    Google Scholar 

  10. A. I. Gogolev, Extended Abstract of Candidate’s Dissertation in Biology (Izd. Mosk. Gos. Univ., Moscow, 1987).

    Google Scholar 

  11. S. V. Goryachkin and V. D. Tonkonogov, “Loamy Tundra Soils in the European Territory of Russia: Genesis, Geography, and Classification,” in Soils as a Natural Resource of the North (Materials of the VII Sibirtsev Readings) (Arkhangelsk, 2005), pp. 6–11 [in Russian].

  12. A. B. Gyninova, “Micromorphology of Aggregates from a Meadow Podbel,” in Micromorphology to Genetic and Applied Soil Science (Tartu, 1983), p. 67 [in Russian].

  13. E. T. Degtyareva and A. N. Zhulidova, Soils of Volgograd Oblast (Nizhne-Volzhsk. Knizhn. Izd., Volgograd, 1970) [in Russian].

    Google Scholar 

  14. V. V. Dokuchaev, “Russian Chernozem. Popular Essay,” in Selected Works (Izd. Akad. Nauk SSSR, Moscow, 1949), pp. 249–316 [in Russian].

  15. E. V. Zhangurov, V. D. Tonkonogov, and I. V. Zaboeva, “Automorphic Soils of the Central and Southern Timan Ridge,” Eur. Soil Sci. 47(12), 1247–1255 (2008).

    Article  ADS  Google Scholar 

  16. L. I. Iozefovich, Soils of Stalingrad District (Moscow, 1929) [in Russian].

  17. Classification and Diagnostic System of Russian Soils (Oikumena, Smolensk, 2004) [in Russian].

  18. Classification and Diagnostics of Soils of the Soviet Union (Kolos, Moscow, 1977) [in Russian].

  19. Classification System of Russian Soils (Moscow, 1997) [in Russian].

  20. I. I. Lebedeva and S. V. Ovechkin, “Carbonate Pedofeatures in Chernozems of the Left-Bank Ukraine,” Pochvovedenie, No. 11, 14–30 (1975).

  21. I. I. Lebedeva and S. V. Ovechkin, “Pore Space and Modern Migration of CaCO3 in Chernozems,” Byul. Pochv. Inst. im. V.V. Dokuchaeva 51, 57–59 (1989).

    Google Scholar 

  22. I. I. Lebedeva, “Some Aspects of the Classification of Chernozems,” Pochvovedenie, No. 1, 29–38 (1990).

  23. I. I. Lebedeva, V. D. Tonkonogov, and M. I. Gerasimova, “Geographical Aspects of Soil Memory in Mesomorphic Soils of Some Eurasian Regions,” Eur. Soil Sci. 35(1), 30–41 (2002).

    Google Scholar 

  24. I. I. Lebedeva and V. D. Tonkonogov, “Memory of Genetic Horizons and of the Soil Profile,” in Soil Memory, (URSS, Moscow, 2008), pp. 162–181 [in Russian].

  25. V. N. Mikhailichenko, Halogenesis and Solonetzization of Soils in the Plains of Northern Kazakhstan (Nauka, Alma-Ata, 1979) [in Russian].

  26. Field Guide on Correlation of Russian Soils (Pochv. Inst. im. V.V. Dokuchaeva, Moscow, 2008), p. 182 [in Russian].

  27. A. N. Polyakov, “Micromorphology of Chernozems of the Russian Plain and Its Meaning for the Diagnostics and Classification of Chernozems,” Byul. Pochv. Inst. im. V.V. Dokuchaeva 28, 29–31 (1981) [in Russian].

    Google Scholar 

  28. A. N. Polyakov, “Major Features of the Microfabric of Chernozems in Central Chernozemic Regions,” Pochvovedenie, No. 5 (1978).

  29. N. I. Polupan, “Southern Chernozems,” in Soils of Ukraine and Improvement of Their Fertility (Urozhai, Kiev, 1988), pp. 200–216 [in Russian].

  30. L. I. Prasolov, “Soils of Upland Steppes of the Trans-Volga Region as the Objects of Irrigation,” in Report of the Nizhnevolzhskaya Expedition of the Academy of Sciences (Tr. Komissii po Irrigatsii, No. 1, 65–70 (Izd. Akad. Nauk SSSR, Moscow, 1933) [in Russian].

    Google Scholar 

  31. Program of the Soil Map of the Russian Federation on a Scale of 1: 2.5 M (Pochv. Inst. im. V.V. Dokuchaeva, Moscow, 1972) [in Russian].

  32. V. V. Rogov, Basics of the Theory of Cryogenesis, Ed. by V. N. Konishchev (GEO, Novosibirsk, 2009) [in Russian].

    Google Scholar 

  33. T. A. Rozhnova, “On the Provincial Specificity of Podzolization on Sandy Substrates,” Pochvovedenie, No. 8, 1–7 (1964).

  34. N. M. Sibirtsev, Selected Works, Vol. 1 Pedology (Sel’khozgiz, Moscow, 1951) [in Russian].

    Google Scholar 

  35. I. A. Sokolov, Volcanism and Soil Formation (Nauka, Moscow, 1971) [in Russian].

    Google Scholar 

  36. I. A. Sokolov, “Granuzems: Nondifferentiated Taiga Soils Developing from Loamy Derivatives of Mafic Rocks,” Proc. X Intern. Soil Sci. Congress, Vol. 6 (Moscow, 1974), pp. 193–205 [in Russian].

  37. I. A. Sokolov, “On the Diverse Manifestation of Hydromorphic Nongley Pedogenesis,” Pochvovedenie, No. 2, 5–18 (1980).

  38. I. A. Sokolov, E. M. Naumov, B. P. Gradusov, T. V. Tursina, and I. G. Tsyurupa, “Ultracontinental Taiga Pedogenesis on Calcareous Loams in Central Yakutia,” Pochvovedenie, No. 4, 11–28 (1976).

  39. A. N. Sokolovskii, Agricultural Soil Science (Sel’khozgiz, Moscow, 1956) [in Russian].

    Google Scholar 

  40. V. D. Tonkonogov, Automorphic Pedogenesis in Tundra and Taiga Zones of the East European and West Siberian Plains (Pochv. Inst. im. V.V. Dokuchaeva, Moscow, 2010) [in Russian].

    Google Scholar 

  41. V. D. Tonkonogov, “The First Russian Version of the World Reference Base for Soil Resources (WRB),” Eur. Soil Sci. 41(6), 660–663 (2008).

    Article  ADS  Google Scholar 

  42. V. D. Tonkonogov, M. I. Gerasimova, and I. I. Lebedeva, “Classification of Russian Soils: 1997–2004–2008,” Gruntoznavstvo 9(3–4), 142–147 (2008).

    Google Scholar 

  43. V. D. Tonkonogov, S. V. Goryachkin, and A. V. Pastukhov, “Major Types of the Profiles of Loamy Tundra Soils in the European Northeast,” in Materials of the IV All-Russia Soil Sci. Congress (Novosibirsk, 2004), Vol. 2, p. 223 [in Russian].

    Google Scholar 

  44. V. D. Tonkonogov, I. I. Lebedeva, and M. I. Gerasimova, “Diagnostic Horizons in Substantive-Genetic Soil Classification Systems,” Eur. Soil Sci. 32(9), 959–965 (1999).

    Google Scholar 

  45. Guidelines on Classification and Diagnostics of Soils (Kolos, Moscow, 1967) [in Russian].

  46. N. I. Usov, Soils of Saratov Oblast (Oblgiz, Saratov, 1948), Vol. 1 [in Russian].

    Google Scholar 

  47. V. M. Fridland, Major Principles and Elements of the Basic Classification of Soils and Program of Works on Its Development (Moscow, 1982) [in Russian].

  48. N. B. Khitrov, Genesis, Diagnostics, Properties, and Functioning of Swelling Clayey Soils in the Central Cis-Caucasus (Moscow, 2003) [in Russian].

  49. N. B. Khitrov, “Vertigenesis in Soils of the Central Chernozemic Region of Russia,” Eur. Soil Sci. 45(9), (2012).

  50. Chernozems of the Soviet Union (Ukraine) (Kolos, Moscow, 1981) [in Russian].

  51. Elementary Pedogenetic Processes (Nauka, Moscow, 1992) [in Russian].

  52. P. Bullock, “The Zone of Eluvial-Illuvial Interface Degradation of Some New-York Soils,” (Cornell Univ., Ithaca, 1968).

    Google Scholar 

  53. Chinese Soil Taxonomy, Ed. by Li Ferg (Science Press, Beijing-New York, 2001).

    Google Scholar 

  54. E. A. Fitzpatrick, Soil Horizon Diagnostic and Classifiation (ISRIC, Wageningen, 1988).

    Google Scholar 

  55. Guidelines for Soil Description (FAO, Rome. 2006).

  56. M. P. Lebedeva (Verba) and M. I. Gerasimova, “Micromorphology of Diagnostic Horizons in Aridic Soils (Complementary to the New Classification System of Soils of Russia),” Eur. Soil Sci. 42(13), 1427–1434 (2009).

    Article  ADS  Google Scholar 

  57. Soil Map of the Word. Revised Legend (FAO-UNESCO-SRIC, Rome, 1988).

  58. Soil Taxonomy. A Basic System of Soil Classification for Making and Interpreting Soil Surveys, Second ed., Agric. Handbook 436 (Washington, DC, 1999).

  59. World Reference Base for Soil Resources, 2006. First Update 2007 (World Soil Resources Report No. 103 (FAO, Rome, 2007).

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Authors and Affiliations

  1. Dokuchaev Soil Science Institute, Russian Academy of Agricultural Sciences, per. Pyzhevskii 7, Moscow, 119017, Russia

    I. I. Lebedeva & M. I. Gerasimova

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  1. I. I. Lebedeva
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  2. M. I. Gerasimova
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Correspondence to M. I. Gerasimova.

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Original Russian Text © I.I. Lebedeva, M.I. Gerasimova, 2012, published in Pochvovedenie, 2012, No. 9, pp. 923–934.

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Lebedeva, I.I., Gerasimova, M.I. Diagnostic horizons in the Russian soil classification system. Eurasian Soil Sc. 45, 823–833 (2012). https://doi.org/10.1134/S1064229312090086

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