Int.J.Curr.Microbiol.App.Sci (2018) 7(10): 1396-1408 1396 Original Research Article https://doi.org/10.20546/ijcmas.2018.710.155 Genetic Component Analysis for a Decade of G. hirsutum Cotton Breeding Material Sponsored in All India Coordinated Cotton Improvement Project S.L. Ahuja * , S.K. Sain, R.A. Meena and Sarfraz Ahmad Central Institute for Cotton Research, Regional Station, Sirsa, Haryana-125055, India *Corresponding author ABSTRACT Introduction Cotton is an important fibre yielding crop of global importance, which is grown in tropical and subtropical regions of more than 80 countries the world over. It provides livelihood to about sixty million people and is an important agricultural commodity providing remunerative income to millions of farmers both in developed and developing countries. In India, in spite of severe competition from synthetic fibres in recent International Journal of Current Microbiology and Applied Sciences ISSN: 2319-7706 Volume 7 Number 10 (2018) Journal homepage: http://www.ijcmas.com For the proper utilization of the national breeding material sponsored in the All India Coordinated Cotton Improvement Project (AICCIP) of the Indian Council of Agricultural Research (ICAR), the study was conceived to examine the variability, heritability and genetic gain over a decade period (2003 to 2012) for the progress achieved for enhancing the productivity. The field experiments were conducted during these years of Kharif seasons on 27, 31, 32, 40, 40, 36, 39, 42, 42 and 45 genotypes in randomized complete block design with three replications at Central Institute for Cotton Research, Regional Station, Sirsa, Haryana. For a decade within all the years Genotypic coefficient of variation were found almost lower than the phenotypic coefficient of variation for all the traits viz., seed cotton yield, ginning outturn percent, lint yield, boll no. per plant and boll weight indicating preponderance of environmental variation over genotypic variation. For all the years, heritability (85.04 to 99.46% and 78.94 to 99.54%) and genetic gain (417.8 to 897.83 and 152.20 to 300.05) values were very high for seed cotton yield and lint yield respectively. Genetic gain was low to moderate for ginning outturn%, boll no. per plant and boll weight for all the years ranging from 0.90 to 2.36, 2.28 to 7.24 and 0.22 to 1.80 respectively, though for these traits heritability was very high similar to seed cotton yield and lint yield. The study suggested operation of additive gene action for seed cotton yield and lint yield and both additive and non-additive gene action for ginning outturn, boll no. per plant and boll weight. Comparison of genetic component analysis from the average over ten years indicated that during 2003 seed cotton yield, lint yield and boll no. per plant were significantly higher than the average whereas in 2012 seed cotton yield, lint yield and boll weight were significantly higher than this average. The study also indicated from the experimentation on the material sponsored by the breeders in the initial evaluation trial of G. hirsutum (irrigated) over a decade that there was no specific trend for enhancement of seed cotton yield and its component traits under study. Keywords Genetic gain, Genotypic coefficient of variation, Heritability, Phenotypic coefficient of variation Accepted: 12 September 2018 Available Online: 10 October 2018 Article Info