International Journal of Plant Sciences

M. Asif ¹, Y. G. Shadakshari ², S. J. Satheesh Naik ¹, K. T. Venkatesha ¹, K. v. Vijayakumar ¹, N. M. Basavaprabhu ¹

Affiliations
1 Department of Genetics and Plant Breeding, G.K.V.K., University of Agricultural Sciences, Bengaluru, karnataka, IN
2 AICRP (sunflower), Zonal Agricultural Research Station, University of Agricultural Sciences, G.K.V.K., Bengaluru, Karnataka, IN
3 Department of Genetics and Plant Breeding, G.K.V.K., University of Agricultural Sciences, Bengaluru, Karnataka, IN

Abstract

A Line × tester analysis of 45 hybrids in sunflower using three CMS lines and 15 testers was carried out to study the combining ability for seed yield and its contributing traits in sunflower (Helianthus annuus L.). The result revealed that, variance due to SCA was greater than GCA for all the traits except stem diameter and 100-seed weight, which indicated preponderance of non-additive gene action for all traits, while additive gene action for stem diameter and 100-seed weight. Line CMS 54A was a good general combiner for early flowering, early maturity, plant height, test weight, seed yield and oil yield, while CMS 56A was a good general combiner for hull content and oil content. The testers RHA 93 and RHA 115R transmitted allele with additive effects for seed and oil yield. RHA 6D- 5-3-5 was good general combiner for early flowering and early maturity, while RHA 95C-1 was good general combiner for oil content. In lines CMS 54A and CMS 57A and in testers GKVK-1, GKVK-2, RHA 95C-1, RHA 6D-5-3-5, RHA-272-II, RHA 275, RHA-298, RHA-115R and RHA-115R possessed favorable alleles for most of the traits. Among hybrids CMS 57A × RHA 93 was identified as the best specific combiner for seed yield, oil yield, volume weight, head and stem diameter. CMS 56A × RHA 6D-5-3-5 was the best specific combination for early flowering and early maturity. While CMS 54A × RHA 6D-5-3-5 was the best specific combiner for economic trait oil content and oil yield.

Keywords

Sunflower, Line × Tester, Combining Ability

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N. M. Basavaprabhu ¹, Niranjana Murthy ², M. Asif ¹, K. T. Venkatesha ¹, K. V. Vijayakumar ¹

Affiliations
1 Department of Genetics and Plant Breeding, G.K.V.K., University of Agricultural Sciences, Bengaluru, Karnataka, IN
2 AICRP (U U Crops), MRS, University of Agricultural Sciences, G.K.V.K., Bengaluru, Karnataka, IN

Abstract

A wide genetic variability among the genotypes was revealed by the D² analysis, where in 49 genotypes were grouped into ten clusters. Based on average inter-cluster distance, the clusters VII and VIII were found to be highly divergent from all the clusters, the intercluster D² value was 500.33, where lowest D² value was noticed between the clusters IV and VIII (23.35). The genotypes LRB- 461, LRB-462, LRB-463, LRB-464, LRB-465, LRB-466, LRB-467, LL-476, LRB-491, LRB-498 and LRB-490 were found to be divergent.

Keywords

Rice Bean, Genetic Divergence, Seed Yield

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Mahesh Meena ¹, E. Gangappa ¹, K. Mallikarjun ¹, T. Basavaraja ¹, M. Asif ¹, K. T. Venkatesha ², N. M. Basavaprabhu ², K. V. Vijayakumar ²

Affiliations
1 Department of Genetics and Plant Breeding, University of Agricultural Sciences, G.K.V.K., Bengaluru, Karnataka, IN
2 Department of Genetics and Plant Breeding, G.K.V.K., University of Agricultural Sciences, Bengaluru, Karnataka, IN

Abstract

Studies were conducted on genetic variability for ten quantitative characters in F2 generation of three crosses in okra. The genotypic and phenotypic co-efficients of variations were moderate to high for all the characters except ridges per plant with reference to F₂ generation of the crosses C-II and C-III; whereas the F2 of C-I showed moderate to high PCV and GCV for all the traits except fruit diameter and fruits per plant High broad sense heritability coupled with high genetic advance as per cent of mean was recorded for fruit length and primary branches in C-II and C-III and for fruit length followed by nodes per plant in C-I which indicated lower environmental influence on these traits and the prevalence of additive genes. Simple and early selection schemes would be effective for the improvement of these traits.

Keywords

Okra, Genetic Variability, Genetic Advance, Heritability

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