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Biberlerde Türler Arası Melezleme

Year 2020, Volume: 3 Issue: 3, 386 - 406, 15.12.2020
https://doi.org/10.38001/ijlsb.722036

Abstract

Türler arası melezleme doğada yeni türlerin ortaya çıkmasında sıklıkla rastlanılan bir durumdur. Helianthus, Triticum, Brassica gibi cinsler içerisindeki türlerde sıklıkla görülen melezlemeler sonucunda doğal olarak kromozom sayıları da katlanmış olan melez türler ortaya çıkmıştır. Diğer birçok tür açısından ise doğada türler arası melezleme çok sık karşılaşılan bir durum değildir. Patlıcangiller familyasının bir üyesi olan biberlerde doğal ortamda türler arası melezleme rastlanılan bir durum olmamakla birlikte, türler arası melezlerin üstün özelliklerinden faydalanabilmek amacıyla ıslahçılar tarafından türler arası melezleme çalışmaları yapılmaktadır. Özellikle kök çürüklüğü hastalığı başta olmak üzere, verim artışı sağlamak, abiyotik ve biyotik stres faktörlerine dayanımı arttırmak, anaç olarak kullanılabilecek çeşitler geliştirmek ve çeşitlerin sağlık açısından kalitesini arttırmak için türler arası melezlemelerden elde edilecek bilgi ve veriler çok önemlidir. Ülkemizde biberde türler arası melezleme konusunda çalışmalar ise yok denecek kadar azdır. Bu sebeple bu derleme ile biberde türler arası melezleme konusunda yapılan çalışmalar ışığında konunun önemine dikkat çekilmesi hedeflenmiştir.

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Interspecific Hybridization in Pepper Species

Year 2020, Volume: 3 Issue: 3, 386 - 406, 15.12.2020
https://doi.org/10.38001/ijlsb.722036

Abstract

Interspecific hybridization is a common situation in the emergence of new species in natural flora. As a result of crosses frequently seen in species in the genus such as Helianthus, Triticum, Brassica, hybrid species, whose chromosome numbers are also doubled, naturally emerged. In terms of many other species, interspecific hybridization is not very common in crossing of nature flora. In pepper, which is a member of the Solanaceaous family, interspecific hybridization studies are carried out by breeders to benefit from the superior properties of interspecific crosses. The information and data to be obtained from interspecific crosses are very important to increase yield, increase resistance to abiotic and biotic stress factors, to develop varieties that can be used as rootstocks and to improve the quality of the cultivars, especially root rot disease. In our country, studies on interspecific hybridization in pepper are almost nonexistent. For this reason, with this review, it is aimed to draw attention to the importance of the subject in the light of previous studies on interspecific hybridization in pepper.

References

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  • Arpacı, B.B., Yaralı Karakan, F., 2018. Inter-specific (Capsicum chacoense Hunz. and Capsicum annuum L.) inheritance of fruit detachment force trait in hot pepper. Scientific Papers. Series B, Horticulture, 57: 391-394.
  • Azeez, S.O., Faluyi, J. O., 2018. Hybridization in four Nigerian Physalis (Linn.) species. Not Sci Biol, 10(2): 205-210.
  • Baral, J.B., Bosland, P.W., 2004. Unraveling the species dilemma in Capsicum frutescens and C. chinense (Solanaceae): A multiple evidence approach using morphology, molecular analysis, and sexual compatibility. Journal of the American Society for Horticultural Science, 129(6): 826-832.
  • Barboza, G.E., Bianchetti, B.L., Stehmann, J.R., 2020. Capsicum carassense (Solanaceae), a new species from the Brazilian Atlantic Forest. PhytoKeys, 140: 125–138.
  • Barboza, G.E., Carrizo Garcia, C., Gonzalez, L.S., Scaldeferro, M., Reyes, X., 2019. Four new species of Capsicum (Solanaceae) from the tropical Andes and an update on the phylogeny of the genus. PLoS ONE, 14(1): e0209792.
  • Batista, F.R.C., 2016. Cytogenetics in Capsicum L. Ed: E.R. do Rêgo et al., In: Production and Breeding of Chilli Pepper (Capsicum spp.), s:41-56. Springer.
  • Bernardello, L., Rodriguez, I., Stlefkens, L., Galetto, L., 1995. The hybrid nature of Lycium ciliatum × cestroides (Solanaceae): experimental, anatomical and cytological evidence. Canadian Journal of Botany, 73: 1995-2005.
  • Brauer, O., 1962. Untersuchungen ueber qualitatseigenschaften in F1 hybriden von paprika, Capsicum annuum L. Z. fuer Pflanzenzuecht. 48:259-276.
  • Bosland, P.W., Baral, J.B., 2007. ‘Bhut Jolokia’ the world’s hottest known chile pepper is a putative naturally occurring interspecific hybrid. HortScience, 42: 222-224.
  • Bosland, P.W., Coon, D., Reeves, G., 2012. Trinidad Moruga Scorpion pepper is the world’s hottest measured chile pepper at more than two million Scoville heat units. Horttechnology, 22: 534-538.
  • Carrizo Garcia, C., Sehr, E.M., Barfuss, M.H.J., Barboza, G.E., Samuel, R., Moscone, E.A., Ehrendorfer, F., 2016. Phylogenetic relationships, diversification and expansion of chili peppers (Capsicum, Solanaceae). Annals of Botany, 118: 35-51.
  • Cremona, G., Iovene, M., Festa, G., Conicella, C., Parisi, M., 2018. Production of embryo rescued hybrids between the landrace “Friariello” (Capsicum annuum var. annuum) and C. baccatum var. pendulum: phenotypic and cytological characterization. Euphytica, 214(8): 129.
  • Debbarama, C., Khanna, V.K., Tyagi, W., Rai, M., Meetei, N.T., 2013. Wide hybridization and embryo-rescue for crop improvement in Capsicum. Agrotechnology, 11: 2-6.
  • Emboden, W.A.Jr., 1961. A preliminary study of the crossing relationships of Capsicum baccatum, Butler University Botanical Studies, Vol. 14 , Article 2.
  • Eshbaugh, W.H. 1970. A biosystematic and evolutionary study of Capsicum baccatum (Solanaceae). Brittonia, 22, 31-43.
  • Eshbaugh, W.H., 1975. Genetic and biochemical systematic studies of chili peppers (Capsicum - Solanaceae). Bulletin of the Torrey Botanical Club, 102: 396-403.
  • Eshbaugh, W.H., 2012. The taxonomy of the genus Capsicum. Ed. Vincent M. Russo, In: Peppers Botany, Production and Uses. s:14-28. CAB International.
  • Eshbaugh, W.H., Smith P.G., Nickrent D.L., 1983. Capsicum tovarii (Solanaceae), a new species of pepper from Peru. Brittonia, 35(1): 55-60.
  • Fatokun, C.A., 1989. Cytological studies of the F1 interspecific hybrid between Solanum aethiopicum and S. gilo Raddi. Cytologia, 54: 425-428.
  • Halstead, H. D., 1912 Experiments with peppers. N. J. Agr. Exp. Sta. Ann. Rpt., 33:365-368.
  • Heiser, C.B.Jr, Smith P.G., 1958. New species of Capsicum from South America. Brittonia, 10: 194-201.
  • Heiser, C.B.Jr, Smith, P.G., 1948. Observations on another species of cultivated pepper, Capsicum pubescens R & P. Proceedings of the American Society of Horticultural Science, 52: 331-335.
  • Heiser, C.B.Jr, Smith, P.G., 1953. The cultivated Capsicum species. Economic Botany, 7: 214-227.
  • Hossain, M.A., Minami, M., Nemoto, K. 2003. Immature embryo culture and interspecific hybridiza-tion between Capsicum annuum L. and C. frutescens L. via embryo rescue. Jpn. J. Trop. Agric., 47: 9-16.
  • Ibiza V.P., Blanca J., Cañizares J., Nuez F., 2012. Taxonomy and genetic diversity of domesticated Capsicum species in the Andean region. Genetic Resources and Crop Evolution, 59:1077-1088.
  • Ince, A.G., Karaca, M., Onus, N., 2010. Genetic relationships within and between Capsicum species. Biochem Genet, 48: 83-95.
  • Kamvorn, W., Techawongstien, S., Techawongstien, S., Theerakulpisut, P., 2014. Compatibility of inter-specific crosses between Capsicum chinense Jacq. and Capsicum baccatum L. at different fertilization stages. Scientia Horticulturea, 179: 9-15.
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There are 83 citations in total.

Details

Primary Language Turkish
Subjects Horticultural Production
Journal Section Review Articles
Authors

Kazım Mavi 0000-0003-0195-8539

Publication Date December 15, 2020
Published in Issue Year 2020 Volume: 3 Issue: 3

Cite

EndNote Mavi K (December 1, 2020) Biberlerde Türler Arası Melezleme. International Journal of Life Sciences and Biotechnology 3 3 386–406.



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