Description:
1. Bel’gard, A. L. (1971). Stepnoe lesovedenie [Steppe forestry]. Forest industry, (in Russian).
2. Belova, N. A., & Travleev, A. P. (2009). Estestvennye lesa і stepnyepochvy (jekologija, mikromorfologija, genezis) fForest, and steppe soil (ecology, micromorphology, genesis)]. Dnipropetrovsk State University Publishing House, (in Russian).
3. Bronger, A., & Smolfkova. L. (2019). Quaternary loess-paleosol sequences in East and Central Asia in comparison with Central Europe — micromorphological and paleoclimatological conclusions. Boletm de la Sociedad Geolôgica Mexicana, 71 (1), 65–92. http://dx.doi.org/10.18268/BSGM2019v71nla5
4. Komarova, I. (2018). Taraxacum officinale as bioindicator of heavy metal accumulation in soil. Danish Scientific Journal, 8, 10-12. Retrieved from http://www.danish-journal.com/wpcontcnt/uploads/2018/02/DS J_8.pdf
5. Mazureka, R., Kowalskaa, J., G^sioreka, M., & Setlak, M. (2016). Micromorphological and physico-chemical analyses of cultural layers in the urban soil of a medieval city — a case study from Krakow, Poland. Catena, 141, 73-84. https://doi.Org/10.1016/j.catena.2016.02.026
6. Podolyak, A.G., & Karpenko, A. F. (2019). Med v pahotnoy i lugovoy pochve Gomelschinyi [Copper in arable and meadow soils of Gomel region], Ekololiichnyi visnyk Kryvorizhzhia [Ecological Bulletin of Kryvyi Rih District], 4, 56-66. https://doi.org/10.31812/eco-bulletinkrd. v4i0.2560 (in Russian).
7. Savosko, V. M. (2016). Tyazhelyie metallyi v pochvah Krivbassa [Heavy Metals in Soils at Kryvbas]. Dionat. (in Russian).
8. Switoniak, M., Mroczekb P., & Bednareka, P. (2016). Luvisols or Cambisols? Micromorphological study of soil truncation in young morainic landscapes – Case study: Brodnica and Chehnno Lake Districts (North Poland). Catena, 1ST, 583-595. https://doi.Org/10.1016/j.catena.2014.09.005
9. Szymariski,W., Skiba, M., Wojtun, B., & Drewnik, M. (2015). Soil properties, micromorphology, and mineralogy of Cryosols from sorted and unsorted patterned grounds in the Hornsund area, SW Spitsbergen. Geoderma, 253-254, 1-11. https://doi.Org/10.1016/j.geoderma.2015.03.029
10. Wouters, B., Devos, Y., Vrydaghs, L., Ball, T., De Winter, N., & Reygel, P. (2019). An integrated micromorphological an phytolith study of urban soils and sediments from the Gallo-Roman town Atuatuca Tungrorum, Belgium. Geoarchaeology, 34 (4), 1–19. https://doi.org/10.1002/gea.21722
11. Yushchuk, Ye. D. (2007). Mikromorfolohiia chornozemnykh gruntiv pid lisovymy nasadzhenniamy Kryvorizhzhia [Micromorphology of chernozem soils under forest plantations at Kryvyi Rih District]. Gruntoznavstvo [Soil science], 8, 1–2,
134–136. (in Ukraine).
12. Yushchuk, Ye. D. (2009). Morfolohichne vyvchennia gruntoutvoriuvalnykh protsesiv pid lisovymy nasadzhenniamy Kryvorizhzhia [Morphological study of soil-forming processes under the afforestation of Krivoj Rog). Gr-untoznavstvo [Soil science], 10, 3-4, 37-41. (in Ukraine).