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Kerala Agricultural University, Thrissur

The history of agricultural education in Kerala can be traced back to the year 1896 when a scheme was evolved in the erstwhile Travancore State to train a few young men in scientific agriculture at the Demonstration Farm, Karamana, Thiruvananthapuram, presently, the Cropping Systems Research Centre under Kerala Agricultural University. Agriculture was introduced as an optional subject in the middle school classes in the State in 1922 when an Agricultural Middle School was started at Aluva, Ernakulam District. The popularity and usefulness of this school led to the starting of similar institutions at Kottarakkara and Konni in 1928 and 1931 respectively. Agriculture was later introduced as an optional subject for Intermediate Course in 1953. In 1955, the erstwhile Government of Travancore-Cochin started the Agricultural College and Research Institute at Vellayani, Thiruvananthapuram and the College of Veterinary and Animal Sciences at Mannuthy, Thrissur for imparting higher education in agricultural and veterinary sciences, respectively. These institutions were brought under the direct administrative control of the Department of Agriculture and the Department of Animal Husbandry, respectively. With the formation of Kerala State in 1956, these two colleges were affiliated to the University of Kerala. The post-graduate programmes leading to M.Sc. (Ag), M.V.Sc. and Ph.D. degrees were started in 1961, 1962 and 1965 respectively. On the recommendation of the Second National Education Commission (1964-66) headed by Dr. D.S. Kothari, the then Chairman of the University Grants Commission, one Agricultural University in each State was established. The State Agricultural Universities (SAUs) were established in India as an integral part of the National Agricultural Research System to give the much needed impetus to Agriculture Education and Research in the Country. As a result the Kerala Agricultural University (KAU) was established on 24th February 1971 by virtue of the Act 33 of 1971 and started functioning on 1st February 1972. The Kerala Agricultural University is the 15th in the series of the SAUs. In accordance with the provisions of KAU Act of 1971, the Agricultural College and Research Institute at Vellayani, and the College of Veterinary and Animal Sciences, Mannuthy, were brought under the Kerala Agricultural University. In addition, twenty one agricultural and animal husbandry research stations were also transferred to the KAU for taking up research and extension programmes on various crops, animals, birds, etc. During 2011, Kerala Agricultural University was trifurcated into Kerala Veterinary and Animal Sciences University (KVASU), Kerala University of Fisheries and Ocean Studies (KUFOS) and Kerala Agricultural University (KAU). Now the University has seven colleges (four Agriculture, one Agricultural Engineering, one Forestry, one Co-operation Banking & Management), six RARSs, seven KVKs, 15 Research Stations and 16 Research and Extension Units under the faculties of Agriculture, Agricultural Engineering and Forestry. In addition, one Academy on Climate Change Adaptation and one Institute of Agricultural Technology offering M.Sc. (Integrated) Climate Change Adaptation and Diploma in Agricultural Sciences respectively are also functioning in Kerala Agricultural University.

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2001 - 200458
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Subject: Horticulture × End date: 2004 × Start date: 2001 × Thesis Type: M.Sc ×
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Now showing 1 - 9 of 58
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    ThesisItemOpen Access
    Molecular characterization of piper species usiing RAPD technique
    (Department of Plantation Crops and Spices, College of Horticulture, Vellanikkara, 2002) Murugan, C; KAU; Sujatha, V S
    The study on "Molecular characterization of Piper species using RAPD techniques" was conducted in the Department of Plantation Crops and Spices and CPBMB, College of Horticulture, Vellanikkara, Thrissur from December, 1999 to August, 2001. Material included 13 species/accessions of the genus Piper including Piper nigrutn Linn. These were analysed with 20 selected oligomer decamer primers using PCR technique and agarose gel electrophoresis. The selection of ideal DNA isolation technique was done based on observations of purity of bands, quality of the DNA bands and quantity of DNA recovered. The protocol of Edwards et al. (1991) was selected for DNA isolation with additional step of chloroform-isoamyl alcohol treatment. Fifty decamer primers were screened using DNA. of P. nigrum and 20 were selected based on the number of bands produced, reproducibility of the bands and distinctness of the RAPD profile. RAPD profile of the 13 species of Piper were compared for genetic similarity index (using Jaccard's coefficient), with all 20 selected primers separately. Pooled similarity of the twenty primers put together was found out for 9 species which gave amplification for all the 20 selected primers. The results of pooled analysis was subjected to cluster analysis (SAl-IN) and phenetic dcndrogram was constructed employing UPGMA. Four clusters were obtained, comprising of two accessions of P. nigrum In the first, two accessions of P. longum in the second, P. colubrinutn and P. attenuatum forming the third cluster and P. chaba, P. belle and P. arboreum forming the fourth.
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    ThesisItemOpen Access
    Developing technology for production of dry flowers
    (Department of Pomology and Floriculture, College of Horticulture, Vellanikkara, 2003) Priyesh, S; KAU; Geetha, C K
    Investigations on developing technology for production of dry flowers were carried out during 2001-2003 at the Department of Pomology and Floriculture, College of Horticulture, Kerala Agricultural University, Vellanikkara. The objectives were to assess the suitability of selected commercial flowers, namely, celosia, china aster and gerbera for dry flower production and to develop techniques to dry, bleach and dye flowers for commercial exploitation. Four stages of harvest, namely, tight bud, half bloom, full bloom and over bloom stage Were assessed under each flower to standardise the optimum stage at which drying was perfect to retain, colour, shape and visual quality at its best. Full bloom stage recorded highest cumulative score for all visual and aesthetic qualities, closely followed by half bloom stage in all the three flowers. Celosia and aster flowers took 2 days and 5 days, respectively, for shade \ drying and proved to be cost effective with maximum cumulative score for visual and aesthetic qualities. This was followed by microwave oven drying and hot air oven drying. The time taken for perfect drying of gerbera varied from 6 minutes (microwave oven drying) to 4 days (shade drying). Among the drying methods, highest cumulative score was recorded in microwave oven drying, followed by hot air oven drying and shade drying. Among the desiccants, aster and gerbera flowers embedded in fine clean white sand recorded maximum cumulative score for all quality parameters, viz., brightness, brittleness and colour fading when dried in shade/microwave oven. The flowers retained colour and shape on drying. The dried flowers retained only the colour in borax and had a dull appearance when silica gel powder was used. Celosia flowers immersed in hydrogen peroxide 30 per cent solution for 6 hours was found to be the best bleaching chemical and recorded maximum score for aesthetic and visual qualities. Sodium hypochlorite (15 %) took 14 hours for effective bleaching and recorded as the second best bleaching agent. Calcium hypochlorite recorded low visual and aesthetic qualities for bleached celosia flowers. Hypochlorite bleaching resulted in cellulose damage and yellowing. Vat colour group of dyes was found good for celosia. Under the Vat group, Basic Rhodamine, Methylene Blue and Auromine Yellow were suitable. Dyes at 0.2 and 0.3 per cent concentration gave high score for visual aesthetic qualities. Immersion of celosia flowers in dye solution for 10 and 15 minutes recorded similar visual qualities. Colour fading on storage was mimmum in Vat colour group and fast among Base group. The dyed celosia flowers had to be stored in dry cardboard boxes sprinkled with silica gel crystals at the bottom. Lining materials reduced, the level of colour fading on storage in celosia flowers dyed with pro cion colours. Level of colour fading on storage was highin dehydrated aster flowers. Gerbera recorded low colour fading on storage when packed in air tight containers after sprinkling silica gel crystals at the bottom. The floral crafts prepared can be made cost effective by using locally available materials and increasing the volume of production. Along with dry flower industry, there is ample scope for development of a number of subsidiary industries like preparation of baskets, paper, ribbon, metal and packaging for dry flowers and floral crafts. Thus this industry as a whole can contribute immensely to area development which in turn lead to the overall development of the nation.
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    ThesisItemOpen Access
    Morphological And Phytochemical Investigations On St.John`s Wort (Hypericum Spp.), a Potential Source Of Ant-HIV Compounds
    (Department of Plantation Crops and Spices, College of Horticulture, Vellanikkara, 2003) Ganapathy, V; KAU; Mini Raj, N
    Renowned laboratories throughout the world have been makuu; uucnse search hi detect and isolate potential chemicals from plants for curing AIDS. llvpcrtcmn is :\11 important genera yielding hypericin,a potential anti -I-IIV chemical I lvpcricin ll:l~ . been reported from many exotic Hypericum species. Investigations on the presence \Ii' hypericin in the indigenous flora (H mysorense and H jU/JOl1iClIl1I) arc i:ldiJl~' I kill" the present study entitled "Morphological and Phytochemical IJl\CSII!':lllllll~ .'11 St.Johns Wort (Hypericum spp.), a potential source or anti-HI V compounds" \I;I~ constituted. Two species of Hypericum were located in Kerala; H mysorcnsc .u the high ranges of Idukki and Wayanad districts and H. japonicum in Wayanad district. The natural habitat characters of H mysorense were studied at Vattavada in IduUI Phytosociological parameters such as density, abundance and per cent frequency were determined by quatrat studies. H mysorense was often present or seldom present , along with Pteridium aquilinum, Eucalyptus grandis, Lantana camara, Strobilanthus spp, Andropogon lividis and Chrysopogon zeylanicus in the high altitucle regions of Vattavada panchayat of Idukki district Chrysopogon zeylanicus is the dominant species in the eco system. H. mysorense is a shrub with stiff branches while H japonicum is a prostrate herb growing in marshy lands. Translucent glands were either streaks or dots in H. mysorense while it was pellucid dots in H japonicum. Stem anatomy of H mysorense revealed presence of "type B" secretory canals whereas it was absent in H japonicum. Histochemical tests indicated the presence of lignin in the leaf,stem and root of H. mysorense and H. japonicum. Leaf, stem and root of H. japonicum had phenolic compounds while there was no indication for the presence of these compounds in the stem of H. mysorense. The primary metabolites like starch, total sugars,protein and total free amino acids on leaf, stem and root were quantified. Qualitative test for anthraquinone was negative in both the species. When tested using TLC for the presence of hypericin ,no spots corresponding to In \ .iluc o ! standard hypericin were observed in H. mysorense and H. japonicum samples Commercial extract of H. perforatum (Eleve®,) had 0.22 to 0 25 per cell! hypericin. Even though the samples of the indigenous Hypericum sP/' (//. mysorense and H. japonicum ) were negative for hypericin - the target anti-l ll V compound, they were indicative for the presence of anthronoid derivati ves. These anthronoid derivatives could be the precursors or intermediary compounds for the hypericin synthesis in the plant metabolism. These compounds need further analysis for identification and characterization for anti-HfV property.
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    ThesisItemOpen Access
    Impact of bioagents and soil amendments on the performance of patchouli (pogostemon patchouli pellet.)
    (Department of Plantation Crops and Spices, College of Horticulture, Vellanikkara, 2004) Smilu, Babu; KAU; Asha Shankar, M
    An experiment entitled "Impact ofbio agents and soil amendments on the performance of patchouli" was conducted at the Department of Plantation crops and Spices, College of Horticulture, Vellanikkara during 2002-04 to elucidate the effect of application of bioagents, soil amendments and bioregulators on growth, yield and oil quality of patchouli. The study was also aimed at refming vegetative propagation technique to generate disease free quality planting materials. The investigations were conducted in two experiments. Results of the first experiment, " Impact of bioagents on the production of quality planting materials in the nursery "revealed that bioagents had a significant influence on the growth characters of the crop in the nursery stage wherein significant differences were observed among the treatments with respect to characters such as number of leaves, number of roots, length of roots and root volume. Root characters were markedly influenced by bioagents and bioregulators. Root length and root volume were found the highest for the treatment receiving combined application of Trichoderma and Pseudomonas fluorescens at the rate of 2 g each at the time of planting. This treatment also recorded earliest sprout emergence in 6.3 days after planting the terminalcuttings in the nursery. Terminal cuttings which were treated with IBA at the rate of 1000 ppm at the time of planting came to rooting earlier in 8 days after planting in the nursery. Root number was also recorded the highest with the same treatment. The highest leaf number in 45 days old patchouli plants was recorded in nursery with the incorporation of Trichoderma at the rate of 2 g per bag. This treatment also recorded the highest sprout length of 0.45 cm. Earliness in sprouting, length of sprout and earliness in rooting were not found influenced by bioagents in nursery experiment. Plants raised in the nursery by the combined application of Trichoderma and Pseudomonas fluorescens rated the best in the nursery were selected for main field experiment. Impact of bioagents and soil amendments on growth, yield and oil quality were studied in the main field and results obtained revealed that treatments ~----.-.- .. -- involving combined application of bioagents and soil amendments significantly influenced the growth and yield parameters of the crop plant .. Plant height was the highest with the combined application of lime, neem cake, Trichoderma and Pseudomonas fluorescens along with the application of recommended doses of FYM and NPK both in main crop and regenerated crop. Compared to control, this treatment also improved vegetative characters like number of leaves and yield attributes like fresh herb yield and fresh leaf yield both in main crop and regenerated crop. Combined application of control, lime, neem cake and Pseudomonas fluorescens along with the recommended doses of FYM and NPK recorded highest number of branches and greatest plant spread. Leaf area also was found varying significantly among treatments. Application of neem cake, Trichoderma and Pseudomonas fluorescens in addition to the recommended doses of FYM and NPK recorded the highest leaf area. Dry leaf yield recorded was also the highest with the same treatment. Oil yield and oil content in the plant were found to be significantly influenced by bioagents and soil amendments. The plants treated with a combination of neem cake + Trichoderma + Pseudomonas fluorescens along with the recommended doses of FYM and NPK recorded highest values of oil yield and oil content. Physicochemical properties of the essential oil of patchouli were analysed wherein it was, observed that specific gravity of oil between 0.940 and 0.953 and refractive index was recorded between 1.5032 and 1.5150 at 31 Qc. Gas chromatographic profile of oil samples were analysed and significant variation with respect to the application of various treatments was observed. Number of components present in the oil sample varied significantly among treatments. It is observed that when the number of peaks increases, the percentage of major components in the oil decreases. Treatments receiving neem cake along with NPK and FYM recorded maximum number of components in the oil sample. It is found that neem cake can add optimum level of nutrients to the soil at a slow and steady rate which finally resulted in the increment of oil components.
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    ThesisItemOpen Access
    Quantitative and qualitative changes in coleus (Solenostemon rotundifolius (Poir) J.K.Morton) tubers during development and storage
    (Department of Processing Technology, College of Horticulture,Vellanikkara, 2003) Ramesh, A; KAU; Narayanankutty, M C
    Studies were conducted at Regional Agricultural Research Station, Pattambi and the College of Horticulture, Vellanikkara to analyse the quantitative and qualitative changes during development and storage of coleus tubers. During the development the total fresh biomass of the plant increased up to 90 days after transplanting in all the varieties. The absolute growth rate was highest between 75-90 days after transplanting. The leaf fresh biomass increased up to 60 OAT in all the varieties and at this stage more than 50 per cent of dry matter was present the leaves. The stem fresh biomass of stem increased up to 120 OAT, the fresh biomass of root also increased up to 120 DA T and the rate of accumulation of root dry matter was high up to 120 OAT. The fresh biomass of tuber and dry matter accumulation showed an increasing trend along with maturity of tubers. The higher growth rate was between 135- 150 OAT stages. Total number of tubers, length, diameter, peel thickness and peel percentage were found to increase with maturity of tubers. The peel colour changed from yellowish brown to brown and the flesh colour changed from yellowish cream to whitish cream during maturation. The starch and polyphenol content increased with the maturity of tubers, where as the soluble sugar increased up to 135 OAT and thereafter declined. The nematode infested tubers showed higher sugar and polyphenol content and lower starch content compared to non-infested one. The sensory evaluation indicated that the overall acceptability, increased with the advancement of maturity. Storage behaviour of coleus tuber was assessed under different conditions of storage. Sprouting and physiological loss in weight was lowest under the zero energy cool chamber storage. Room temperature and pit storage were rated next to zero energy cool chamber. The spoilage was minimum in tubers stored under room temperature followed by zero energy cool chamber. The starch content of tubers decreased and sugar content increased in storage. No definite pattern was indicated in the polyphenol content during storage. Tubers turned dark brown under low temperature storage conditions. The tubers stored under zero energy cool chamber showed better sensory characters. Peeled tubers could be stored for two days with minimum spoilage at 8-10°C. Hot air oven dried product had a higher rehydration ratio and better sensory quality compared to sun dried one.
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    ThesisItemOpen Access
    Genetic transformation and hairy root culture in ada-kodien
    (Department of Plantation Crops and Spices, College of Horticulture, Vellanikkara, 2001) Karmarkar, Shirish Hari; KAU; Keshavachandran, R
    The present study was undertaken at the Department of Plantation Crops and Spices, College of Horticulture, Kerala Agriculture University, Vellanikkara during May 1999 to October 2000 The study was undertaken to standardize the procedure to genetically transform Holostemma ada-kodien and induce hairy roots it was also envisaged to standardise the biochemical techniques for the estimation of secondary metabolites in the roots of Holostemma. Hairy roots were induced by infection of Holostemma explants with a gram negative soil bacterium, Agrobacterium rhizogenes. Leaf segments, shoot buds, intermodal segments, seedling hypocotyls and callus were used as explants for hairy root induction. Among them, the seedling hypocotyls showed highest potential for hairy root induction followed by shoot buds. Leaf segments, intermodal segments and callus did not induce hairy roots. Different strains of Agrobacterium rhizogenes viz PcA4, 15834, A4, 8196 and 2659 were evaluated for their ability to induce hairy roots in Holostemma explants. The strain PcA4 showed the highest potential for hairy root induction, followed by strains 15834 and A4. The strains 8196 and 2659 did not induce hairy roots. Direct inoculation of bacteria on wounds induced hairy roots on seedling hypocotyls only. Co-culture of wounded explants with bacteria induced hairy roots on seedling hypocotyls and shoot buds. In the direct inoculation method, the nature of bacterial inoculum and the intensity of bacterial inoculum applied on wounds influenced the transformation. Bacterial cell suspensions when applied on wounds induced transformation. Less intensity of bacterial inoculum when applied on wounds gave greater transformation frequencies and vice versa. In the co-culture method, the intensity of bacteria present during co-culture, the co-culture time and the shaker speed influenced the transformation. Comparative evaluation of varying intensity of bacterial population during co-culture and the co-culture time showed that, both less intensity of bacterial inoculum with more co-culture time and vice versa showed almost similar transformation frequencies (14.40 % and 14.51 % respectively). The shaker speed of 100 rpm gave the highest transformation percentage than 50 rpm speed. Shaker speed of 150 rpm did not induce any transformation. Application of different concentration of NAA prior to direct inoculation of bacteria on wounded explants did not aid in transformation. Addition of 2 mg 1-1 NAA in the co-culture medium, however, increased the transformation frequency from 25 per cent to 75 per cent. Photoperiod influenced the transformation frequencies. A photoperiod of 16 h light was found to be the best for hairy root induction in Holostemma. Media influenced the hairy root induction. Full strength MS medium favoured hairy root induction while ½ strength MS medium did not favour hairy root induction. Hairy roots were induced in a period of one to four weeks in all the treatments. The induced hairy roots showed altered phenotypes. The hairy root obtained directly from explants without NAA treatment were whitish, hairy and showed negative geotropism. The hairy roots obtained after NAA treatment were brownish yellow and were induced from calli formed on wounds after infection. Hairy roots obtained on infection with strains PcA4, 15834 and A4 showed the presence of agropine confirming their transformed nature. Normal roots did not show presence of opine (s). Hairy roots showed greater sensitivity to lower concentrations of NAA than the normal roots. At 10-9 M concentration of NAA the hairy roots showed lateral branch formation. The tubers and in vitro induced callus of Holostemma were tested for the presence of amino acids, essential oils, triterpenoids and sterols. Six amino acids were found in the root tubers while an additional amino acid (Rf 0.48) that may be L Proline or Cysteine MHC was found in the callus. Root tubers and callus showed the presence of essential oils, triterpenoids and sterols. Root tubers showed the presence of more number of essential oils and triterpenoids than the callus. The callus showed the presence of new terpene compounds. The two sterols present in root tubers and calli were identified to be α –amyrin and β –amyrin
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    ThesisItemOpen Access
    Root activity in pineapple (Ananas comosus (L.) Merr.)
    (Department of Pomology and Floriculture, College of Horticulture, Vellanikkara, 2003) Deepa, Raj M L; KAU; Baby, Latha A K
    All investigation was undertaken during 1999-2001 in the Department of Pomology and Floriculture, College of Horticulture, VelIanikkara, Thrissur to study the root activity in pineapple. The main objective was to know the most active root zone of pineapple and also to study the uptake of 32p by pineapple grown under different systems of planting. The root activity of pineapple varieties Kew and Mauritius grown in trenches and on surface was studied employing :l2p soil injection technique. Activity was applied at varying lateral distances and depth of 15, 30, 45 and 60 cm. The uptake and sharing of 32p by Kew and Mauritius grown under high density and 10\v density system of planting, in trenches and on surface was also evaluated. The results revealed that the most' active root zone of pineapple irrespective of variety and method of planting was LID! (15 cm lateral distance and 15 cm depth) in 32p absorption. The least active root zone was L4D4 (60 ern 'lateral distance and 60 cm depth). When lateral distance alone was considered irrespective of depth, variety and method of planting, the highest absorption of 32p was obtained from 15 cm distance at all sampling intervals. Depth also showed the same trend. There was no significant difference between the two varieties Kew and Mauritius and also between the two methods of planting (surface and trench method). When the percentage distribution of active roots of pineapple irrespective of variety and method of planting was observed it was seen that about 45.9 per cent of the root activity was concentrated in a soil zone constituting 15 cm lateral distance and 15 cm depth which was the active root zone. The least active root zone (L;D4) contributed only 0.49 per cent of the active roots. When lateral distance alone was considered, a lateral distance of 15 cm accommodated G 1.38 per cent of the active roots followed by 30 cm and the least from 60 cm lateral distance (3.16%). When depth was considered 73.2 per cent of the root activity was seen at the surfacel 5 ern soil layer followed by 30 cm The soil zone within 30 cm of lateral distance and 30 cm depth accommodate 80 per cent of the active roots. The root excavation studies revealed that Mauritius grown under surface method produced more number of roots. Regarding length an average of 24 cm was not iced When fresh weight and dry weight were observed Mauritius grown under surface method produced the highest value. The plant height and leaf number were not influenced by variety and planting method However trench method of planting produced more number or leaves than surface method. Significant difference was noticed between the two varieties when the flowering characters were taken into consideration. The studies carried out to know the uptake or :l2p by the treated and surrounding plants revealed that there was no significant difference between the two varieties Kew and Mauritius when the uptake by the treated plant was considered. Planting densities also did not show any significant difference. However regarding the method of planting, trench planting was found to be significantly superior to surface planting in theabsorption 0(l2p. Under high density and low density system of planting, Mauritius grown under trench planting recorded highest absorption of32p by the treated plant. It was also found that the applied activity was absorbed not only by the treated plant but also by the contact and neighbouring plants, which indicated the sharing of activity by the surrounding non treated plants. But the absorption by the treated plant was found to be more followed by the contact plants irrespective of variety, planting method and density of planting system.
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    ThesisItemOpen Access
    Selection index and activation of seedling growth in mangosteen
    (Department of Pomology and Floriculture, College of Horticulture, Vellanikkara, 2002) Mohamed, Yosuf L; KAU; Sajan, Kurian
    The experiments on "Selection index and activation of seedling growth in Mangosteen (Garcinia mangostana L.) were conducted in the central orchard attached to the Department of Pomology and Floriculture of the College of Horticulture from March 2000 to February 2002 with the broad aims of standardizing selection indices as well as activation of the seedling growth in mangosteen. Two separate experiments, one approach envisaging growth regulators and the .other involving arbuscular mycorrhizal fungi (Glomus mosseae and Glomus fasciculatum and Azospirillum with single super phosphate were taken up. The important results are as follows. Analysis of leaf biochemical characters of the mother plants belonging to different age groups «25, 25-50, 51-75 and >75 years) revealed that nitrogen, phosphorus, potassium and crude protein, were highest in the lowest «25 years) age group and least values were in the highest (>75 years) age group, except sodium, total phenols and total carbohydrates, which were maximum in the age group of 51-75 years. The number of seedless fruits and almost all the morphological characters of the fruit were highest in the age group of 51-75 years. Number of one seeded, two seeded and three and more than three seeded fruits were also varying among the four age groups. All seed morphological characters and number of ungerrninated seeds showed maximum values in the age group of 51-75 years and >75 years. Seeds obtained from the age group of 51-75 years showed earliness in germination but the percentage of germination was highest in the age group of 25-50 years. The biochemical characters of seed revealed that nitrogen, phosphorus, potassium, crude protein, total carbohydrates, total sugar and total phenols were maximum in the age group of25-50 years, whereas sodium and abscisic acid were highest in the age groups of less than 25 and more than 75 years, respectively. The morphological characters of seedling such as, height, girth, total number of leaves per seedling, total leaf area, survival rate at twelve months stage and root characters were highest in 25-50 years age group whereas the root and shoot dry weight were maximum in the less than 25 years group. Nitrogen, phosphorus, potassium, crude protein and sodium levels in the leaves of the seedling were highest in the age group of less than 25 years. Chlorophyll a, b, total phenols, total carbohydrates and abscisic acid contents were higher in the age group of 25-50 years. Maximum fruit index was observed in the age group of 51-75 years but seed and seedling index were highest in 25-50 years age group. Most of the seed characters were positively correlated with seedling characters. Though all the fruit characters were positively correlated with seed characters they were negatively correlated with seedling characters. Fruit index, seed index and seedling index were separately predicted using the prediction models fitted by multiple regression equations of principle components one and two with corresponding adjusted R2 values. Dominant characters among the age of mother plant, fruit, seed and seedling characters separately were found out by figurative plot principal component analysis based on morphological data of the above characters individually. Using step wise regression major characters contributing to seedling index were identified as age of the mother plant, seed thickness at centre, total leaf area, survival rate, fresh weight of root and plant, root length and total number of roots, which contributed maximum variation to seedling morphological characters and prediction model for fruit index, seed index and seedling index were fitted. To establish the similarities (or dissimilarities) between the four age groups, hierarchical cluster analysis using euclidean distance was performed which revealed that the younger two age groups (less than 25 years and 25-50 years) of the mother plants were the closest groups with respect to all characters. The four using discriminant functions were fitted to discriminate the four age groups with corresponding D2 values. The criteria and criterion were determined to describe the age groups of selected fruit, seed and seedlings collectively. By giving equal importance to age of the mother plant, fruit index, seed index and seedling index the selection index was worked out and the best age group of the mother plant for obtaining maximum growth of seedlings was identified as 25-50 years. Based on the correlations between various characters and growth index, the above or below average values with respect to each of the attribute (important and visual) belonging to the fruit, seed and seedling characters were identified. The mid values of the each attribute in the best age group were fixed as the index for selection. Among the growth regulator sprays for activating the slow growth in mangosteen, the best treatments were GA 150 mg r' followed by IAA 250 mg r'. Biochemical studies on the growth regulators treated plants revealed that the treatment that showed maximum growth also recorded the highest values of nitrogen, phosphorus, potassium, crude protein, chlorophyll a, b, total chlorophyll, total phenols, total carbohydrates and abscisic acid content. The treatment, which showed intermediate growth recorded intermediate values except for sodium, where it was maximum. The least content was observed in the treatments with least growth. The control plant showed intermediate values between the. values of plant with intermediate and least growth. Best treatment for activating the seedling growth among the treatments with arbuscular mycorrhizal fungi and Azospirillum inoculations were identified as, the combinations of Glomus Jasciculatum 5 g + Azospirillum 109 + single super phosphate 109 followed by GlomusJasciculatum 5 g + Azospirillum 20 g + single super phosphate 109. A rhythmic pattern was observed with the treatments showing best seedling growth also recording higher values of nitrogen, phosphorus, potassium, crude protein, chlorophyll a, b, total chlorophyll, total phenol total carbohydrates and the abscisic acid content, and the treatments showing in intermediate growth recording intermediate values except sodium. The least values were in treatments that showed least growth. The control plant showed intermediate values between the values of the plant with intermediately and least growth. The highest spore count was observed in the plants inoculated with Glomus Jasciculatum 20g + single super phosphate 109 followed by Glomus Jasciculatum20 g + Azospirillum 20 g + single super phosphate 10 g. With regard to the root infection, plants inoculated with Glomus Jasciculatum 5 g + Azospirillum 20 g + single super phosphate 109. and Glomus Jasciculatum 20 g + Azospirillum 109 + single super phosphate 109 revealed maximum percentage of infection. The Azospirillum population was maximum in the plants inoculated Glomus fasciculatum 5 g + Azospirillum 109 + followed by Glomus mosseae 20 g + Azospirillum 20 g + single super phosphate 109. The standard procedure for identification and quantification of abscisicacid (Little et al., 1972) was modified, as clear banding patterns were not obtained. Using the modified procedure, the characteristic-banding pattern corresponding to standard abscisic acid was obtained and confirmed when standards of abscisic acid were also simultaneously run with samples. Banding patterns and quantification of samples in each of the four age groups, the growth regulator treatments and the treatment with arbuscular mycorrhizal fungi and Azospirillum inoculated plants were also successfully conducted.
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    ThesisItemOpen Access
    Development of yellow vein mosaic virus (YVMV) resistant hybrids in Okra (Abelmoschus esculentus (L.) Moench)
    (Department of Olericulture, College of horticulture, Vellanikkara, 2002) Ravi, Sankar J; KAU; Sureshbabu, K V
    The investigations on "Development of yellow vein mosaic virus (YVMV) resistant hybrids in okra (Abelmosehus eseulentus (L.) Moench)" was undertaken at the Department of Olericulture, College of Horticulture, Thrissur during the period of 2000-2001. Fifteen lines viz., AE-198, AE-202, AE-210, AE-211, AE-214, AE-219, AE-238, AE-260, AE-264, AE-265, AE-275, AE-279, AE-280, AE-282 and AE-287 were crossed with two testers AE-285 and AE-190 (Parbhani Kranti) in line x tester mating design to produce 30 hybrids. These F I hybrids along with the parents were evaluated for several quantitative, fruit quality, qualitative characters and resistance to yellow vein mosaic virus. Among them, a parent AE-238 and two hybrids AE-238 x AE-190 and AE-265 x AE-190 were disease free in field screening, grafting and vector transmission studies. The general combining ability of the parents, specific combining ability of the hybrids and heterosis (relative heterosis, heterobeltiosis and standard heterosis) were estimated. The best general combiners were AE-202, AE-264 and AE-190 which showed significant high gea effects for most of the traits among the traits studied. Based on the per se and gea effects, the parents AE-264, AE-214 and AE-190 were found as best for crossing. Based on the per se performance, sea effects and heterosis on all the three bases, the hybrids AE-264 x AE-285 for plant height, AE-279 x AE-190 for internodal length, AE-219 x AE-190 for number of primary branches, AE-219 x AE-190 for petiole length, AE-264 x AE-285 for days to flowering, AE-202 x AE-285 for durationof flowering, AE-202 x AE-285 for first fruiting node, AE-264 x AE-190 for fruit length, AE-279 x AE-285 for fruit girth, AE-219 x AE-190 for number of fruits per plant, AE-202 x AE-285 for crop duration, AE-2l9 x AE-190 for yield per plant, AE-238 x AE-190 for mucilage content, AE-238 x AE-285 for calcium content, AE-279 x AE-190 for vitamin A content and AE-214 x AE-190 for magnesium content excelled other hybrids. Based on per se performance, sea effects and heterosis, hybrids AE-219 x AE-190, AE-264 x AE-285 and AE-265 x AE-190 were selected as top ranking hybrids. Among them AE-265 x AE-190 was not shown disease symptoms in field screening, grafting and vector transmission studies. So it was to be concluded as best hybrid having YVMV resistance. Reddish green colour of leaf base, green colour of leaf vein, deeply lobed nature of leaves, purple throat on both sides of corolla, slightly prickly nature of fruit, light green colour of fruit and five ridged nature of fruit were dominant. Yellowish with red colour on both sides of corolla in flower is incompletely dominant. Resistance to YVMV may be complex in nature probably involving major and minor genes with acting modifiers. Further studies are required to confirm it.