Development and assessment of biotic stress tolerant cucumber hybrids using land races and commercial varieties
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https://doi.org/10.58993/ijh/2023.80.4.7Keywords:
Cucumis sativus L., resistance, line × tester, combining ability, gene action, heterosisIssue
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Copyright (c) 2023 Indian Journal of Horticulture
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Cucumber growers suffer significant economic losses due to yield reductions caused by pests such asAbstract
fruit flies and diseases like powdery mildew and downy mildew. Therefore, one of the most effective ways to
reduce losses caused by these pressures is to grow resistant cultivars. This study aimed to estimate important
genetic parameters to approximate inbred line performance in the F1 generation and identify appropriate F1
cross combinations resistant to these biotic stresses. Thirty F1 hybrid combinations were screened, along
with 13 parents (ten diverse stable lines and three testers) and a standard check. The genotypes UHF-CUC-11,
UHF-CUC-13, UHF-CUC-6, UHF-CUC-15, UHF-CUC-8, Solan Srijan and F1 cross-combinations UHF-CUC-11
× Solan Srijan, UHF-CUC-13 × Solan Srijan, UHF-CUC-6 × K-75, UHF-CUC-15 × Solan Srijan and UHF-CUC-8
× Solan Srijan were found superior for these biotic stresses in the experimental results. Additionally, the
predominance of non-additive gene activity due to genetic complementation between parents suggests that
heterosis breeding could help enhance important biotic stress tolerance in cucumbers. The resistant genotypes
and hybrid combinations identified in the current research can be employed to integrate the resistant genes
into the preferred elite backgrounds of cucumber to develop bio tic stress-resistant varieties/hybrids
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Brar, P.S., Singh, G., Singh, M., and Batth, G.S. 2011. Genetic analysis for quality traits a reaction to downy mildew in cucumber (Cucumis sativus L.). J. Res. PAU 48: 28-33". Call, A.D., Wehner, T.C., Holmes, G.J. and Ojiambo, P.S. 2013. Effects of host plant resistance and fungicides on severity of cucumber downy mildew. Hort Sci. 48: 53-59 Cruz, C.D., Regazzi, A.J. and Carneiro, P.C.S. 2012. Modelos Biometricos Aplicados Ao Melhoramento Genetico, third ed. Editora UFV, Viçosa, MG. Jat, G.S., Munshi, A.D., Behera, T.K., Singh, A.K. and Kumari, S. 2017. Genetic analysis for earliness and yield components using gynoecious and monoecious lines in cucumber (Cucumis sativus L.). Chem. Sci. Rev. Let. 6: 1075-79. Kumar, R., Kumar, S., Kumar, D. and Kansal, S. 2018. Heterosis, combining ability and gene action studies for insect-pest and disease resistance in cucumber. Electronic J. Plant Breed. 9: 815-28. Kumari, R., Kumar, R. and Kumar, S. 2017. Genetic studies on incidence and severity of economically important insect-pests and diseases in F1 and F2 generations of cucumber. J. Hill Agric. 8: 151-57. Panse, V.G., and Sukhatme, P.V. 1967. Statistical Methods for Agricultural Workers. Indian Council of Agricultural Research, New Delhi 381p. Ransom, L.M., Briens, R.G.O. and Glass, R.J. 1991. Chemical control of powdery mildew in green peas. Aus. Pl. Patho. 20: 16-20. Reuveni, R. 1983. Resistance of Cucumis melo L. to Pseudoperonospora cubensis. Annl. Appl. Bio. 102: 533-37. Srinivas, M.P., Kumari, S.M.H., Hanumantharaya, L., Thippeshappa, G.N. and Yalleshkumar, H.S. 2018. Bio-efficacy of insecticides against fruit fly, Bactrocera cucurbitae (Coquillett) in cucumber. J. Ento. Zoo. Stud. 6: 449-52.
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