[Albenskiy, A.V. 1959. Tree breeding and seed production.(in Russian). Goslesbumizdat Press, Moscow-Leningrad, USSR.]Search in Google Scholar
[Bilous, V.I. 2004. Tree breeding and seed production of English oak (in Ukrainian). NIITEHIM Press, Cherkasy, Ukraine.]Search in Google Scholar
[Brummer, C., et al. 2011. Plant breeding for harmony between agriculture and the environment. Frontiers in Ecology and the Environment, 9, 10. doi:10.1890/10022510.1890/100225]Open DOISearch in Google Scholar
[CIA-The world Fact book. 2012. Cia.gov.Retrieved (accessed August 1, 2018).]Search in Google Scholar
[Crow, T.R., Dey, D.C. 2006. Forest Productivity: Producing Goods and Services for People. North Central Research Station U.S. Department of Agriculture – Forest Service, Saint Paul, Minnesota.10.2737/NC-GTR-246]Search in Google Scholar
[Debrynyk, Yu.M., Kalinin, M.I. 1998. Forest seed production (in Ukrainian). Svit, Lviv, Ukraine.]Search in Google Scholar
[Ehrenberg, C.E. 1966. Parent-progeny relationship in Scots pine (Pinus silvestris L.). Results from three progeny tests with plus and minus tree progenies in southern Sweden. Studia Forestalia Suecica, 40, 1–53.]Search in Google Scholar
[Eriksson, G., Ekberg, I., Clapham, D. 2006. An introduction to forest genetics. Genetic Center, Swedish University of Agricultural Sciences, Uppsala.]Search in Google Scholar
[Eriksson, G., Namkong, G., Roberds, J. 1995 Dynamic conservation of forest tree gene resources. Forest Genetic Resources, 23, 4–7.]Search in Google Scholar
[Falconer, D.S., Mackay, T.F.C. 1996. Introduction to quantitative genetics. Longman.]Search in Google Scholar
[Giertych, M. 1988. Interakcja genotypu ze środowiskiem oraz z wiekiem polskich proweniencji sosny zwyczajnej (Pinus sylvestris L.). Arboretum Kórnickie, 32, 159–169.]Search in Google Scholar
[Hamann, A., Gylander, T., Chen, P. 2011. Developing seed zones and transfer guidelines with multivariate regression trees. Tree Genetic and Genomes, 7, 399–408. doi:10.1007/s11295-010-0341-710.1007/s11295-010-0341-7]Open DOISearch in Google Scholar
[Hensiruk, S.A. 2002. Forests of Ukraine. Third edition (in Ukrainian with English summary). NVF «Ukrayins’ki tekhnolohiyi», Lviv, Ukraine.]Search in Google Scholar
[Kowalczyk, J. 2005. Comparison of phenotypic and genetic selections in Scots pine (Pinus sylvestris L.) single tree plot half-sib progeny tests. Dendrobiology, 53, 45–56.]Search in Google Scholar
[Krynytskiy, H.T. 2002. Methodological bases of morpho-physiological direction in forest tree breeding (in Ukrainian with English summary). Scientific Works of the Forestry Academy of Sciences of Ukraine, 1, 43–49.]Search in Google Scholar
[Lindgren, D., Mullin, T.J. 1988. Relatedness and status number in seed orchard crops. Canadian Journal of Forest Research, 28, 276–283.10.1139/x97-217]Open DOISearch in Google Scholar
[Lines, R.L. 1992 Choice of seed origin by species. Seed manual for forest trees. Forestry Commission Bulletin, 83, 8–22.]Search in Google Scholar
[Los, S.A. 2016. Results of 50-year testing of progenies of English oak plus-trees and best trees. Forestry and Agroforestry, 128, 3–11.]Search in Google Scholar
[Los, S.A., et al. 2014. State of forest genetic resources in Ukraine. Planeta-Print, Kharkiv, Ukraine.]Search in Google Scholar
[Mullin, T.J., Lee, S.J. 2013. Best practice for tree breeding in Europe. Uppsala Science Park, Uppsala.]Search in Google Scholar
[Namkoong, G. 1976. Introduction to quantitative genetics in forestry. Technical Bulletin No. 1588. Forest Service United States Department of Agriculture. Washington, D.C.]Search in Google Scholar
[Vasylevskiy, O.H., Neyko, I.S. 2015. Features of implementation of the State program for the development of forest seed base in the central part of Ukraine (in Ukrainian). Scientific Bulletin VNAU, 3, 251–254.]Search in Google Scholar
[Nilsson, J.E., Andersson, B. 1987. Performance in freezing tests and field experiments of full-sib families of Pinus sylvestris L. Canadian Journal of Forest Research, 17, 1340–1347.10.1139/x87-207]Open DOISearch in Google Scholar
[Nowakowska, J., Zachara, T., Konecka, A. 2014. Genetic variability of Scots pine (Pinus sylvestris L.) and Norway spruce (Picea abies L. Karst.) natural regeneration compared with their maternal stands. Leśne Prace Badawcze, 75 (1), 47–54.10.2478/frp-2014-0005]Search in Google Scholar
[Tkach, V.P., Los, S.A., Tereshchenko, L.I., Torosova, L.O., Vysotska, N. Ju., Volosyanchuk, R.T. 2013. Present state and prospects for development of forest breeding in Ukraine (in Ukrainian with English summary). Forestry and Agroforestry, 123, 3–12.]Search in Google Scholar
[Volosyanchuk, R., et al. 2001. Conservation of genetic resources of broadleaved forest tree species in Ukraine. Dynamics and conservation of genetic diversity in forest ecosystems. Vitoria-Gasteiz, Spain.]Search in Google Scholar
[Volosyanchuk, R.T., et al. 2003. Methodical approaches to the estimation of objects of conservation of the gene pool of deciduous tree species in situ and their present state in the left-bank forest-steppe of Ukraine (in Ukrainian with English summary). Forestry and Agroforestry, 104, 50–57.]Search in Google Scholar
[White, T.L., Adams, W.X, Neale, D.B. 2007. Forest genetics. CABI.10.1079/9781845932855.0000]Search in Google Scholar
[Wright, J.W. 1976. Introduction to forest genetics. Academic Press, New York.10.1016/B978-0-12-765250-4.50005-8]Search in Google Scholar
[Yurkiv, Z.M., Neyko, I.S. 2017. Prospects for increasing forest productivity by methods of forest tree breeding (in Ukrainian with English summary). Scientific Bulletin VNAU, 6 (2), 24–32.]Search in Google Scholar
[Establishment of a European information system on forest genetic resources. Available at http://www.eufgis.org (accessed September 1, 2018).]Search in Google Scholar
[State Forest Agency of Ukraine. Available at http://dklg.kmu.gov.ua (accessed September 1, 2018).]Search in Google Scholar
