Studies on the interspecific crossing compatibility among three Prunus species and their hybrids M., Napiórkowska B., Korbin M., Żurawicz E. (2015): Studies on the interspecific crossing compatibility among three Prunus species and their hybrids. Hort. Sci. (Prague), 42: 70-82.
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In 2011–2013, a study on the crossing compatibility and the setting of fruit in distant hybridization within the genus Prunus, among the species P. armeniaca L. (apricot), P. salicina Lindl. (Japanese plum), P. cerasifera Ehrh. (myrobalan plum) and the hybrids P. salicina × P. cerasifera was conducted at the Institute of Horticulture in Skierniewice, Poland. The percentage of fruit set depended on the direction of pollination of the crossed species. Most fruits were obtained by crossing P. salicina × P. armeniaca and P. salicina × P. cerasifera. The largest number of fruitlets in relation to the number of pollinated flowers was obtained when two genotypes of P. salicina – Czernuszka and D 17-73, were the maternal parents. The results show that the crossing compatibility and effectiveness in the cross-breeding of the studied species of Prunus are influenced to a greater extent by the genotype of the maternal form of P. salicina than by the genotype of the paternal form of P. armeniaca and P. cerasifera.
Arbeola A., Daorden M.E., García E., Marín J.A. (2003): Successful establishment of in vitro culture of Prunus cerasifera hybrids by embro culture of immature fruits. Acta Horticulturae (ISHS), 616: 375–378.
Arbeloa Arancha, Daorden M. E., García E., Wünsch A., Hormaza J. I., Marín J. A. (2006): Significant effect of accidental pollinations on the progeny of low setting Prunus interspecific crosses. Euphytica, 147, 389-394
Brewbaker J.L., Kwack B.H. (1964): The calcium ion and substance influencing pollen growth. In: Linskens H.F. (ed.): Pollen Physiology and Fertilization. Amsterdam, North-Holland Publishing: 143–151.
Bubán T. (1996): Pollination and Fertilization. In: Nyéki J., Soltész M. (eds.): Floral Biology of Temperate Zone Fruit Trees and Small Fruits. Budapest, Akadémiai Kiadó: 154–184.
Bubán T. (2003): Hormonal aspects of flower formation and fruit set. In: Kozma P., Nyéki J., Soltész M., Szabó Z. (eds): Floral Biology, Pollination and Fertilisation in Temperate Zone Fruit Species and Grape. Budapest, Akadémiai Kiadó: 3–24.
Cheung Alice Y. (1996): Pollen—pistil interactions during pollen-tube growth. Trends in Plant Science, 1, 45-51
Chrząstek M., Kruk K., Okoń S., Wojtowicz E. (2009): Wpływ formy ojcowskiej na żywotność pyłku i niektóre cechy plonotwórcze mieszańców międzygatunkowych Avena sativa L. cv. Borowiak × Avena sterilis L. Biuletyn Instytutu Hodowli i Aklimatyzacji Roślin, 252: 245–253.
Dafni A., Firmage D. (2000): Pollen viability and longevity: Practical, ecological and evolutionary implications. Plant Systematics and Evolution, 222, 113-132
Duval H., Poëssel J.L., Olivier G. (1994): Evaluation and selection of progeny of an interspecific cross between Prunus cerasifera and Prunus salicina. Acta Horticulturae (ISHS), 359: 87–92.
Golis A., Korbin M., Pluta S. (2002): The development of Ribes embryos by interspecific hybridisation. Acta Horticulturae (ISHS), 585: 155–158.
Hakoda Naotoshi, Toyoda Ryutaro, Tabuchi Toshihito, Ogiwara Isao, Ishikawa Shunji, Shimura Isao (1998): Morphological Characteristics of the Interspecific Hybrids between Japanese Apricot (Prunus mume) and Plum (P. salicina).. Engei Gakkai zasshi, 67, 708-714
Hedhly A., Hormaza J. I., Herrero M. (2005): The Effect of Temperature on Pollen Germination, Pollen Tube Growth, and Stigmatic Receptivity in Peach. Plant Biology, 7, 476-483
Jun J.H., Chung K.H. (2007): Interspecific cross compatibility among plum, apricot and plumcot. Korean Journal of Horticultural Science and Technology, 25: 217–222.
Khan S.A., Perveen A. (2008): Germination capacity of stored pollen of Ficus carica (Moraceae) and their maintenance. Pakistan Journal of Botany, 40: 2251–2254.
Kukharchyk N., Kastrickaya M. (2006): Embryo rescue techniques in Prunus L. breeding. Journal of Fruit and Ornamental Plant Research, 14: 129–135.
Layne R.E.C. (1983): Hybridization. In: Moore J.N., Janick J. (eds): Methods in Fruit Breeding. West Lafayette, John Wiley & Sons, Inc. Purdue University Press: 48–65.
Layne R.E., Sherman C.W.B. (1986): Interspecific hybridization of Prunus. HortScience, 21: 48–51.
Liu Wen, Chen Xuesen, Liu Guanjun, Liang Qing, He Tianming, Feng Jianrong (2007): Interspecific hybridization of Prunus persica with P. armeniaca and P. salicina using embryo rescue. Plant Cell, Tissue and Organ Culture, 88, 289-299
Małuszyńska J., Olszewska M.J. (1999): Wybrane metody w badaniach cytogenetycznych In: Rogalska S., Małuszyńska J., Olszewska M.J. (eds): Podstawy cytogenetyki roślin. Warszaw, PWN: 210–249.
Neumüller M. (2011): Fundamental and applied aspects of plum (Prunus domestica L.) breeding. In: Flachowsky H., Hanke V.M. (eds): Fruit, Vegetable and Cereal Science and Biotechnology, 5(Special Issue): 139–154.
Okie W.R. (2005): ‘Spring Satin’ plumcot. Journal of The American Pomological Society, 59: 119–124.
Okie W.R., Weinberger J.H. (1996): Plums. In: Janick J., Moore J.N. (eds): Fruit Breeding: Tree and Tropical Fruits. New York, John Wiley & Sons, Inc.: 559–608.
Perez S., Moore J.N. (1985): Prezygotic endogenous barriers to interspecific hybridization in Prunus. Journal of the American Society for Horticultural Science, 110: 267–273.
Rubio-Cabetas M. J., Socias i Company R. (1996): Fertilisation assessment and postzygotic development in several intra- and interspecific Prunus hybrids. Euphytica, 90, 325-330
Sharafi Y. (2011a): Pollen viability and longevity in some selected genotypes of peach, plum, prune and sour cherry. Journal of Medicinal Plants Research, 5: 275–279.
Sharafi Y. (2011b): An investigation on the pollen germination and tube growth in some Prunus persica genotypes and cultivars. African Journal of Microbiology Research, 5: 2003–2007.
Sharafi Y., Bahmani A. (2011): In vitro study of pollen traits after short storage in some almond, apricot and sweet cherry favorable genotypes. Journal of Medicinal Plants Research, 5: 266–269.
Szabó Z. (2003): Frost injuries of the reproductive organs in fruit species. In: Kozma P., Nyéki J., Soltész M., Szabó Z. (eds): Floral Biology, Pollination and Fertilisation in Temperate Zone Fruit Species and Grape. Budapest, Akadémiai Kiadó: 59–74.
Szabó Z., Nyeki J. (1994): Frost injury to European and Japanese plum flower buds in Hungary. Kerteszeti Tudomany, 26: 11–15.
Szymajda Marek, Pruski Kris, Żurawicz Edward, Sitarek Mirosław (2013): Freezing injuries to flower buds and their influence on yield of apricot ( Prunus armeniaca L.) and peach ( Prunus persica L.). Canadian Journal of Plant Science, 93, 191-198
Topp B.L., Russell D.M., Neumüller M., Dalbó M.A., Liu W. (2012): Plum. In: Badenes M.L. Byrne D.H. Fruit Breeding (eds): Handbook of Plant Breeding 8. New York, Springer Science+Business Media, LLC: 576–621.
YOSHIDA Masao, KYOTANl Hidetoshi, YASUNO Masasumi (1975): Studies on Interspecific Crossing in Prunus spp. : I. Cross Compatibility.. Ikushugaku zasshi, 25, 17-23
Yao S. (2011): Winter 2011 low-temperature injury to stone fruit buds in New Mexico. HortTechnology, 21: 767–772.
Zenkteler M. (1990): In vitro fertilization and wide hybridization in higher plants. Critical Reviews in Plant Sciences, 9, 267-279
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