[BELIK, A.V. – DEVYATOVA, T.A. – BOZHKO, S.N. – GORBUNOVA, Yu. S. 2016. The Infield Varietu of Available Forms in the Forest-steppe of Western Part Central Chernozemic Region. In. Geophysical Research Abstracts, vol. 18, 2016, p. 7190.]Search in Google Scholar
[CLIMATE RESOURCES of Central Chernozem, Bryansk and Orel Regions. 1978. Leningrad : Gidrometeoizdat, 1978. pp. 5–9.]Search in Google Scholar
[DEVYATOVA, T.A. 2006. Anthropogenic dynamics and biodiagnostics of ecological state of chernozems of the Central Chernozem Region : dissertation ... of Doctor of Biology : 03.00.27, 03.00.16. 2006. 403 p.]Search in Google Scholar
[DEVYATOVA, T.A. – GORBUNOVA, YU.S. – GRIGORJEVSKAYA, A.Ya. 2014. Modern evolution of soils and flora of the Russian Plain forest-steppe after forest fires: monograph. Voronezh : Nauchnaya Kniga, 2014. 259 pp.]Search in Google Scholar
[GORBUNOVA, YU.S. – DEVYATOVA, T.A. 2013. Change of leached chernozem agrochemical properties in case of forest fire. In Agrochemical Herald, 2013, no. 3, pp. 45–46.]Search in Google Scholar
[GORBUNOVA, YU.S. – DEVYATOVA, T.A. – GRIGORJEVSKAYA, A.Ya. 2014. Influence fire on the soil and vegetable cover of the woods of the Central Chernozem region of Russia. In Aridnye Ekosistemy, vol. 20, 2014, no. 4 (61), pp. 92–103.]Search in Google Scholar
[GORBUNOVA, YU.S. – DEVYATOVA, T.A. 2013. The changes chemical composition of chernozem leaching under pirogenic influence. Proceedings of VSU, Series: Chemistry. In Biology. Pharmacy, 2013, no. 1, pp. 9–14.]Search in Google Scholar
[GOST 17.4.4.02-84 Environmental protection. Soil. Methods for sampling and preparation of soil for chemical, bacteriological and helminthological analysis. Electronic resource: http://www.ecoekspert.ru/art/JV2orm/54.html]Search in Google Scholar
[KARPACHEVSKY, L.O. – Rozhkov, V.A. – Karpachevsky, M.L. – Shvidenko, A.Z. 1996. Forest, soil and forest pedology. In Pedology, 1996, no. 5, pp. 587–598.]Search in Google Scholar
[MILKOV, F.N. – MIKHNO, V.B. – POROSENKOV, YU.V. 1994. Georgrapgy of Voronezh Region. Voronezh : Voronezh State University, 1994, 130 p.]Search in Google Scholar
[PND F 16.1:2:2.2.63-09. Methods of measurements of mass fraction of mobile forms of metals (zinc, copper, nickel, manganese, lead, cadmium, chromium, iron, aluminium, titanium, cobalt, arsenic, vanadium) in soils, waste, composts, sewage sludge applying the atomic emission method with the atomization in inductively couple argon plasma. Electronic resource: http://www.lumex.ru/metodics/09AR01.05.29-1.pdf]Search in Google Scholar
[SHAPCHENKOVA, O.A. – KRASNOSHCHEKOV, YU.N. – LOSKUTOV, S.R. 2011. Application of the methods of thermal analysis for the assessment of organic matter in postpyrogenic soils. In Pedology, 2011, no. 6, pp. 738–747.]Search in Google Scholar
[TARASOV, P.A. – IVANOV, V.A. – IVANOVA, G.A. – KRASNOSHCHEKOVA, E.N. 2011. Post-pyrogenic changes in the hydrothermal parameters of soils in middle-taiga pine forests. In Pedology, 2011, no. 7, pp. 795–803.]Search in Google Scholar
[VOROBYOVA, L.A. 1998. Soil chemical analysis. Moscow : MSU, 1998, 272 p.]Search in Google Scholar