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Generation mean analysis in wheat (Triticum aestivum L.) under water deficit stress condition, using mixed linear models

By: Hossein Abbasi Holasou, Seyed Siamak Alavi Kia, Seyed Abolghasem Mohammadi, Mohammad Moghaddam Vahed

Key Words: Epistasis, Generation mean analysis, Heritability, Mixed linear model, Wheat.

J. Bio. Env. Sci. 14(2), 85-93, February 2019.

Certification: jbes 2019 0127 [Generate Certificate]

Abstract

Drought stress is one of the most important factors reducing crop production in the world. Understanding the type and relative amount of genetic components is essential for determining the breeding methods for genetic improvement of drought tolerance related traits. In the present study, generation means and variances analyses were employed to estimate additive, dominance and epistatic effects as well as additive, dominance and environmental variances based on mixed linear model method. The results of generation mean analysis through six generations (P1, P2, F1, F2, BC1, BC2) revealed significant epistasis for flag leaf length, flag leaf width, spike weight, harvest index, weight of 100 grains and grain yield per plant under normal and water deficit conditions, and for plant height, peduncle length, effective tiller number, spike length and straw weight under water deficit condition.  The nature and value of gene effects for majority of traits were different under normal and stress conditions. Broad-sense heritability values for flag leaf width, spike length, effective tiller number, harvest index and weight of 100 grains were higher in stress than in normal conditions, (>0.4), whereas the narrow-sense heritability values for most traits (except flag leaf width, spike length, effective tiller number and harvest index) were lower in stress than normal conditions.

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Generation mean analysis in wheat (Triticum aestivum L.) under water deficit stress condition, using mixed linear models

Akhshi N, Cheghamirza K, Ahmadi H, Firouzabadi FN. 2014. Generation mean analysis to estimate genetic parameters for morphological traits in common bean (Phaseolus vulgaris L.). Journal of Biodiversity and Environmental Sciences 4, 254-261.

Akhtar N, Chowdhry MA. 2006. Genetic analysis of yield and some other quantitative traits in bread wheat. International Journal of Agriculture and Biology 4, 523-527.

Almeida VC, Soriano Viana JM, Risso LA, Ribeiro C, Delima RO. 2018. Generation mean analysis for nitrogen and phosphorus uptake, utilization, and translocation indexes at vegetative stage in tropical popcorn. Euphytica 214, 103-114.

Asadi AA, Valizadeh M, Mohammadi SA, Khodarahmi M. 2015. Genetic analysis of some physiological traits in wheat by generations mean analysis under normal and water deficit conditions. Biological Forum 7, 722-733.

Ataei R, Gholamhoseini M, Kamalizadeh M. 2017. Genetic analysis for quantitative traits in bread wheat exposed to irrigated and drought stress conditions. Phyton 86, 228-235.

Checa O, Ceballos H, Blair MW. 2006. Generation means analysis of climbing ability in common bean (Phaseolus vulgaris L.). Journal of Heredity 97, 456-465.

Cukadar-Olmedo B, Miller JF. 1997. Inheritance of the stay green trait in sunflower. Crop Science 37, 150-153.

Edwards L, Ketata HH, Smith EL. 1975. Gene action of heading date, plant height, and other characters in two winter wheat crosses. Crop Science 16, 275-277.

El-Gendy SEA, El-Aziz MHA. 2013. Generation mean analysis of some economic traits in okra (Abelmoschus esculentus (L.) Moench). Journal of Applied Sciences 13, 810-818.

Erkul A, Unay C, Konak C. 2010. Inheritance of yield and yield components in a bread wheat (Triticum aestivum L.) cross. Turkish Journal of Field Crops 15, 137-140.

FAO. 2009. Global Agriculture Towards 2050. Available at: http://www.fao.org/fileadmin/ templates/wsfs/docs/Issues_papers/HLEF2050_Glo

FAO. 2015. FAOSTAT. Statistics Division FAO. Available at: http://faostat3.fao.org/ home/E

Grzesik H. 2000. Inheritance of some morphological traits and yield components in induced mutants of winter wheat variety Flevina. Plant Breeding and Seed Science 44, 45-52.

Gupta RP, Patel SR, Modha KG, Wadekar PB. 2017. Generation mean analysis for yield and yield components in cowpea (Vigna unguiculata (L.) Walp.). International Journal of Current Microbiology and Applied Sciences 6, 2231-2240.

Hallauer AR, Miranda JB. 1988. Quantitative Genetics in Maize Breeding. Iowa State University Press, Ames, Iowa, IA, USA.

Iqbal MZ, Nadeem MA. 2003. Generation mean analysis for seed cotton yield and number of sympodial branches per plant in cotton (Gossypium hirsutum L.). Asian Journal of Plant Science 2, 395-399.

Kearsey MJ, Pooni HS. 1996. The Genetical Analysis of Quantitative Traits. Chapman and Hall, London, UK.

Kosova K, Urban MO, Vítamvas P, Prasil IT. 2016. Drought stress response in common wheat, durum wheat, and barley: transcriptomics, proteomics, metabolomics, physiology, and breeding for an enhanced drought tolerance. Drought Stress Tolerance in Plants 2, 277-314.

Mather K, Jinks JL. 1982. Biometrical Genetics. 2nd edition. The study of continuous variation. Chapman and Hall, London, UK.

Mohamed NEM. 2014. Genetic control for some traits using generation mean analysis in bread wheat (Triticum aestivum L.). International Journal of Plant and Soil Science 3, 1055-1068.

Moroni JS, Briggs KG, Blenis PV, Taylor GJ. 2013. Generation mean analysis of spring wheat (Triticum aestivum L.) seedlings tolerant to high levels of manganese. Euphytica 189, 89-100.

Piepho HP, Mohring J. 2010. Generation means analysis using mixed models. Crop Science 50, 1674-1680.

Pooni HS, Treharne AJ. 1994. The role of epistasis and background genotype in the expression of heterosis. Heredity 72, 628-635.

Ray DK, Mueller ND, West PC, Foley JA. 2013. Yield trends are insufficient to double global crop production by 2050. PLoS ONE 8, e66428. doi: 10.1371/journal.pone.0066428.

Sabolu S, Kathiria KB, Mistry ChR, Kumar S. 2014. Generation mean analysis of fruit quality traits in eggplant (Solanum melongena L.). Australian Journal of Crop Science 8, 243-250.

Said AA. 2014. Generation mean analysis in wheat (Triticum aestivum L.) under drought stress conditions. Annals of Agricultural Science 59, 177-184.

Samineni S, Gaur PM, Colmer TD, Krishnamurthy L, Vadez V, Siddique KHM. 2010. Estimation of genetic components of variation for salt tolerance in chickpea using the generation mean analysis. Euphytica 182, 73-86.

Sharmila V, Ganesh SK, Gunasekaran M. 2007. Generation mean analysis for quantitative traits in sesame (Sesamum indicum L.) crosses. Genetic and Molecular Biology 30, 80-84.

Tonk AF, Ilker E, Tosun M. 2011. Quantitative inheritance of some wheat agronomics traits. Bulgarian Journal of Agricultural Science 17, 783-788.

Verma A, Singh Y. 2017. Generation mean analysis of horticultural traits in mid-late cauliflower (Brassica oleracea L. var. Botrytis) under sub temperate conditions of Western Himalayas. Plant Breeding 137, 97-108.

Wright S. 1968. Evolution and the Genetic of Population. Vol. 1. Genetics and Biometrics Foundations. University of Chicago Press, Chicago, IL, USA.

Hossein Abbasi Holasou, Seyed Siamak Alavi Kia, Seyed Abolghasem Mohammadi, Mohammad Moghaddam Vahed.
Generation mean analysis in wheat (Triticum aestivum L.) under water deficit stress condition, using mixed linear models.
J. Bio. Env. Sci. 14(2), 85-93, February 2019.
https://innspub.net/jbes/generation-mean-analysis-wheat-triticum-aestivum-l-water-deficit-stress-condition-using-mixed-linear-models/
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