ESTIMATION OF HUMUS CONTENT IN THE SOILS OF COAL SECTION RECLAIMED HEAPS IN KUZBASS

On the basis of the approach suggested by the authors and resting on functional characteristics of pedogenic organic substance the content of humus is determined in soil heaps of coal-mining sections reclaimed following different technologies. It is shown that the distribution of nitrogen-containing organic substances across the profile reflects the specificity of organic substances transformation systems in the soils examined. This index is the most reliable in estimating the content of humus in initial embryoearths where nitrogen consumption by plants is minimum and in humus-accumulative ones where pedogenic organic substance is deposited. The humus content increase is revealed in the evolutionary series of soils, on average, from 2.4% in the initial soils to 3.6 and 4.2% in organ-accumulative and cespitose soils, respectively, the 4.7% increase being marked in humus-accumulative embryoearths. The content of humus in embryoearths is identified to depend much more on reclamation technology applied and soil formation stage, the same content depends much less on organic substances system status inherited from soil formation rocks.

hunus, embryoearths, (initial, organ-accumulative, cespitose, humus-accumulative), technogenic landscapes, soil nitrogen, reclamaition, lithogenic organic substance, pedogenic organic substance

1. Geoekologiya ugledobyvayushchikh rayonov Kuzbassa. V.P. Potapov, V.P. Mazikin, E.L. Schastlivtsev, N. Yu. Vashlaeva. Novosibirsk: Nauka, 2005. 660 p.

2. Il’in R.S. K izucheniyu Kuznetskikh uglenosnykh otlozheniy. Vestn. Zap.-Sib. geologorazved. upr. 1931. Vyp. 2. pp. 30–35.

3. Kononova M.M. Organicheskoe veshchestvo pochvy. M.: Izd-vo AN SSSR, 1963. 314 p.

4. Khmelev V.A., Tanasienko A.A. Chernozemy Kuznetskoy kotloviny. Novosibirsk: Nauka, 1983. 256 p.

5. Vsesoyuznaya perepis’ naseleniya 1926 g. M.: TsSU SSSR, 1928. T. II. 309 p.

6. Androkhanov V.A., Kurachev V.M. Pochvenno-ekologicheskoe sostoyanie tekhnogennykh landshaftov: dinamika i otsenka. Novosibirsk: Izd-vo SO RAN, 2010. 224 p.

7. Gumusoobrazovanie v tekhnogennykh ekosistemakh. Novosibirsk: Nauka. Sib. otd-nie, 1986. 165 p.

8. Kostenkov N.M., Purtova L.N. Obshchie zakonomernosti formirovaniya pochv na otval’nykh porodakh i ikh gumusovoe sostoyanie. Vestn. KrasGAU. 2009. № 6. pp. 17–23.

9. Komachkova I.V., Purtova L.N. Gumusnoe sostoyanie i energozapasy pochv tekhnogennykh landshaftov yuga Primor’ya. Vestn. TGU. Biologiya. 2012. № 3. pp. 7–17.

10. Shugaley L.S., Gorbunova Yu.V. Formirovanie gumusovoy sistemy initsial’nykh pochv tekhnogennykh landshaftov pod kul’turami sosny. Vestn. KrasGAU. 2006. № 5. pp. 79–86.

11. Polokhin O.V. Gumusnoe sostoyanie molodykh pochv tekhnogennykh landshaftov. Vestn. KrasGAU. 2010. № 10. pp. 40–44.

12. Fatkulin F.A. Organicheskoe veshchestvo molodykh pochv tekhnogennykh ekosistem Kuzbassa: avtoref. dis. … kand. biol. nauk. Novosibirsk, 1988. 17 p.

13. Dvurechenskiy V.G. Osobennosti soderzhaniya gumusa v embriozemakh tekhnogennykh landshaftov i v zonal’noy pochve lesostepnoy zony Kuzbassa. Sib. ekolog. zhurn. 2011. № 5. pp. 471–477.

14. Makhonina G.I. Ekologicheskie aspekty pochvoobrazovaniya v tekhnogennykh ekosistemakh Urala. Ekaterinburg: Izd-vo Ural. un-ta, 2003. 356 p.

15. Quantification of lignite- and vegetation-derived soil carbon using 14Cactivity measurements in a forested chronosequence. C. Rumpel, J. Balesdent, P. Grootes [et al.]. Geoderma. 2003. № 112. pp. 155–166.

16. Ussiri D.A.N., Lal R. Method for determining coal carbon in the reclaimed minesoils contaminated with coal. Soil science society of America journal. 2008. № 72. pp. 231–237.

17. Morphological and chemical properties of black carbon in physical soil fractions as revealed by scanning electron microscopy and energy-dispersive X-ray spectroscopy. S. Brodowski, W. Amelung, L. Haumaier [et al.]. Geoderma. 2005. № 128. pp. 116–129.

18. Comparative analysis of black carbon in soils. M.W.I. Schmidt, J.O. Skjemstad, C.I. Czimczik [et al.]. Global Biogeochemical Cycles. 2001. № 15. pp. 163–167.

19. Sokolov D.A. Okislitel’no-vosstanovitel’nye protsessy v pochvakh tekhnogennykh landshaftovikov: avtoref. dis. … kand. biol. nauk. Novosibirsk, 2009. 17 p.

20. Semina I.S. Otsenka i ratsional’noe ispol’zovanie prirodnykh resursov dlya rekul’tivatsii pochv v gornotaezhnoy zone Kuzbassa: avtoref. dis. … kand. biol. nauk. Novosibirsk, 2011. 19 p.

21. Sokolov D.A. Spetsifika opredeleniya organicheskikh veshchestv pedogennoy prirody v pochvakh tekhnogennykh landshaftov Kuzbassa. Vestn. TGU. Biologiya. 2012. № 2 (18). pp. 17–25.

22. Ussiri D.A.N., Lal R. Methods for determination of coal carbon in reclaimed minesoils. Geoderma. 2014. № 214. pp. 155–167.

23. Tyurin I.V. Organicheskoe veshchestvo pochv i ego rol’ v pochvoobrazovanii i plodorodii. Uchenie o pochvennom gumuse. M.: Sel’khozgiz, 1937. 287 p.

24. Ugol’naya baza Rossii. T. 2: Ugol’nye basseyny i mestorozhdeniya Zapadnoy Sibiri (Kuznetskiy, Gorlovskiy, Zapadno-Sibirskiy basseyny; mestorozhdeniya Altayskogo kraya i Respubliki Altay). M.: OOO «Geoinformtsentr», 2003. 604 p.

25. Kommisarov I.D., Loginov L.F. Strukturnaya skhema i modelirovanie makromolekul guminovykh kislot. Guminovye preparaty: nauch. tr. Tyumen. SKhI. 1971. T. 14. pp. 131–142.

26. Gadzhiev I.M., Kurachev V.M. Ekologiya i rekul’tivatsiya tekhnogennykh landshaftov. Novosibirsk: Nauka. Sib. otd-nie, 1992. 305 p.

27. Agrokhimicheskie metody issledovaniya pochv. M.: Nauka, 1975. 436 p.