GENESIS, GEOGRAPHY OF NANOSCOPIC MATTER AND ITS IMPORTANCE FOR FERTILITY AND ECOLOGICAL FUNCTIONING OF SOILS

The questions of using the concepts and methods of nanoscopic research in soil science are considered. These include the concept of nanoscopic particles, fundamental features of nanoscopic substances, genesis and geography of a large number of minerals with pronounced nanoscopic properties in soils. A number of regularities of nanoscopic minerals placement in soils of Russia and neighboring countries have been revealed. The differences between the main soil types from a nanoscopic point of view. The problem of introduction of nanoscopic research methods in soil science is discussed, and the prospects of using nanosized minerals and formations in improvement of land productivity, including fertilizer production and reclamation, as well as assessment of environmental situations, and design of soil protection measures.

1. Vernadskiy, V.I. On the participation of a living substance in the soil creation (in Russian) // Proc. of biogeochemistry and soil geochemistry. Moscow: Science, 1992. С. 282-302.

2. Gedroitz, K.K. Ultramechanical composition of soils and its dependence on a kind of cation (in Russian) // Izbr. С. 387-406.

3. Degrees B.P. Sepiolite and palygorskite from Kurgashinkan // Lithology and minerals. 1968. № 3. С.142-147.

4. Degrees, B.P. X-ray diffractograms and direct Fourier transformations of the diffraction paintings of the mixtures of ilite, mica-smektit and montmorillonite (in Russian) // Izvestia, USSR Academy of Sciences. Serial geological. 1971. №12. С. 86-92.

5. Degrees B.P. Placement of types of changes in mixed-layer formations in soil-forming rocks and soils // Lithology and minerals. 1974. №2. С. 79-86.

6. Degrees B.P. Minerals with mixed-layer structure in soils. M.: Science, 1976. 125 с.

7. Osipov, V.I.; Sokolov, V.N.; Eremeev, V.V. Clay tires of oil and gas fields. Moscow: Nauka, 2001. 238 с.

8. Rateev, M.A.; Degreesov, B.P. Types of the mixed-layer formations of the mica-mormorillonite series in the metabentonites of the Baltic silura-orthodox (in Russian) // Lithology and minerals. 1971. № 2. С. 74-92.

9. Rode, A.A. Soil formation process and evolution of soils (in Russian) // M.: Gos. 141 с.

10. Sadovskiy, M.A.; Bolkhovitinov, L.G.; Pisarenko, V.F. About the rock discreteness property (in Russian) // Physics of the Earth. 1982. №12. С. 3-18.

11. Kholodov, V.N.; Degreesov, B.P.; Chizhikova, N.P. Clay minerals in the Chokrak-Karagan deposits of the eastern pre-Caucasus // Lithology and minerals. 1976. №5. С. 49- 6.

12. Gradusov B.P. Global laws of genesis and geography nanoscopic the near order minerals in soilforming rocks and soil // World Congress of Soil Science. Philadelphia, 2006. P. 96-97.

13. Lei Song, Yuan Hu, Shaofen Wang, Zuyao Chena, Weicheng Fana Study on the solvothermal preparation of polyethylene / organophilic Montmorillonite Nanocomposites // J. Mater. Chem. 2002. V. 12. 3152-3155.

14. Lessovaia S.N., Goilo E.A. Composition and sustainability of smektites nanoparticles in boreal acid soils // World Congress of Soil Science. Philadelphia, 2006. P. 92-95.

15. Nadeau P. H. The physical dimensions of fundamental clay particles // Clay Minerals. 1985. V. 20. P. 499-514.

16. Tessier D. Identification of clay - Data from investigations with strongly hydrated systems // Proc. of 20th colloquium of international potash institute. Wien, 1987. P. 11-43.