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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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ThesisItem Open Access Effect of planting date, weight of rhizome and spacing on the growth, yield and quality constituents on turmeric (Curcuma longa L)(Department of Horticulture (Plantation Crops & Spices), College of Horticulture, Vellanikkara, 1983) Chatterjee, R K; KAU; Mohanakumaran, NThesisItem Open Access Economics of banana cultivation in Trichur district(Department of Agricultural Economics, College of Horticulture, Vellanikkara, 1983) Indira Devi, P; KAU; Mukandan, KThis investigation on economics of banana cultivation in Trichur district was conducted during 1983.The study confined to irrigated nendran banana in Chalakudy block with the following objectives viz. to estimate cost and returns; to evaluate resource use efficiency in production; and to study the problems of banana growers. Ninetyeight holdings were selected by following the stratified two stage random sampling technique and the information was collected using a pretested schedule, through personal interview. The total cost of cultivation (cost C) of banana worked out to Rs.41814.13 per hectare. Of this, the most important item of expenditure was human labour. Average labour requirement for banana cultivation was 702.96 mandays per hectare. This was followed by expenditure on manures, fertilizers, propping materials, suckers and irrigation. All of the farmers in the locality applied chemical fertilizers though not upto the recommened level. Plant protection expenses were only 0.30 per cent of total cost. In the operationwise expenditure, manures and manuring operations demanded highest investment and formed 42.50 per cent of total cost. Propping, planting, after cultivation and irrigation, harvesting and handling and preparatory cultivation in that order were the other operations which needed investment. Plant protection operations accounted for 0.92 per cent of total cost. The average returns from banana cultivation were Rs.65011.90 per hectare. The net income from banana cultivation was Rs.23,197.77 per hectare with a benefit cost ratio of 1.55. On a per plant basis, the average cost of producing a bunch was Rs.14.31 and it gave a return of Rs.26. In the linear production function model fitted, plant population and expenditure on labour were the factors which had significant influence on the dependent variable viz. total returns. The former had a positive influence and for the latter the influence was negative. The same model was fitted for the data converted to a per plant basis. The analysis revealed that the farmers were using labour over and above the optimum level. So its use has to be restricted.ThesisItem Open Access Effect of growth regulators and certain formulations on bunch development in banana var. palayankodan(Department of Pomology & Floriculture and Landscaping, College of Horticulture, Vellanikkara, 1983) Rajendran, P; KAU; Aravindakshan, MThe yield of banana in Kerala remains very low inspite of the adoption of proper manuring and other management practices. Investigations have indicated that the main barrier to the increased production in banana is the lack of sufficient leaf area at the active phase of growth of the plants. The present experiment was conducted with the banana cultivar ‘Palayankodan’ under sparsely irrigated conditions with a view to increase the plant growth and ultimate yield by the use of growth regulators and commercially available formulations. The growth regulators viz., 2-4-D and NAA and the commercially available formulation namely ‘Navras Banana Special’ were tried at four different concentrations as given below:- 2,4-D - 5,10,15 and 20 ppm NAA - 20, 30,40 and 50 ppm ‘Navras’ - 0.25, 0.50,0.75 and 1.00 per cent The various chemicals at different concentrations were applied as two foliar sprays at three and four months after planting. A third spray was also given on the bunches immediately after the female phase of flower opening. On an overall analysis, 2,4-D at 20 ppm and ‘Navras’ at 0.50 per cent were found to be more effective in promoting the vegetative growth of plants. With respect to flowering and duration of the crop, the growth regulators alone had significant effects when compared to the commercial preparation ‘Navras’. The effectiveness also depended on the concentrations of the growth regulators. Thus 2,4-D at 20 ppm induced early shooting of plants by about 12 days whereas NAA at 50 ppm caused substantial delay in shooting. The chemicals at their various concentrations were not effective in influencing the bunch maturity, thus indicating that the applied chemicals caused the earliness or delay observed, through their influencedon the vegetative growth only. Consequent to the application of 2,4-D at 20 ppm the crop duration was advanced by 22 days. Contrary to this, NAA at 50 ppm delayed the duration of the crop. The treatments with 2,4-D at 5 to 20 ppm, NAA at 40 and 50 ppm and ‘Navras’ at 1.00 per cent were found to advance the ripening of fruits. The best quality fruits in terms of TSS and total sugars were obtained by the application of 2,4-D at 20 ppm. Among the concentrations of ‘Navras Banana Special’, o.5 per cent gave the best results with respect to the growth and yield of plants. When the concentration was increased further, there was a decrease in the performance of the plants. The optimum doze of ‘Narvas Banana Special’ was worked out to 0.534 per cent. The correlations worked out from the data collected revealed that the vegetative and bunch characters such as girth of psuedostem, number of functional leaves, total leaf area, length of bunch, number of hands and fingers per bunch, number of fingers per hand and weight of hand, length, girth and weight of fingers amply contributed to the overall yield in the form of bunch weight. The yield increase observed in the present study due to the application of 2,4-D at 20 ppm was by 88 per cent and that for ‘Navras’ at 0.5 per cent was by 96 per cent. The benefit/cost ratio worked out for these treatments did not differ and hence application of 2,4-D (20 ppm) and ‘Navras Banana Special’ (0.5 per cent) were equally good for increasing the yield. The present investigations were conducted under sparsely irrigated conditions where, irrigation was given just for the maintence of the crop. Further investigations with rainfed and irrigated ‘Palayankodan’ bananas may be of particular interest.ThesisItem Open Access Ochratoxicosis in the goat(Department of Pathology, College of Veterinary and Animal Sciences, Mannuthy, 1983) Maryamma, K I; KAU; Krishnan Nair, MAn experimental study was carried out to delineate the pathological effects of ochratoxin in goats. A comparative assessment of ochratoxin production by A. ochraceus and A. sulphureus on what and rice under static and shake cultures was also made. A. ochraceus was found to be a better toxin producing strain in both substrates under static and shake cultures systems and wheat was a better substrate than rice. Toxicity studies were conducted in Sannen – Malabari cross-bred goats of 1 to 3 months age. Purified ochratoxin produced in the laboratory was administered by oral, intra-peritoneal and intravenous routes. The different dose levels adopted were 2.5 mg/kg body weight, 1 mg/kg body weight and 0.5 mg/kg body weight. The synergistic effect of ochratoxin and aflatoxin in goats was studied by adminstering the crystalline toxins simultaneously (Makor Chemicals, Israel) by itraperitoneal route. The parameters of study were: clinical signs, haematological and biochemical alterations, pathological changes in urine, and macroscopic, microscopic and ultra-structural alterations in organs. Varying degree of clinocopathological changes were noticed in the test animals. The animals became weak and listless and in general there was reduction of total erythrocyte count, PCV, haemoglobin and lymphocyte count. Serum protein level was lowered while BUN and creatinine and blood coagulation time were high. There was rise in ALP, SGOT and SGPT in some of the test animals. The changes and degree of variation depended on the dose, total quantity and rate of administration of the toxin and duration of the experiment. More severe alterations were noticed when ochratoxin and aflatoxin were administered simultaneously. Important changes in the urine were lowering of pH, albuminurea and presence of epithelial cells and casts. Pathological changes varied in severity in different organs and were observed in the following descending order: kidney, liver, intestines, stomach, lymph nodes, spleen, thymus, genital organs, endocrines. In the kidneys, the order of intensity of pathological alterations was: proximal convoluted tubules, Henle’s loop, distal convoluted tubule, glomeruli, collecting tubules. Retrogressive changes of different degree and necrosis of the lining epithelial cells of tubules and endothelium and epithelium of glomeruli were the important lesions. Changes in glomeruli and Bowman’s capsule noticed in the higher dose group included shrinkage of glomeruli and presence of proteinaceous material in the capsular space. Eosinophilic granular casts and PAS positive bodies were present in the lumen of tubules. The necrobiotic renal changes were more intense when orchatoxin and aflatoxin were administered simultaneously. Hepatic lesions were mainly fatty infiltration, necrosis of hepatocytes and haemorrhage. The changes were most severe in combined toxicity. Mallory bodies and mild biliary hyperplasia were noticed in a few sections. Necrosis and subsequent depletion of lymphocytes wee the lesions in lymph nodes, spleen and thymus in some test animals. Degenerative changes were also noticed in testis, ovary, pituitary, adrenals and pancreas in experimental groups. In the combined toxicity group the pathological effect was more intense. At the ultra-structural level, the hepatcytes as well as the epithelial cells in the kidney showed severe changes. The cell organelles were either completely damaged or showed partial configurational alterations. Mitochondria showed changed in the density of matrix as well as disorientation and destruction of the limiting membranes and cristae. Cytolysosomes incorporating damaged cell organelles were abundant. Disaggregation of ribosomes and fragmentation of ER were noticed. In the glomerulus, there was destruction of the basement membrane and disruption of the regular arrangement of the foot processes of podocytes. In the cytoplasm of hepatocytes, Mallory bodies and lipid droplets were present. Varying degree of nuclear changes like clumping, condensation and disappearance of chromatin and fragmentation of nucleolus and nuclear membrane were observed. Changes occurred in the tight junctions of epithelial cells of bile ducts. Pathological alterations were more pronounced when ochratoxin was administered by the pwerenteral route. Oral administration of toxin also effected structural alterations which indicated that some fraction of ochratoxin escaped degradation in the rumen. From this study it became evident that aflatoxin potentiated the effect of ochratoxin. The structural damage to the cells might be due to the inhibition of oxidative enzymes which is reflected by the extensive ultra- structural alteration observed in the mitochondria and RER. Biochemical changes like high BUN and creatinine were evidently due to necrobiotic changes in the kidney. Interference in the synthesis of proteins due to damage of hepatic cells and escape of protein molecules due to alteration in the podocyte foot processes and basement membranes may account for the reduced serum protein levels. The nature of organellar destruction and configurational changes in the cells indicate the toxic potency of the mycotoxin on the biological system.ThesisItem Open Access Studies on purple top roll (PTR) of potato in Karnataka(Department of Plant Pathology, University of Agricultural Sciences, Bangalore, 1983) Sreedharan, A; KAU; Reddy, H R1. Survey for the incidence of potato purple top roll revealed that the disease was present in Bangalore, Belgaum, Dharwad, Hassan and Kolar districts of Karnataka. The average percentage of incidence varied from 8.94 to 50.07. The survey also indicated that there was low incidence of the disease in summer and high incidence in kharif and rabi. 2. The pathogen was transmissible by wedge, side and core grafting. 3. The disease was transmitted through dodder, Cuscuta chinensis Lam. 4. The disease was not transmissible through sap and aphids Myzus persicae Sulz. And Aphis gossypil Glov. 5. The etiological agent was transmitted by the leafhopper, Orosius albicinctus Distant and not by Hishimonus phycitis Distant. 6. The vector, O. albicinctus could acquire the pathogen in two hr and inoculate to healthy plants in 30 min. The percentage of active transmission was 35 – 40 and the minimum incubation period in the plant was between 20 and 25 days. Maximum percentage of transmission was obtained on 40th day after inoculation. 7. Characteristic symptoms of the disease was inward rolling of basal parts of top leaflets, purple/pink pigmentation, smalling of leaves, excessive proliferation of axillary buds, erect appearance, production of purple coloured, aerial tubers and stunting and dwarfing of plants. 8. The etiological agent infected tomato, tree tomato, Datura stramonium and D. metel by grafting. 9. The pattern of spread of the disease in the field was from external source in the beginning and later the spread was within. 10. The vector population was correlated with the disease incidence in the field. The increase in the incidence of the disease followed the increase in the vector population. 11. The leafhopper vector, O. albicinctus Distant was high in the months from late June to December and low from January to early June. 12. The high population of leafhoppers was correlated with low temperature and high humidity and low population was correlated with high temperature and low humidity. 13. The disease appeared 40 days after planting in the field and then it gradually increased reaching the peak by 90th day. 14. The pathogen was transmitted through tubers for two successive generations but to a lower percentage in the second generation. 15. Of the 36 cultivars/varieties of potato tested under field conditions, none were found to be resistant, However, the vars. JF 542, JF 4612, JG 676, JG 900, JC 750 and JE 812 had less than five per cent infection. Kufri Chandramukhi and Kufri Jyoti were highly susceptible having 48.3 and 47.6 per cent incidence, respectively. The highest average incidence of PTR in these cultivars in farmer’s fields was 35.85 and 26.03 per cent, respectively. 16. There was considerable loss in yield in many cvs. Viz., JC 750, BS/F 100, JC 182 and EM/F 2120. 17. The weight of tubers produced by the infected plants was always less than the tubers obtained from the adjacent healthy plants. The infected plants produced more number of smaller tubers which aggregated close to the main stem attached on short stolons. 18. Complete remission was obtained at 500, 1000 and 2000 ppm, incomplete remission at 100 and 250 ppm and no remission at 50 ppm of tetracycline given alternatively for 20 days.ThesisItem Open Access Immunogenicity of an indigenous isolate of newcastle disease virus and Its usefulness as a vaccine strain(Department of microbiology, College of veterinary and animal sciences, Mannuthy, 1983) Murugan, M R; KAU; Suloohana, SThe newly isolated mesogenic strain of Newcastle disease virus (NT) from an ailing mynah was studied in detail with particular reference to its biological characteristics, pathogenicity and immunogenicity. The results of various studies were compared with that of Komorov strain, a known mesogenic strain. The titer attained in developing chick embryos, mean death time of inoculated chick embryos at terminal dilutions, neuropathogenicity index in day old chicks and intravenous pathogenicity index were 109.5 /0.2 ml, 87 hours 0.63 and 0.00 respectively for the MT strain. The above values in order were 1010.5/0.2 ML, 76.5 hours, 1.16 and 0.000 for the Komorov strain. The infectivity of MT strain was labile at 560C for 10 minutes and the haemagglutinin was completely lost within five minutes. On the other hand the infectivity and haemagglutinin of K strain were comparatively resistant. Strain MT was pathogenic to day old chicks in which 26.6% mortality was noticed. In recovered chicks sufficient HI antibodies were seen and all of them withstood challenge. Although comparable results were obtained for Komarov strain, it was less pathogenic to day old chicks. Though 23.3% of chicks manifested clinical symptom only 3.3% died and the remaining birds recovered. In three weeks old chicks MT and K strain were found to be nonpathogenic either by S/C or oculonasal route. The inoculated chicks were immune when challenged six weeks later. Even in six weeks old chicks having no base immunity no post-inoculation reactions could be detected. All the chicks showed a rise in antibody titer reaching the peak level by the end of the third week and were resistant to challenge after six weeks. In chicks aged six weeks having a base immunity with strain were also free from any post infection reaction either by I/M or S/C route or inoculation. Chicks in both the groups produced HI antibodies and was always higher in those received infection by I/M route. The peak titers were obtained at the end of the third week and then declined. Though the titers were low by the end of the 6th week all the chicks were resistant to ND when exposed to a virulent virus. 2.9% of the chicks that received K strain by I/M route showed post inoculation reaction and died of ND. The remaining chicks and those in the S/C group behaved the same way as those received NT strain. Though the antibody response of chicken to MT and K were not statistically significant in all the three experiments, MWU test revealed that MT has a significantly higher immunogenic effect than K as the former always had a higher means than the latter. The ability to infect in contact chicks was also investigated. Strain MT was less efficient in this property giving only 25% to 28% transmission. On the other hand K strain revealed significantly higher transmissibility as it could spread to 62.5 to 75% of the inoculated in contact chicks. The mesogenic strain MT is quite safe in chicks of three weeks of age and above. It is also a good immunogen producing HI antibodies which protected the chicks from challenge even after six weeks. However the strain can be recommended as a vaccine strain only after further field trials and its effects on egg production are worked out.ThesisItem Open Access Biochemical characterisation of coconut palms in relation to yield(Department of Horticulture (Plantation Crops and Spices), College of Horticulture, Vellanikkara, 1983) Narayanan Kutty, M C; KAU; Gopalakrishnan, P KAn investigation on the morphological and chemical components of yield in coconut palms was conducted at the College of Horticulture, Vellanikkara during 1981-83, in order to characterise the yield of palms based on these characters. Sixty palms of the cultivar West Cost Tall (W.C.T.) were selected from the existing Plantation at Agricultural Research Station, Mannuthy comprising twenty palms each under low, medium and high yield groups (< 40, 40-80 and 80 nuts/palm/year respectively). Observations on morphological characters such as number of leaves, length of leaf, length of petiole, number of leaflets, length of leaflets, periodicity of leaf emergence and girth at collar were recorded at bimonthly intervals. Analysis of leaf samples from the leaf position 14 were taken up to estimate the contents of nitrogen, phosphorus, potassium, calcium, magnesium, soluble sugars, starch, total phenols, free amino acids, total chlorophyll, catalase activity and peroxidase activity during March-April and September-October seasons. There was a significant positive correlation for number of leaves, length of leaves, number of leaflets, length of leaflets and girth at collar with the mean annual yield. The periodicity of leaf emergence had a negative correlation with yield. Among the mineral nutrients, nitrogen and potassium had significant positive correlation with yield. Phosphorus, Calcium and magnesium failed to show any linear relationship. The nutrient ratios viz., N/Ca, K/P, K/Ca, K/Mg and K/Ca + Mg also exhibited significant positive correlation with yield. The biochemical components such as soluble sugars and total chlorophyll content in the leaf lamina had significant positive correlation with yield. Total phenolic compounds present in the leaf lamina had a significant negative correlation with yield. Starch content in the leaf did not show such relations. The free amino acids present in traces in the leaf were identified. Leaf catalase and peroxidase activity exhibited no definite pattern of variation in relation to yieldThesisItem Open Access Studies on the fermentation and curing of cocoa beans(Department of Plantation Crops and Spices, College of Horticulture, Vellanikkara, 1983) Premalatha, T; KAU; Mohanakumaran, MInvestigations conducted at the College of Horticulture, Vellanikkara during 1979-81 indicated mini- basket lined with banana leaves and mini- box as the methods suitable for fermenting small quantities of beans . These methods were chosen from among the seven studied , based on the temperature development in the ferment and on the result s of the cut test. Polythene sheet was found to be a poor insulating material as compared to banana leaves having led to unsatisfactory aeration and low temperature build up during fermentation. Fermentation during the dry season was found to be better with respect to the fermentation characteristics and physical quality characteristics of the beans. Fermentation of beans from yellow /ripe pods and over-ripe pods gave higher proportion of commercially acceptable beans . The cured beans had desirable PH and good physical quality characteristics. Storing the harvested pods for two to six days before the extraction of beans for fermentation led to the development of optimum temperature in the ferment , desirable pH in the dried and the production of a higher proportion of commercially acceptable beans. Storing the cured beans increased the proportion of commercially acceptable beans . An increase in the pH of the beans was also observed during the 28-week storage.ThesisItem Open Access Incorporation of two main sources of resistance to bacterial wilt in F1 generation of tomato lycopersicon lycopersicum (L) karst(Department of Horticulture (Olericulture), College of Horticulture, Vellanikkara, 1983) Sree Latha Kumari; KAU; Gopalakrishnan, P KBacterial wilt of tomato caused by pseudomonas solanacearum (E. F. Smith) is a serious disease causing considerable damage in crops grown in the acidic soils of Kerala. Development of resistant variety(s) could be a worthwhile attempt which would have considerable impact on tomato production in Kerala. Experiments were planned and carried out during 1981-82 at the Instructional Farm of College of Horticulture, Vellanikkara, Trichur, to incorporate two reported sources of resistance in F1 hybrids and then to find out inheritance of combined resistance to bacterial wilt. Two distinct sources of resistance one derived from Louisiana pink possessing North Carolina type of gene system and the other from P1 127805A possessing Lycopersicon pimpinellifolium type of gene system were made use in the present study. Interspecific F1 hybrids were produced between the above two sources of resistance. The F1S were selfed to generate F2S. Parental lines, F1S, F2S were further grown to evaluate the inheritance of combined wilt resistance in a field which was known for disease susceptibility and inoculum potential. The inheritance studies indicated a complementary and hypostatic type of digenic recessive gene system responsible for combined wilt resistance. Interspecific F1 heterosis was estimated. Significant negative interspecific heterosis was observed for days to first flower, days to first fruit harvest, plant height, branches/plant, locules/fruit and fruit weight. Genetic distance (D2) was calculated to find out genetic similarity/dissimilarity between Lycopersicon pimpinellifolium (LE 218) and ten lines of Lycopersicon esculentum. The line LE 217 was observed farthest to Lycopersicon pimpinellifolium (D2 = 449.87). The line LE 212 was the closest to Lycopersicon pimpinellifolium (D2 = 159.96). The line LE 217 had a disease score of two indicating high field resistance. The tomato lines were further evaluated for incidence of nematodol root knots and observed that all the lines were susceptible to nematode. The F2 lines possessing combined wilt resistance are being progressed for further study.
