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University of Agricultural Sciences, Dharwad
The University of Agricultural Sciences, Dharwad was established on October 1, 1986.
The University has 5 Colleges, 27 Research Stations, 6 Agriculture Extension Education Centers, 6 Krishi Vigyan Kendras and ATIC. The University has its jurisdiction over 7 districts namely Bagalkot, Belgaum, Bijapur, Dharwad, Gadag, Haveri, and Uttar Kannada in northern Karnataka. Greater diversity exists in soil types, climate, topography cropping and farming situations. The jurisdiction includes dry-farming to heavy rainfall and irrigated area. Important crops of the region include sorghum, cotton, rice, pulses, chilli, sugarcane, groundnut, sunflower, wheat, safflower etc. The region is also known for many horticultural crops.
Considerable progress has been registered in the field of education, research and extension from this University.
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ThesisItem Open Access IDENTIFICATION AND DEVELOPMENT OF MOISTURE STRESS TOLERANT LINES THROUGH POLLEN SELECTION IN SORGHUM (Sorghum bicolor L.)(University of Agricultural Sciences, Dharwad, 2001) PATIL, BASAVANAGOUDA S; SALIMATH, P MABSTRACT NOT AVAILABLEThesisItem Open Access STABILITY, COMBINING ABILITY AND HETEROSIS STUDIES IN MALE STERILE BASED THREE WAY TETRAPLOID COTTON HYBRIDS(University of Agricultural Sciences, Dharwad, 2001) SODDI, RAVEENDRA R; KHADI, B MABSTRACT NOT AVAILABLEThesisItem Open Access VARIABILITY, GENETIC AND BIOCHEMICAL STUDIES ON RESISTANCETO SHOOT FLY IN Sorghum bicolor(L.) Moench(University of Agricultural Sciences, Dharwad, 2000) KAMATAR, M Y; SWAMY RAO, T"The investigation included three experiments viz.. (i) the screening of 650 germplasm lines for resistance to shoot fly during two rabi seasons, (ii) genetics of resistance and associated traits during both kharif and rabi seasons, (iii) genetics of biochemical resistance. Near immunity to high susceptibility was observed in the germplasm indicating polygenic inheritance of resistance. Resistance was relatively stable over seasons depending on shoot fly density. Indian landraces possessed stable field resistance. Antixenosis played a major role, though antibiosis was also present in some genotypes. Resistance was governed by both additive and non-additive gene actions. Susceptibility was overdominant in the hybrids during both kharif WA rahi seasons. Both additive and non-additive gene actions were evident for seedling height, plant height, glossiness, trichome density, leaf surface wetness, leaf colour, leaf width and leaf droopiness, whereas seedling vigour, grain yield, total chlorophyll, protein, epicuticular wax, tannin and phenols were governed by non-additive gene action, while additive gene action was evident for total sugars. None of the hybrids exhibited heterosis for resistance, whereas considerable heterosis was observed for characters associated with resistance. All the resistance traits were positively associated with each other while they were inversely related with susceptibility. Much contribution to dead heart percentage comes from percent oviposition and least from egg count. An ideal plant type for resistance must have high seedling vigour; narrow, erect, pale green, glossy leaves; high seedling and plant height; high trichome density on leaves; less leaf surface wetness; high tannin, low total sugars, protein and chlorophyll content in leaves. SPSFR 94022A. SPSFR 94031 A. IS 2291, IS 5480. IS 2312. IS 923. IS 2122 and IS 2314 were good general combiners for resistance which also exhibited desirable GCA effects for resistance associated traits. Procedures like multiple crossing and recurrent selection are suggested for genetic enhancement of resistance".ThesisItem Open Access GENETIC AND PHYSIO-BIOCHEMICAL ANALYSIS OF POD SHATTERING AND PRODUCTIVITY RELATED TRAITS IN SOYBEAN (Glycine max (L.) Merrill)(University of Agricultural Sciences, Dharwad, 2000) Agrawal, Ajay Prakash; Path, S A"A collection of 196 germplasm line was evaluated in three seasons for pod shattering as well as productivity. Observations were made on plant growth, pod characters related to shattering and yield attributes. Plant growth and pod characters showed low to moderate genotypic coefficient of variation except pod weight, seed to pod shell ratio, pod shattering and yield attributing traits. Habitability and genetic advance was high for all the traits except days to maturity, seeds per pod, pod length and pod width. Characters contributing towards pod shattering resistance were pod weight, pod length and pod thickness. Following Mahalanobis analysis, shattering resistant genotypes identified were grouped in five clusters, of which EC-14396, CGP-268 and GP-2340-A were also promising for seed yield. A diallel set of crosses was made using five genotypes representing the variation in pod shattering. Yield attributing traits were under the control of both additive and non-additive gene action. Plant growth and pod characters along with pod shattering were governed by additive gene action except for degree of indeterminate growth habit, seeds per pod, pod width and pod shell thickness. Pod shattering susceptibility was partially dominant over resistance and the data indicated the possibility of developing shattering resistant genotypes by crossing resistant parents. Physiological parameters related to pod development indicated that growth rate and dry matter accumulation in pod and seed were negatively correlated with pod shattering. However, pod shell growth rate was positively correlated with pod shattering. Assay of four cell wall degrading enzymes in shattering and nonshattering zones of resistant and susceptible varieties indicated that cellulase play an important role in pod shattering process. The action of polygalactouranase was opposite to cellulase, but did not exhibit clear involvement. Peroxidase and polyphenol oxidase did not show any trend in either the pod shattering resistant or susceptible genotypes. The study was able to identify Bragg x JS-335 as potential combination worth handling for developing pod shattering resislant as well as high yielding genotypes."ThesisItem Open Access GENETIC INVESTIGATIONS, CHARACTERISATION AND FIBRE COLOUR DEVELOPMENT STUDIES IN NATURALLY COLOURED COTTONS (Gossypium spp.)(University of Agricultural Sciences, Dharwad, 1999) SHIRSAT, SIDHARTHKUMAR; KHADI, B MSignificant genetic variation, moderate to heigh heritability and genetic advance were observed in 22 genotypes and 10 hybrids. Some of the brown linted G. birsutum and G. arboreum genotypes were high performing and could be used directly for commercial cultivation whereas green linted genotypes were poor in performance. No colour cotton genotype was having long, extra long staple length and all genotypes were very poor in fibre strength. The per se performance of colour cotton hybrids was better than their colour linted parents. Some of the colour cotton hybrids were on par with DHH-11 and NHH-44. Similar trend was observed for heterosis. When only colour and white classes were considered it was observed that fibre colour was incompletely dominant and governed by single gene in G. hirsutum and by two-gene interaction (dominant epistasis) in G. arboreum and colour class could be divided into six overlapping classes indicating presence of continuous variation. In colour cotton genotypes significant positive association of seed cotton yield (SCY) and lint yield (LY) was observed with all growth parameters, except for seed index (SI) and boll weight (BW). In hybrids, indirect relation between SCY, LY, LI, GOT and BW and SI made correlations very complex. The fibre fineness was most important fibre quality parameter as it had significant negative relation witli all otlier characters. Its importance was confirmed by path analysis of fibre length. In colour cotton genotypes BW, SI, GOT, LI and in hybrids BW, number of bolls (NB) and GOT were important contributors to seed cotton yield. Lint yield path analysis indicated the importance of SCY, LI, SI in colour cotton genotypes and SCY, LI and BW in hybrids. Path analysis for fibre quality index (FQl) indicated that fibre length, fibre fineness and fibre strength were most important and for counts strength product (CSP) FQl was found most important. Six generation analysis revealed that gene effects like dominance and interaction (DS-28 X DGH-95, DS-28 X DBH95), additive, dominance and additive X dominance (DBH95 X DGH95), additive and interaction (Abadhita X DGH95), additive and dominance X dominance (DBA95 X A-82-1-1) were predominant. The EMS treatments of 0.2 and 0.3 percent were best for G. arboreum and G. hirsutum respectively as they could yield high number of desirable mutants and high variation for yield fibre quality and fibre colour shades. The number of days required for development of colour in fibre varies with genotypes and species. It was 33-37 days after pollination (DAP) in G. hirsutum green, 35-38 DAP in G. hirsutum brown cotton, and 48-51 DAP in G. arboreum brown cotton. It was possible to characterize electrophoretically G. arboreum colour cotton from white ones as it had only one band as compared to three bands in white listed genotypes. In case of G. hirsutum colour and white linted genotypes, characterization was difficult as both had two bands nearly at same Rm distance. The actual pigments responsible for fibre colour in G. hirsutum and G. arboreum were different but pigments belonged to general class of flavonoids.ThesisItem Open Access GENETIC ANALYSIS AND MOLECULAR MAPPING OF COMPONENTS OF RESISTANCE TO SHOOT FLY (Atherigona soccata Rond.) IN SORGHUM [Sorghum bicolor (L.) Moench(University of Agricultural Sciences, Dharwad, 2002) SAJJANAR, G M; NAYAKAR, N YABSTRACT NOT AVAILABLEThesisItem Open Access STUDIES ON GENETIC DIVERGENCE IN TAMARIND (Tamarindus indica L.) ACROSS PROVENANCES OF SOUTHERN KARNATAKA(University of Agricultural Sciences GKVK, Bangalore, 1993) Ganga Prasad, S; Kulkarni, R SABSTRACT NOT AVAILABLEThesisItem Open Access GENOTYPE ENVIRONMENT INTERACTION IN RICE (Oryza sativa L.) WITH SPECIAL REFERENCE TO COLD TOLERANCE(University of Agricultural Sciences GKVK, Bangalore, 1992) Shanthakumar, G; Veerappa, K BABSTRACT NOT AVAILABLEThesisItem Open Access RESISTANCE MECHANISM OF Lycopersicon SPECIES TO THE VECTOR Bemisia tabaci AND ULTRASTRUCTURAL CHANGES IN LEAF CURL VIRUS INFECTED TOMATO PLANTS(University of Agricultural Sciences GKVK, Bangalore, 1989) Channarayappa; Shivashankar, GABSTRACT NOT AVAILABLE