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ThesisItem Open Access Standardisation of in vitro propogation techniques in thathiri (Woodfordia fruticosa (L.) Kurz.)(College of Horticulture, Vellanikkara, 2005) Gayathri, G; KAU; Arya, KThe present study ‘Standardisation of in vitro propagation techniques in thathiri [Woodfordia fruticosa (L.) Kurz.]’ was undertaken in the Department of Plant Breeding and Genetics, College of Horticulture, Vellanikkara during 2003-2005 through the conduct of two experiments viz. (i) direct regeneration and (ii) regeneration through callus mediated organogenesis. SH medium was found to be the best basal medium for in vitro culture of thathiri. Shoot tips were the best explants for direct organogenesis and nodal segments were used as explants for indirect organogenesis. Surface sterilization of the explants was done by soaking them in 70 per cent alcohol for two minutes followed by soaking them in 0.1 per cent HgCl2 for five minutes. One subculturing three days after inoculation checked the polyphenol interference. Multiple shoot induction was obtained when shoot tips were cultured in medium supplemented with BAP 0.5 mg/l and NAA 0.5 mg/l. The shoot elongation was best in media with BAP 0.2mg/l. Callus formation in the nodal explants of thathiri was best in media with NAA 0.5 mg/l while callus regeneration was superior in media containing BAP 0.5 mg/l and NAA 0.5 mg/l. The best response in rooting was observed in media with IBA 0.2 mg/l. Rooted plants were hardened in earthen pots containing sterile sand and covered with polythene cover. After four weeks they were transferred to larger pots in the main field.ThesisItem Open Access Evaluation of sesame (Sesamum indicum L.) genotypes to the shaded uplands of Southern region(Department of Plant Breeding and Genetics, College of Agriculture , Vellayani, 2013) Abhijatha, A; KAU; Arya, KThe present investigation on ‘Evaluation of sesame (Sesamum indicum L.) genotypes to the shaded uplands of Southern region’, with an objective to identify sesame genotypes suitable for shaded uplands, was conducted at the Department of Plant Breeding and Genetics, College of Agriculture, Vellayani during 2011-2013. The germplasm was evaluated for morphological traits and yield attributes, genetic variability, degree and direction of association, direct and indirect effects of various components on yield and genetic divergence analysis. The sesame germplasm consisting of thirty three accessions collected from different parts of Kerala, Karnataka and Maharashtra were assessed for the extent of variability, heritability and genetic advance, the relationship among the yield and associated traits, the direct and indirect effects of characters towards yield and divergence of different genotypes.Analysis of variance showed significant differences among the genotypes for almost all the characters studied. High and moderate phenotypic and genotypic coefficients of variation (PCV and GCV) were noticed for most of the yield contributing characters. Highest and lowest PCV and GCV were recorded for number of capsules per unit length and 1000-seed weight respectively. High estimates of heritability coupled with high to moderate genetic advance as per cent over mean was recorded for all the yield associated traits except for days to maturity, oil content and 1000-seed weight, which exhibited high heritability with low genetic advance indicating non-additive gene action. Yield had positive and significant association with the yield contributing characters such as plant height, number of primary branches, number of capsules per plant, length of capsule and number of seeds per capsule, signifying that selection based on these characters may improve yield. The highest genotypic and phenotypic correlation with yield was observed for number of capsules per plant. Path analysis revealed that number of capsules per plant had the highest positive direct effect on seed yield per plant followed by number of seeds per capsule. Number of primary branches per plant and days to maturity had the maximum positive indirect effect on seed yield per plant through number of capsules per plant. The thirty three genotypes were grouped into six clusters among which cluster IV, V and VI had only one genotype each. Maximum number of genotypes were grouped in cluster I with thirteen genotypes. The intercluster distance was maximum between clusters IV and VI whereas it was minimum between clusters V and VI. The selection indices were worked out for thirty three genotypes based on yield and yield attributing characters. Based on the ranks obtained, the genotypes SI 7 (RT - 351 from ORARS, Kayamkulam) and SI 12 (DS - 5 from Dharwad) were the superior genotypes identified which are suitable for the shaded uplands. These genotypes possessed maximum number of capsules per plant, length of capsule and number of seeds per capsule and seed yield.