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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 Performance of desi x exotic cross-bred layers(Department of Poultry Science, College of Veterinary Science, Mannuthy, 1992) Jayanthy, M V; KAU; Leo, JosephData were collected on egg production performance of two cross-breds viz. desi X Austra White (DAW) and desi X New Rock (DNR) from 20 to 40 weeks of age. The birds in each cross consisted of naked neck and normal neck varieties. DNR cross birds were significantly heavier at 20 and 40 weeks of age than DAW cross birds. The body weight in Naked neck and normal neck varieties comparable in both crosses. Age at sexual maturity was 184 and 189 days in DNR and DAW crosses respectively. Hen housed and hen day egg numbers were similar in both crosses (37.61 and 47.61 vs 34.40 and 47.81), while the naked neck birds in both crosses showed higher hen housed and hen day egg number between the varieties in DAW cross was significant (53.82 Vs 34.86). The eggs were significantly heavier in DNR cross than in DAW cross (46.74 Vs 44.88) whereas the varieties with in both crosses laid eggs of similar size. The mean daily feed consumption and feed efficiency were also similar in both crosses (106.61 g and 4.09 Vs 104.95 g and 4.93). In DAW cross, the naked neck birds registered a better feed efficiency. While DNR birds were multicolored and laid brown eggs, DAW crosses consisted of only black, grayish white with black patches and grey birds which laid tinted eggs. Broodiness was observed in both the crosses. Egg quality was excellent in both the crosses and varieties with in crosses, at 32 weeks of age. Livability was also similar in both crosses though it was poor. Considering the overall performance, the DNR cross was adjudged as a better cross for the backyard.ThesisItem Open Access Effect of floor density on production performance in Japanese quails reared in cages and deep litter(Department of Poultry Science, College of Veterinary and Animal Sciences, Mannuthy, 1993) Padmakumar, B; KAU; Reghunathan Nair, GTo suggest a suitable system of rearing and optimum floor space allowance for Japanese quail rearing, so as to reduce housing cost and to achieve batter efficiency, a study was carried out to evaluate the production performance of quails reared in cages and deep litter with different floor densities. In cage system of rearing the floor densities evaluated were 100, 150, 200 and 250 sq. cm and in deep litter system, 150, 200 and 250 sq. era per bird. The experiment was carried out from the fifth week of age to 50th week of age each group with four replications. Except for the difference in floor densities, ail the managemental practices followed were the same and the data war. recorded for nine, 35-day periods. The system of housing had no effect on the body weight, but an increase in floor space resulted in a hike in the body weight. Age at first egg, IQ per cent production and 50 per _cent production were not influenced by the type of housing. in deep litter system, they were signifieantly affected by the different floor densities?, but not. in cage system of rearing, System of housing did not affect the egg production. But in cages, different flour densities significantly affected the egg production. This was not seen in deep litter system of rearing. The mean daily feed consumption was not affected by the system of housing. But the different floor densities in cages and deep litter had significant effect on feed consumption. System of housing and floor density variation had no effect on feed -efficiency. The percent Livability also has shown a similar trend. System of housing significantly affected the weight of eggs. The treatment groups in cages significantly affected the egg weight, but not in deep litter. Egg quality traits were neither affected by system of housing nor the floor density variations. Based on correlation of part year and full year productions, 35 weeks of age was found advantageous for selection of breeders. In cage system, it was found to be 15 weeks and in deep litter 35 weeks . The returns over feed cost was found to be better in cage system of rearing compared to deep litter. Between the different floor density allowances, 200 sq.cm floor space per bird surpassed all the other treatments. So it is concluded that the floor space allowance of 200 sq. cm per bird in cages is ideal for Japanese quail rearing.ThesisItem Open Access Requirements of protein and energy for broilers during summer season(Department of Poultry Science, College of Veterinary and Animal Sciences, Mannuthy, 1992) Amritha Viswanath; KAU; Ramakrishnan, AAn experiment was designed and conducted to establish the requirements of protein and energy for broilers during the summer season in the hot and humid atmosphere of Kerala. Four trials were conducted in a span of two years. In each trial the following energy-protein combinations at starter, and subsequent finisher diets were tested in a completely randomised design. Treatment Starter Finisher Diet 1 22% CP:2900 Kcal ME/kg 19% CP:3000 Kcal ME/kg Diet 2 24% CP:2900 Kcal ME/kg 19% CP:2900 Kcal ME/kg Diet 3 26% CP:2900 Kcal ME/kg 19% CP:3000 Kcal ME/kg Diet 4 26% CP:2900 Kcal ME/kg 19% CP:2900 Kcal ME/kg Trials corresponding to the same period for the two years were pooled and the results were presented as Period A (started in early summer and ended in peak summer) and Period B (started in peak summer and ended in late summer). Except for the difference in nutrient intake, all the management practices followed were uniform for the differenttrials and treatment groups. Feed and water were given ad lib. The chicks were fed with starter diet upto six weeks of age and finisher diet upto eighth week of age. Results of the study revealed that body weight at eighth week of age was not influenced by different- energy protein levels in the diet during both Period A and Period B. But difference between periods was statistically (P < 0.01) significant. Broiler chicks reared during Period A showed significantly lower mean body weight at eight week than Period., B. Dietary combination of 22:2900 in the starter and 19:3000 in the finisher stage upto eight weeks of age was found to be optimum for growth of broilers in summer months in Kerala. Body weight gain was not influenced by the dietary. treatments and by periods upto sixth week of age. Thereafter body weight gain was influenced by season. Broiler chicks reared during Period B showed higher body weight gain than Period A. Maximum body weight gain was recorded at fifth week of age in both Period A and Period B. Feed consumption was not affected by dietary treatments in both Period A and Period B, but was significantly affected by periods at seventh and eighth week of age. Feed efficiency was also not affected by different dietary treatments upto eight weeks of age. Broiler chicks reared during Period A showed poorer feed efficiency from sixth week onwards.ThesisItem Open Access Effect of floor density on production performance of commercial hybrid layers(Department of Poultry Science, College of Veterinary and Animal Sciences, Mannuthy, 1992) Geo, A G; KAU; Amritha ViswanathIn order to prescribe optimum floor space allownace for the commercial hybrid layer ClLM-90) released from Mannuthy Centre of the 'AICRP on Poultry for Eggs' with the ultimate objective of reducing housing cost and achieving better labour efficiency, a study was carried out to evaluate its production performance on three different floor densities under "deep litter system of rearing. The floor densities evaluated were 1350/ 1575 and 1800 sq. cm. per bird. Each group was assigned to five replicates I and mean body weight at 20 weeks of age were kept uniform for all the replicates. Except for the difference in floor densities, all the managemental practices followed were uniform for the different treatment groups. Feed and water were given ad lib. The data were recorded for five, 28 day periods. Body . weight at 44th week of age and Age at fifty per cent production were not significantly influenced by the difference in floor densities- There was an increase in egg production as the floor space allowance per bird was increased and this increase was significant (P < 0-05) for the group provided with 1800 sq. cm. per bird than that of group provided with 1350 sq.cm. per bird. Feed consumption progressively increased as the floor space allowance increased and this increase was highly significant (P < 0.01). But/ the differences in feed efficiency among different groups were not statistically significant- Egg weight and other egg quality parameters such as shape Index, shell thickness. Albumen Index, Haugh Unit and Yolk Index were not affected by difference in floor space allowances. Mortality was also not found to be influenced by the difference in floor densities. Though the birds reared with a floor space of 1800 sq.cm. per bird showed higher egg production, the lower feed consumption, numerically higher efficiency of feed conversion and positive returns in terms of economics of production indicated that a floor density of 1350 sq.cm. per bird is more economical for the hybrid layer ILM-90 under Kerala condition.ThesisItem Open Access Effect of housing system on protein and energy requirements of white leghorn(Department of Poultry Science, College of Veterinary and Animal Sciences, Mannuthy, 1991) Anitha, P; KAU; Jalaluddin, AAn experiment was designed to study the influence of housing system on protein and energy requirements of strain cross White Leghorn chicken (ILM-90) from one day old to seventy two weeks of age. Seven hundred and twenty, one day old female chicks of ILM-90 (IWNxIWP) of the Mannuthy Centre of All India Co-ordinated Research Project on Poultry for eggs, were randomly divided into two groups of 360 chicks each, one group for floor and other for cage experiment. They were randomly alloted to 12 dietary protein energy combination groups with each treatment having three replicates and each replicate having ten chicks in both housing systemsThesisItem Open Access Evaluation of production performance in F strain of white Leghorn(Department of Poultry Science,College of Veterinary Science, Mannuthy, 1995) Beena, C Joseph; KAU; Peethambaran, P A (Guide)A study was carried out with âFâ strain of White Leghorn maintained at University Poultry Farm, Mannuthy in order to evaluate the production potential of the particular strain based on the part year performance. At the age of 18 weeks, 400 pullets belonging to four consecutive hatches were taken and housed in 100 multiple-bird cages of identical size at the rate of four hens per cage at random. Feed and water were given ad lib and the managemental practices were uniform for all cages. The production performance as well as meteorological observations were studied for five, 28-day periods from 21 to 40 weeks of age during the period from February through August 1994. Body weight at 20 and 40 weeks of age were recorded individually and the respective mean values were found out to be 944.05+ 8.86 g and 1346.67+ 12.19 g. The first egg in each cage was recorded and the mean age at first egg was 174.67+ 0.95 days. The mean ages at 10 and 50 per cent production in the flock were 178 and 196.5 days respectively. These values indicated very late maturity in the strain. The egg production was recorded as 56.73 eggs with 40.52 per cent on hen-housed basis and 57.09 eggs with 40.79 per cent on hen-day basis. The peak production was obtained at 32 weeks of age. The mean daily feed consumption was worked out as 93.83 g per bird. Feed efficiency worked out in terms of dozen eggs and kilogram egg mass were 2081 and 5.01 respectively. Egg weight at last three days in each period were indivitualy recorded and the overall mean egg weight for 21 to 40 weeks of age was 46.21 g. The total egg mass out put in the flock up to 40 weeks of age was 1044.07 kg with an average output of 2.61 kg per hen housed. Livability was found to be excellent (95.5 per cent ) in the strain. The mean of the maximum and minimum temperature recorded in the experimental house were 32.50 C and 26.120 C respectively. The mean per cent relative humidity was 76.67 in the F.N. and 69.18 in the A.N. On analysis of results, it was found that the body weight, egg production, feed consumption and egg weight are considerably low in this strain. There was poor uniformity in pullet body weight and also in age at sexual maturity. These traits can be improved if independent culling levels are fixed for body weight as well as for minimum rate of pay per bird. This strain can be improved further by applying selection for body weight at 20 weeks of age.ThesisItem Open Access Dietary protein and energy requirements of ducks for growth(Department of Poultry Science, College of Veterinary and Animal Sciences, Mannuthy, 1991) Peethambaran, P A; KAU; Ramakrishnan, A (Guide)A detailed study was undertaken to establish the dietary protein and energy requirements of ducks for growth and also to ascertain the optimum age at slaughter in white pekin ducks. An attempt was made to study the general trend of growth in pekin ducks fed with different levels of protein and energy. An exhaustive review of literature has been presented on the effects of dietary protein and energy levels on growth and associated traits in pekin ducks. Five hundred and four (504) one-day old ducklings of white pekin breed were used for the study. Two feeding trials each for a period of ten weeks were carried out using nine experimental diets containing three levels of protein (17,20 and 23 per cent) and three levels of metabolisable energy (2400, 2600 and 2800 K Cal ME/kg). In each trial, the diets were fed to nine groups consisting of 28 ducklings in four replicates of seven ducklings each. The effects of protein and energy on production traits revealed the following: The requirements of dietary protein for optimum growth of white pekin ducks were 23 per cent until third week, 20 per from fourth to sixth week and 17 per cent from seventh to tenth week of age. The metabolisable energy requirement for optimum growth was proved to be 2400 K cal ME/kg diet from day-old to ten week of age throughout. The weekly body weights of ducklings receiving 20 and 23 per cent protein were significantly better until sixth week. Even though, ducklings receiving 17 per cent dietary protein were significantly lighter until sixth week, they recouped body weights by compensatory growth from seventh week onwards. The ducklings receiving dietary energy level 2600 K cal ME/kg have shown significantly higher weight gain and live body weight at first week. The second and third week gains and body weights were significantly higher in ducklings receiving 2400 and 2600 K cal ME/kg diet. The ducklings receiving 2800 K cal ME/kg showed significantly lower body weights and gains until third week. The weekly gains and body weights at sixth week were statistically comparable among the three energy levels studied. Rapid growth at early ages with 20 and 23 per cent protein was observed until fourth week. The growth was slow with 17 per cent level and peak gain occurred at fifth week. Protein x energy interaction effects on weekly body weights were non-significant. The interaction effects were significant in respect of sixth week weight gains, and feed intake at first week, fifth and sixth week of age. The feed intake at second and third week showed significant increase with increasing levels of protein. The energy level 2800 K acl ME/kg diet reduced feed intake markedly until third week. The cumulative feed intake at tenth week ranged from 7.879 to 9.423 kg per duckling, among experimental diets. The weekly feed-gain rations and cumulative feed efficiencies revealed poor conversion rates beyond eighth week of age. The cumulative efficiencies at sixth week were 3.2, 3.3 and 3.4 with protein levels 17, 20 and 23 per cent respectively. The ready-to-cook yield at fifth, eight and tenth week were 66.39, 68.76 and 69.69 per cent respectively. The processing yields and losses, serum protein and haemoglobin levels; and the moisture, crude protein and ether extractives in liver and thigh meat were not significantly influenced by dietary protein and energy levels, and ages at slaughter. The marketing age in pekin duck was found optimum at sixth week on the basis of live body weight, feed conversion efficiencies and economics. Based on the above findings it was concluded that white pekin ducks require 20 per cent protein and 2400 K cal ME/kg diet until sixth week of age. In this study, the highest margin of return over feeding cost recorded with the above diet was Rs. 10.11 per duckling, at sixth week. Therefore, age for marketing pekin ducks was found ideal at sixth week on feeding medium level of protein with low energy density diet.ThesisItem Open Access Influence of pullet body weight on production traits in white leghorns(Department of Poultry Science, College of Veterinary and Animal Science, Mannuthy, 1995) Sudheesh Kumar, A S; KAU; Leo JosephA study was carried out at All India Co-ordinated Research Project on poultry for eggs, Mannuthy, to evaluate the influence of pullet body weight on egg production performance in IWN and IWP strains of White Leghorn. The experimental birds consisted of six body weight classes starting from 1000 g with a class interval of 100 g. Body weight at 20 weeks of age was considered as pullet body weight. The observations recorded were body weight at 20 and 40 weeks of age, age at first egg, hen housed number and per cent, egg weight at 32 and 40 weeks of age, livability and egg quality traits. The mean pullet body weight was 1304.7+4 g in IWN strain and 1335.2+3.5 g in IWP strain. Age at sexual maturity lowered as pullet body weight increased. A higher egg number was observed in heavier body weight classes. The peak production was delayed in lower body weight classes. Though egg weight at 32 weeks of age did not vary significantly among classes, higher egg weight at 40 weeks was recorded in heavier classes. Birds which were heavier at 20 weeks of age were also heavier at 40 weeks of age. But the gain in weight was lesser for higher body weight classes. The classes were similar for livability and egg quality parameters. The results revealed that an optimum pullet body weights an important requirement for IWN and IWP strains. Birds with pullet body weight below 1200 g were poor in most of the production traits in both IWN and IWP strains and therefore may be culled. Optimum managemental conditions may be provided during growing period to enable the pullets to attain good pullet body weight.ThesisItem Open Access Cellulase supplementation in high fibre diet on the performance of layer chicken(Department of Poultry Science, College of Veterinary Science, Mannuthy, 1996) Ponnuvel, P; KAU; Jalaludeen, AThe effect of three levels of cellulose enzyme viz., 0.06, 0.12 and 0.18 per cent in high fibre layer rations on production performance and on nutrient availability of egg type chicken was evaluated using one hundred and fifty âFâ strain of Single Comb White Leghorn Pullets of 21 week of age for a period of 20 weeks. The birds were divided in to five dietary treatment groups viz., Standared layer ration (T1), high fibre layer ration (T2), high fibre layer ration with 0.06 per cent cellulase (T3) high fibre layer ration with 0.12 per cent cellulase(T4), high fibre layer ration with 0.18 per cent cellulase(T5). Standard layer ration (SLR) was formulated as per BIS (1992) specification for chicken layers. The high fibre layer ration was similar to SLR except the level of crude fibre which was enhanced to 12 per cent. The inclusion level of undecorticated sunflower cake was enhanced in order to obtain the desired level of crude fibre in the high fibre layer ration. The mean daily feed intake per bird was significantly (p<0.01) higher in birds fed high fibre diet with out enzyme and was different from all other groups. A numerical improvement in per cent hen-day and hen-housed egg production was noticed among enzyme supplemented groups. However, the increase was not statistically significant. Numerically superior feed efficiency was observed with all the enzyme supplemented groups when compared with standard layer diet as well as high fibre diet without enzyme. However, the differences among various treatments in feed per dozen eggs were not statistically significant. The gain in body weight of birds fed on high fibre diet with 0.12 per cent cellulase was significantly (p<0.05) higher than unsupplemented high fibre diet. Body weight gain was statistically comparable among birds fed on high fibre diet supplemented with different levels of cellulase and those fed with SLR. Cellulase supplementation did not have any significant influence on mean egg weight. Cellulase addition did not improve the dry matter digestibility. The apparent metabolisable energy (AME) values were significantly (P<0.01) higher in birds fed with high fibre diet supplemented with 0.12 and 0.18 per cent cellulase than unsupplemented high fibre control. The AME values of standard and enzyme fed groups were statistically comparable. Cellulase supplementation significantly (p<0.01) improved the apparent protein digestibility and ether extract digestibility when compared with high fibre control. Though numerical increase in the digestibility of fibre fractions viz., ADF and NDF was observed due to cellulase supplementation, differences were not significant among treatments, supplementation of cellulase enzyme significantly (P<0.01) reduced the moisture content of droppings when compared with unsupplemented high fibre diet. The viscosity of intestinal contents was significantly lower (p<0.01) in birds fed with high fibre diet supplemented with varying levels of cellulase. Cost of production of eggs was lower in all enzymes supplemented groups when compared with standard layer diet and high fibre diet without enzyme addition. Based on the above findings, it can be concluded that cellulase supplementation in high fibre later ration is beneficial especially when fibrous agricultural by-products are used as alternate feed ingredients in the chicken diet.
