Bondorina, I. A. (2011). Diagnosis of compatibility of vaccination components. Polythematic online electronic Scientific Journal of the Kuban State Agrarian University 71: 543-55.
Bruilo, A. S. and Polubyatko, I. G. (2013). Evaluation of varietal-rootstock combinations of cherries and cherries using clonal rootstocks. In the collection: Fruit growing. Collection of scientific papers. Editor-in-chief V. A. Samus. Samokhvalovichi, Belarus 25: 503-14.
Cline, J. A. (2020). Planting density and size-controlling rootstocks influence the performance of Montmorency tart cherry (Prunus cerasus L.). Can. J. Plant Sci. 100: 16–28. doi:10.1139/ cjps-2019-0045.
Donike, N. N. (2002). Scientific foundations of intensive technology of cherry fruit cultivation. Chisinau. pp. 347.
Eremin, G. V. (2011). Results and current trends in the breeding of clonal rootstocks for cherries. G.V. Eremin, V.N. Podorozhny. Fruit and berry growing of Russia: collection of scientific Tr. VST.; editorial board: I.M. Kulikov [et al.]. 28: 174-80.
Eremin, G. V. (2012). Rootstocks of stone crops. In the book: Modern methodological aspects of the organization of the breeding process in horticulture and viticulture. Krasnodar. pp. 367-78.
Eremin, V. G. and Eremin, G. V. (2010). The study of clonal rootstocks of stone-boned cults of the Crimean experimental breeding station abroad. Modern Gardening 1: 33-35.
Eremin, V. G. and Eremin, G. V. (2014). Clone rootstocks of stone crops for intensive gardens in the south of Russia. Gardening and viticulture. 6: 24-26.
Gulyaeva, A. A. (1999). Assessment of the survival rate of cherry and cherry varieties on new clonal rootstocks. Genetics and plant breeding: brief theses. Report. Scientific. Conf. VNIISPK; editorial board: E.N. Dzhigadlo (chief editor). Eagle 7.
Khalmirzaev, D. K. (2018). Features of growth and development of varietal cherry seedlings grown on clonal rootstocks. In the collection: Innovative Approaches in Modern Science. Collection of Articles Based on the Materials of the XXV International Scientific and Practical Conference. 13: 75-80.
Lenivtseva M. S., Kuznetsova A. P. and Lenivtsev P. I. (2023). Improvement of methods for determining the field stability of stone crops (Genus Prunus L.) to the causative agent of coccomycosis (Coccomyces hiemalis higg). Proceedings of the Kuban State Agrarian University 106: 266-72.
Morandi, B., Manfrini, L., Lugli, S., Tugnoli, A., Micheli, A., Boini, A., Perulli, G., Bresilla, K. and Corelli Grappadelli, L. (2018). Physiological responses to rootstocks vigor in cherry: Why dwarfing is efficient. In Proceedings of the XXX International Horticultural Congress IHC: International Symposium on Cultivars, Rootstocks and Management Systems of 1281, Istanbul, Turkey. pp. 487–92.
Nikolskaya, О., Solonkin, А., Seminchenko, Е. and Kikteva, Е. (2023). Selection of cultivar-rootstock combinations of diploid plum (Prunus rossica Erem.) for arid conditions in Southern Russia. Indian J. Agric. Res. 57: 665-70.
Rakhmetova, T. P. (2019). Biochemical composition of cherry fruits. Modern Gardening. 4: 65-75.
Solonkin, A., Nikolskaya, O. and Seminchenko, E. (2022). Тhe effect of low-growing rootstocks on the adaptability and productivity of sour cherry varieties (Prunus cerasus L.) in arid conditions. Hoticulturae 8: doi: 10.3390/horticulturae8050400.
Upadysheva, G. Y. (2014). Innovative cherry cultivation technology. Fruit and Berry Growing in Russia. 38: 191-97.
Upadysheva, G. Y. and Belikova N. A. (2020) The efficiency of cherry propagation on clonal rootstocks. Fruit and Berry Growing in Russia 61: 170-77.
Vitkovsky, V. L. (2003). Fruit plants of the world. St. Petersburg, Moscow: Krasnodar. pp. 595.
Zhigalkina A. V., Brunko N. A. and Stepanchenko. A. V. (2020). Features of growth and development of cherry trees in intensive plantations. Enthusiasts of agricultural science. A collection of articles based on the materials of the All-Russian Scientific and Practical conference dedicated to the 100th anniversary of the birth of agricultural chemists Korenkov Dmitry Alek-sandrovich and Tonkonozhenko Evgeny Vasilyevich. Krasnodar: Kuban State Agrarian University 88: 101-05.
Bruilo, A. S. and Polubyatko, I. G. (2013). Evaluation of varietal-rootstock combinations of cherries and cherries using clonal rootstocks. In the collection: Fruit growing. Collection of scientific papers. Editor-in-chief V. A. Samus. Samokhvalovichi, Belarus 25: 503-14.
Cline, J. A. (2020). Planting density and size-controlling rootstocks influence the performance of Montmorency tart cherry (Prunus cerasus L.). Can. J. Plant Sci. 100: 16–28. doi:10.1139/ cjps-2019-0045.
Donike, N. N. (2002). Scientific foundations of intensive technology of cherry fruit cultivation. Chisinau. pp. 347.
Eremin, G. V. (2011). Results and current trends in the breeding of clonal rootstocks for cherries. G.V. Eremin, V.N. Podorozhny. Fruit and berry growing of Russia: collection of scientific Tr. VST.; editorial board: I.M. Kulikov [et al.]. 28: 174-80.
Eremin, G. V. (2012). Rootstocks of stone crops. In the book: Modern methodological aspects of the organization of the breeding process in horticulture and viticulture. Krasnodar. pp. 367-78.
Eremin, V. G. and Eremin, G. V. (2010). The study of clonal rootstocks of stone-boned cults of the Crimean experimental breeding station abroad. Modern Gardening 1: 33-35.
Eremin, V. G. and Eremin, G. V. (2014). Clone rootstocks of stone crops for intensive gardens in the south of Russia. Gardening and viticulture. 6: 24-26.
Gulyaeva, A. A. (1999). Assessment of the survival rate of cherry and cherry varieties on new clonal rootstocks. Genetics and plant breeding: brief theses. Report. Scientific. Conf. VNIISPK; editorial board: E.N. Dzhigadlo (chief editor). Eagle 7.
Khalmirzaev, D. K. (2018). Features of growth and development of varietal cherry seedlings grown on clonal rootstocks. In the collection: Innovative Approaches in Modern Science. Collection of Articles Based on the Materials of the XXV International Scientific and Practical Conference. 13: 75-80.
Lenivtseva M. S., Kuznetsova A. P. and Lenivtsev P. I. (2023). Improvement of methods for determining the field stability of stone crops (Genus Prunus L.) to the causative agent of coccomycosis (Coccomyces hiemalis higg). Proceedings of the Kuban State Agrarian University 106: 266-72.
Morandi, B., Manfrini, L., Lugli, S., Tugnoli, A., Micheli, A., Boini, A., Perulli, G., Bresilla, K. and Corelli Grappadelli, L. (2018). Physiological responses to rootstocks vigor in cherry: Why dwarfing is efficient. In Proceedings of the XXX International Horticultural Congress IHC: International Symposium on Cultivars, Rootstocks and Management Systems of 1281, Istanbul, Turkey. pp. 487–92.
Nikolskaya, О., Solonkin, А., Seminchenko, Е. and Kikteva, Е. (2023). Selection of cultivar-rootstock combinations of diploid plum (Prunus rossica Erem.) for arid conditions in Southern Russia. Indian J. Agric. Res. 57: 665-70.
Rakhmetova, T. P. (2019). Biochemical composition of cherry fruits. Modern Gardening. 4: 65-75.
Solonkin, A., Nikolskaya, O. and Seminchenko, E. (2022). Тhe effect of low-growing rootstocks on the adaptability and productivity of sour cherry varieties (Prunus cerasus L.) in arid conditions. Hoticulturae 8: doi: 10.3390/horticulturae8050400.
Upadysheva, G. Y. (2014). Innovative cherry cultivation technology. Fruit and Berry Growing in Russia. 38: 191-97.
Upadysheva, G. Y. and Belikova N. A. (2020) The efficiency of cherry propagation on clonal rootstocks. Fruit and Berry Growing in Russia 61: 170-77.
Vitkovsky, V. L. (2003). Fruit plants of the world. St. Petersburg, Moscow: Krasnodar. pp. 595.
Zhigalkina A. V., Brunko N. A. and Stepanchenko. A. V. (2020). Features of growth and development of cherry trees in intensive plantations. Enthusiasts of agricultural science. A collection of articles based on the materials of the All-Russian Scientific and Practical conference dedicated to the 100th anniversary of the birth of agricultural chemists Korenkov Dmitry Alek-sandrovich and Tonkonozhenko Evgeny Vasilyevich. Krasnodar: Kuban State Agrarian University 88: 101-05.
