COMBINING ABILITY AND GENE ACTION FOR SOME MAIZE INBRED LINES USING HALF DIALLEL CROSSING AT TWO LOCATIONS DURING TWO SEASONS
DOI:
https://doi.org/10.36103/ijas.v53i5.1636Keywords:
Heritability, maize, yield, Genetic parameters, heterosis.References
Abed, R.T. and F.Y.Baktash. 2009. Gene action and combining ability in early generation of diallel cross in bread wheat. The Iraqi Journal of Agricultural Sciences 40 (3):37-49
Abengmeneng. C. S. D.A. Ofori, P. Kumapley, R. Akromah and R. Jamnadass.2015. Estimation of heritability and genetic gain in height growth in Ceiba pentandra. African Journal of Biotechnology. 14(22):1880-1885
Abera, W., S. Hussein, J. Derera, M. Worku, and M. Laing. 2016. Heterosis and combining ability of elite maize inbred lines under northern corn leaf blight disease prone environments of the mid-altitude tropics. Euphytica 208(2): 391–400. doi: 10.1007/s10681- 015-1619-5
Abudlgaffor, Adel Hais, and Nawfal Adnan S. and M. Ahmed Abdulwahed 2011.Variances estimation and genotypic, phenotypic correlation and broad heritability percentage in maize (Zea mays L.). j. D. igric. Sci.3 (1):206-217
Al- Khazaali, H.A., M.M. Elsahookie and F.Y. Baktash. 2016. Flowering syndrome-hybrid performance relationship in maize. The Iraqi j. Agric. Sci. - 47(4):900-909
Al Khazaali, H.A., M.M. Elsahookie, and F.Y. Baktash. 2013. Genetic variation of some traits of maize under population densities. Iraqi J. Agric. Sci. 43(3): 289-299.
Alagraswamy, G.; and S.Chndra. 1998. Pattern analysis of international sorghum multi-environment trials for grain yield adaptation. The Orappl Genet, 96: 397-405
Alam, A.K.M.M., S. Ahmed, M. Begum, and M.K. Sultan. 2008. Heterosis and combining ability for grain yield and its contributing characters in maize. Bangladesh J. Agril. Res. 33(3): 375-379.
Allard RW. 1960. Principles of Plant Breeding, John Wiley and Sons Inc, New York, USA, 15-78
Al-Rawi K M, Z Abdulyas and J. Poles 1983 Regression analysis of Genotype environment interaction in cotton (Gossypium hersutum L.).J. Agric. Water Resources Res., 2(2):85-93
Al-Zubaidy, Kh. M. D., N. S. A. Al-Zuhairy and Y. F. Y. Al-Qasim.2017, Genetic distance, gene action and combing ability in maize for prediction F1 hybrid performance.j. F. Agric. Sci.9 (4):476-490.
Bočanski,J., Z. Srečkov, A. Nastasić, M. Ivanović, I. Djalović and M. Vukosavljev.2010.Mode of inheritance and combining ability for kernel row number, kernel number per row and grain yield in maize(Zea mays L.) Genetica.42 (1):169-176
Central Statistical Organization, 2018 Annual Statistical Group, Ministry of Planning and Development Cooperation, Republic of Iraq. MAGRJ; 48 (Issue 4); 11-22
Chozinm, M. S, Sigit. 2019. Combining ability analysis of ear characteristics of sweet corn hybrids suitable for organic crop production. Journal of Horticultural Research, 27(2): 81–90
Dickert T.E., and W.F. Tracy. 2002. Heterosis for flowering time and agronomic traits among early open-pollinated sweet corn cultivars. Journal of the American Society for Horticultural Science 127(5): 793–797
Duvick, D.N. 2005. Genetic progress in yield of United States maize (Zea mays L.).Maydica 50:193
EL-Shenawy,A.A., H. E. Mosa and A. A. Motawei .2009.Combining ability of crosses and stability parameters of their single crosses.J. agric. Res.
Erdal Ş., M. Pamukçu, O. Savur, and Tezel M. 2011. Evaluation of developed standard sweet corn (Zea mays sacharata L.) hybrids for fresh yield, yield components, and quality parameters. Turkish Journal of Field Crops 16: 153–156.
Genter, C.F. and M.W. Alexender. 1965. Testcross variability of samples from a broad-based population of maize (Zea mays L.). Crop Sci. 5: 355-357
Ghazal, Hassan Mahmoud, 1990. Crop Breeding - Directorate of University Books and Publications - Aleppo University
Griffing, B. 1956. Concept of general and specific combining ability in relation to diallel crossing system. Australian Journal of Biological Science, 9: 463-493
Hallauer AR., Carena M J, Filho JBM, 2010. Quantitative genetics in maize breeding. 6Th ed. Springer, Iowa, USA
Hamdan, M. I. and Fadel Y. Baktash.2011. Development and evaluation of synthetics from different number of maize inbreeds 2-yield and yield components. Iraqi J. Agric. Sci. 42 (4):9- 61.
Hassan, A. A. 1999. Combining ability studies under two nitrogen levels in different locations using (7×7)diallel of yellow maize Annuals of Agric. Sci. Moshtohor.37(4): 2159- 2178.
Iqbal, M., K. Khan, H. Rahman, I. H. Khalil, H. Sher and J. Bakht .2010. Heterosis for morphological traits in subtropical maize. Maydica., 55:41-48
Izhar, T. and M. Chakraborty, (2013). Combining ability and heterosis for grain yield and its components in maize inbreds over environments (Zea mays L.). African Journal of Agricultural Research. 8(250): 3276-3280
James, C. 2017. Global Status of Commercialized Biotech/GM Crops in 2017: Biotech Crop Adoption Surges as Economic Benefits Accumulate in 22 years. Isaac (Brief 53): 1–143
Jones, P.G. and P.K. Thornton, 2003, The potential impacts of climate change on maize production in Africa and Latin America in 2055. Glob. Environ. Chang. 13: 51–59
Keimeso, Zeleke and et al.2020. Heterosis and combining ability of highland adapted maize (Zea mays. L) DH lines for desirable agronomic traits. 14(3): 121-133
Khakwani, K.; R. Cengiz,; M. Asif, and M. Ahsan, 2020. Heterotic and heritability pattern of grain yield and related traits in doubled haploid f1 hybrids of maize (Zea mays L.).Maydica electronic publication. Original paper,65-M20:1-10
KINNEY, T. B. and R. N. SHOFFNER.1964. Heritability Estimates and Genetic Correlations among Several Traits in a Meat-Type Poultry Population. Scientific Journal Series of the Minnesota Agricultural ExperimentStation.pp:1020-1033
Maphumulo, S.G., J. Derera, F. Qwabe, P. Fato, E. Gasura, et al. 2015. Heritability and genetic gain for grain yield and path coefficient analysis of some agronomic traits in early-maturing maize hybrids. Euphytica 206(1): 225–244. doi: 10.1007/s10681-015-1505-1
Meseka, S., A. Menkir, B. Bossey, and W. Mengesha. 2018. Performance assessment of drought-tolerant maize hybrids under combined drought and heat stress. Agronomy 8(12). doi: 10.3390/agronomy 8120274
Moeletsi, M.E. 2017a. Mapping of Maize Growing Period over the Free State Province of South Africa: Heat Units Approach. Adv. Meteorol. 2017 (January). doi: 10.1155/2017/7164068
Mohammad Hossein Haddadi et al.2014. Gene action and combing ability of some agronomic traits in corn using diallel analysis.vo.(69):35-46. DOI: 10.1515/plass-2015-0004
Mohsan, Y. C., D. K. Singh and N. V. Rao.2002.Path coefficient analysis for oil and grain yield in maize (Zea mays L.). genotypes.Nat. J. Pl. Impr., 4(1): 75-77
Murdia, K., R. Wadhwani, N. Wadhawan, P. Bajpai, and S. Shekhawat. 2016. Maize utilization in India: an overview. Am. J. Food Nutr. 4(6): 169–176. doi: 10.12691/ajfn-4-6-5
OECD. 2001. Adoption of Technologies for Sustainable Farming Systems. Wageningen Work. Proc.: 149
Onejeme F. C., O.O. Emmanuel, and E. E. Chinedu. 2020. Combining ability and heterosis in diallel analysis of maize (Zea mays L.) lines. 9, (1): 188-200
S.V.V. Prasanna Kumar and Ratna Babu.2016. Combining ability and heterosis in maize (Zea mays L.) for grain yield and yield components: IJAEB: 9(5): 763-772
Samad M.A., G. A. Fautrier, D.L. McNeil, and J.R. Sedcole. 1989. General and specific combining ability of reproductive characters, yield, and yield components for yield improvement in pea. New Zealand Journal of Crop and Horticultural Science 17(4): 307–313
Singh, R.K. and P.K. Singh, 1994. A manual on Genetics and Plant Breeding. Experimental Techniques. Kalyani Publs, Ludhiana, New Delhi, pp: 99-107
Srdić J., Z. Pajić, and M. Filipović, 2016. Sweet corn (Zea mays L.) fresh ear yield independence of genotype and the environment. Selekcija i Semenarstvo 22: 27–33. DOI: 10.5937/selsem1601027s
Steel, R.G., and J.H.Torrie, 1960. Principle and procedure of statistical. McGraw-hill Book Company, Inc. new york. pp: 481
Tollenaar, M.; A. Ahmadza, and E. A .deh, Lee 2004. Physiological basis of heterosis for grain yield in maize. Crop Sci., 44:2086-2094
Vasal, Surinder K, Ganesan Srinivasan, Shivaji Pandey, F. Gonzfilez C., Jose Crossa, and David L. Beck.1993.Heterosis and combining ability of CIMMYT’s quality protein maize germplasm: I. lowland Tropical, Crop Sci. 33:46-51
Wannows,A A., H. K. Azzam, and S. A. AL-Ahmad. 2010.Genetic variances, heritability, correlation and path coefficient analysis in yellow maize crosses (Zea mays L.).Agric. Biol., J. N.Am., 1(4):630 -637.
Welsh. J.R. 1981. Fundamentals of Plant Breeding. John Wiley and Sons. Inc. pp. 134-135.
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