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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 Bionomics And Host Range Of American Serpentine Leaf Miner liriomyza trifolii (burgess) (agromyzidae :diptera)(Department of Agricultural Entomology, College of Horticulture,Vellanikkara, 2003) Smitha, M K; KAU; Maicykutty Mathew, PThe present investigation on the "Bionomics and host range of American serpentine leaf miner, Liriomyza trifolii (Bugcss) (Agrornyzidae: Diptera)" was undertaken in the Department or Entomology, College of Horticulture, Vellanikkara during 2001-2002. Field surveys and laboratory studies were carried out with the objective of studying the biology, host range, natural enemies and seasonal incidence of L. trifolii. The biology of L. trifolii was studied by releasing a pair of one day old adult l1ies 10 the rearing cages where cow pea seedlings were kept as host plants and honey as a food source. The female Ily inserted its eggs in the tubular punctures made on the leaves with its pointed ovipositor. The oval, translucent, milky white eggs hatched in about 2.08 days. The larvae mined the upper leaf surface and produced characteristic serpentine mines. There were four larval instars having a total duration of 3.4days. Alter the larvae attained full size or 2.35 mm length and (),(i4 mill width it made a semicircular cut at the broad end of the leaf mine. Through this cut larva came out of the mine and fall down to the soil for pupation. Inside the soil the larva turned to golden yellow coloured pupa. Female pupa was larger compared to male pupa. Adult emergence took place after 7.9 days. The adults had a longevity varying form 4.5days for mall's and 7.4 days for females where as they were feed with 2 per cent honey solution. Adult females were larger than the males and had black pointed spot on the lower sick of last abdominal segment. The fecundity of female varied from 14.6 eggs per day per female. The adult female laid about 48-5'0 eggs in its life time. The ratio or oviposition or feeding puncture was I: R.QC) to 1: 9.3. The total life cycle from eggs to adult took 13.3 days. The host range was studied by conducting surveys at regular intervals. 48 host plants belonging to 13 plant families were reported as host plants of this pest. It is a highly polyphagous insect and majority or the host plants belonged to families of Cornpositac and Cucubitaccae. The intensity of infestation of 1.. trifolli on various crops were calculated by counting the number of larval mines per leaf on the upper, middle and lower leaves of the plants. The attack of L. trifolt! was more on the lower leaves compared to middle and top leaves. Cowpea was found to be the most preferred host plant of L. trifolii followed by ash gourd, ridge gourd, tomato, pumpkin and cucumber. Among the ornamentals dahlia and marigold were severely damaged by this leaf miner. The intensity of infestation per unit area was maximum on tomato (l.74 mines per cm2) followed by cowpea (1.14 mines per cnr'). The number of mines per unit area was lowest for pumpkin (0.33 mines per ern"). In the studies on the seasonal incidence of L. trifolii two peak periods of infestation was observed, one during November and the second during January. The leaf miner population was observed to be highest from second fortnight of November to second fortnight of April. A significant positive correlation of larval population with wind velocity, sunshine hours and evaporation rate was observed. Relative humidity and total rainfall had negative correlation with infestation of L. trifolii. Parasitisation of L. trifolii by larval and pupal parasitoids were observed and the percentage of parasitoids were observed and the percentage of parasitism was maximum during December, J,U1uaIY and February months coinciding with the peak infestation periods. These natural enemies can be effectively utilized for the management of L. trifolii.ThesisItem Open Access Evaluation of low-cost lining materials for field channels(Department of Land and Water Resources and Conservation Engineering, Kelappaji College of Agricultural Engineering and Technology, Tavanur, 2000) Abdu, Mudesir Issa; KAU; Reema, K PSeepage losses from field channels are too high, making surface irrigation the inefficient method of water application. The high cost of lining hindered the use of most of the common lining materials for lining field channels. With an objective of identifying and testing low cost lining materials for field channels, a study was conducted at K.C.A.E.T., Tavanur. Four low-cost materials were tested in the experiments. The physical property tests on different RHA-cement types showed that the waterpercentages required to attain standard consistency of the RHA-cements ranged between 58.33 to 58.53. The mean initial setting times observed were ranging from 55.67 min, for RHA-20, to 241.39 min., for RHA-40. The final setting times ranged between 397.74 and 600.36 min. The compressive strengths of the RHA-cement made mortars were determined after 3, 7, 14, and 28 days of curing. The two factor analyses of variance revealed that both the days of curing and RHA-cement types were sources of variation. RHA-20 mortars were significantly weaker than RHA-25 and RHA-30 mortars for 7 days of curing, and for 14 and 28 days of curing a significant difference in the compressive strengths ofRHA-20 and RHA-30 was observed. The average seepage rates were obtained as 3.536, 92.786, 356.278, 26.190 and 633.296 Vm2/day for plastic, RHA-30, Kaolinitic clay, Bentonite lined and the unlined channels respectively. The respective steady seepage rates from plastic, RHA-30, Kaolinitic clay, Bentonite lined and the unlined channels were 0.984, 72.283, 260.256, 12.530 and 433.886 Vm2/day. Plastic lining saved 99.774 per cent of the seepage as compared le. ti:,unlined. RHA-20, RHA.:.25, and RHA-40 linings respectively were having steady seepage rates of 150.917,11.959, 101.161 lIm2/day and saved 65.377, 74.315, and 76.792 of the seepage against the control.The RHA-30 lined surface was the smoothest with a roughness coefficient of 0.01853, the same were 0.0236, 0.0255, 0.02497 and 0.0238 respectively for plastic, Kaolinitic clay, Bentonite and unlined surfaces. The total number of weeds grown on plastic, RHA-30, Kaolinitic clay, Bentonite and unlined surfaces respectively were 294, 7, 287, 163,and 547. The initial costs of constructing I Km length of field channel were obtained as Rs.54657.86, 83008.84, 68062.50, 81490.31 and 21000.00 for plastic, RHA-30, Kaolinitic clay, Bentonite and unlined channels respectively. The actual cost required to construct the five 10 m channels with plastic, RHA-30, Kaolinitic clay, Bentonite linings and with out lining respectively were Rs. 548.40, 832.15, 618.45, 1330.08 and 210.00. From the overall compansons of water tightness" surface roughness, weed controlling ability, structural stability, durability and cost RHA-30 lining was found to be the best among the tested lining materials. A combination type lining using plastic and RHA-cement as a cover will probably be an ideal lining, as each can complement the shortcomings of the other.ThesisItem Open Access Effect of seal formation due to cattle manure application on infiltration and runoff(Department of Irrigation and Drainage Engineering, Kelappaji College of Agricultural Engineering and Technology, Tavanur, 2003) Rakesh, K N; KAU; Abdual Hakkim, V MThe application of soil amendment is one of the major management practices in farming operations. Nowadays, the importance of manure application as a soil amendment is increasing due to the increased concern for the ecology and environment its abundance in availability and low cost. The manures are rich in organic matter content and other nutrients. It changes the physical properties of the soil. But the excess application of organic manure may lead to detrimental results due to the surface seal formation. Hence, the present study attempts to assess the effect of seal formation due to cattle manure application on infiltration and runoff. In the coarse textured soils, like sandy loam soil the infiltration rate will be reduced and runoff will be increased. But in the fine textured soils, like clay loam soil, the infiltration rate will be increased and runoff will be reduced. The contents of the nutrients like nitrogen, organic matter and total solids in the runoff water and the physical properties like bulk density will increase with the increase in manure application and rainfall intensity. Hence it was concluded that, while applying manure on the field, the rate of application of the manure can be determined only after determining the soil texture and rainfall intensity. Otherwise, the manure application will be results in pollution of nearby water bodies.ThesisItem Open Access Optimal water use and cropping pattern for Thrithala regulator-cum-bridge project(Department of Land and Water Resources and Conservation Engineering, Kelappaji College of Agricultural Engineering and Technology, Tavanur, 2001) Saritha, E K; KAU; Sathian, K KReservoir projects involve huge financial investment and hence, every drop of water stored in the reservoir must be utilised very judiciously. Allocation of water in the case of multi-purpose projects among various competing needs such as drinking water, irrigation, pisciculture, downstream flow, etc. is a matter of great concern. Hence, formulation of optimal operational policies for reservoirs has become highly essential to improve their financial viability, social acceptability and overall performance. So a study has been undertaken for a regulator-cum-bridge under construction at Thrithala in Palakkad district of Kerala state in Indian peninsular with the specific objectives of determining the optimum water allocation of the reservoir for meeting various demands on it and obtaining the optimum cropping pattern for the command area. A linear programming model was formulated to optimize the reservoir operation of the multipurpose project with the objectives of Drinking water demand, Irrigation demand, Pisciculture demand, and Downstream flow demand, in the order of priority. The deviations of the allocations from the targets to be achieved were minimized by introducing penalty coefficients to each deviation according to their order of priority. Using the irrigation allocation from this model, another Linear Programming model was formulated to obtain the optimal cropping pattern for the command area. Both models were solved using Excel Solver software package. The optimal operational plan and the optimal cropping. pattern obtained were compared with the operating plan and cropping pattern proposed by the irrigation department. The optimal operation plan with the incorporation of additional objectives was found to be more socially acceptable and economically viable. The optimal cropping pattern showed that there is more than 100% increase both in the net benefit as well as in the net area irrigated.ThesisItem Open Access Optimal number and discharge rate of emitters for coconut palm in sandy loam soil(Department of Irrigation and Drainage Engineering, Kelappaji College of Agricultural Engineering and Technology, Tavanur, 2000) Priya Nair, G; KAU; Suseela, PAgricullurClI productivity is based on the availability of required water at proper time. As water is becoming Cl limited resource its efficient utilization is very essential. The distribution of rainfall in Kcrala is not adequate to meet the total welter requirement of coconut. Coconut in Kerala are mostly grown in sandy soils which has a poor water holding capacity. So drip irrigation is the best method of irriqation for coconut in this soil. The efficient design of drip irrigation system involves the optimal spacing of emitters, correct discharge rate anr' duration of inigc\lion based on the movement of soil moisture front. So the study of moisture distribution pattern under chip irriU(ltion is helpful in deciding optimum number and discharge rate of emitters and duration of irriqation required for coconut palms The study was conducted in the river side coconut gc)rdr.n of the instruclional Farm, I~CAET, TaVilrH1I. The size of the plot was 28x63m. The soil properties viz texture. bulk dcn-itv. infiltration rate, field capacity. hydraulic conductivity and permanent \vi!;JI1q point were observed. The drip system was installed in the fielc! Two different c!ischarge rates (4 and 8lph) and three f combination of number of emitters (3,<'1 & 6) were selected for the study. The maximum vertical and horizontal advance of soil moisture front for both the discharge rates (4 and 8 Iph) were noted. Empirical equations were also developed for both vertical and horizontal advance. The soil moisture contents were determined at different horizontal anc! vertical distances from the emitter, before irriqation, 1 hour, 24 hours and 3 days after irrigation by gravimetric method. The soil moisture contour maps were plotted and the moisture distribution efficiency was calculated for each treatment at all depths. The maximum vertical and horizontal advance was observed for 8 lph emitter compared to 4 Iph emitter. The welting front from a single emitter produced C\ bulb like \Netting pattern for both the discharges. The size of the wetting bulb increased with increase in discharge rate. The study revealed that 4 numbers of 8 Iph emitters give more uniform distribution compared to all the other treatments.ThesisItem Open Access Optimization of greenhouse ventilation for humid tropics(Department of Irrigation and Drainage Engineering, Kelappaji College of Agricultural Engineering and Technology, Tavanur, 2000) Jinu, A; KAU; Abdul Hakkim, V MIn any agricultural sector, the need of the hour is to maximize the yield per unit area to cater the needs of our population, which is exploding at an alarming rate. Protected cultivation or controlled environment agriculture is one of the methods to increase the crop production from unit area. Of the various forms of protected cultivation, greenhouses are most common. Our state falls under humid tropical climatic condition. Greenhouse cooling is to be done during peak hours of daytime under this climatic condition. Ventilation plays an important role in green house cooling. A study was conducted to determine the optimum greenhouse ventilation for humid tropics and to analyze the effect of different cooling methods viz. natural ventilation, fan and pad system, mist system and roof shading on greenhouse cooling. The study showed that natural ventilation could reduce the greenhouse temperature to a great extent. The different percentages of ventilation used for the experiment were 13.8, 11.5, 9.2, 6.9, 4.6 and 2.3. The study was also conducted without ventilation. As percentage ventilation increases, greenhouse cooling increases and inside relative humidity decreases. 13.8 percent ventilation gave maximum greenhouse cooling and this value is taken as the optimum percentage of natural ventilation. But the natural ventilation alone cannot meet the cooling requirement during peak hours. Fan and pad system is found to be not effective for greenhouse cooling in this particular study. Even 2.3 percentage of natural ventilation condition gave better cooling than fan and pad cooling system. Misting is an effective method to lower down the greenhouse temperature within a short period of time. Misting was done along with fans at different percentages of ventilation and the different climatic parameters were studied. The results showed that while misting, the maximum cooling was obtained at 2.3 percent of ventilation. Effect of roof shading on greenhouse cooling was tested with one shade net over the greenhouse. Roof shade has a significant effect on greenhouse cooling. Th inside temperature of the greenhouse was higher than the outside temperature by more than lOoe during peak hours of the day time, when no ventilation was provided and fan and pad system, mist system and shade cover were not used. But when the green house was covered with a shade net, an inside to outside temperature difference of one or two degree was observed. Also, while operating fan and pad system and mist system, shaded condition gave better cooling. Fan and pad system operated without shade cover, could not bring down the greenhouse temperature below ambient temperature. But for the shaded condition, greenhouse temperature could be lowered to a value less than the ambient temperature. Misting under shaded condition at 2.3 percent ventilation gave maximum cooling. Misting inside an unshaded greenhouse at 2.3 percent ventilation could bring down the greenhouse temperature to 32°C, but misting inside a shaded greenhouse at 2.3 percent ventilation lowered the greenhouse temperature to 29°C. Use of two shade net layers did not give any additional cooling, and at this condition the light intensity inside the greenhouse was only 10 percent of the outside light intensity. It only increases the cost of the greenhouse and hence it is not recommended to use two shade net layers for greenhouses.ThesisItem Open Access Simulation of a Reservoir system with multiple objectives(Department of Irrigation and Drainage Engineering, Kelappaji College of Agricultural Engineering and Technology, Tavanur, 2000) Leena, Divakar; KAU; Mary Regina, FDuring the past three decades, the application of the systems approach to reservoir management application has been established as one of the most important advances made in the field of water resources engineering. Water resources planning has become exceedingly complex and is bound to become even more complex in the future considering the various demands. Application of sophisticated techniques for scientific planning and utilisation of the limited available water resources has become highly necessary to meet the growing demands of various types of consumptive and non-consumptive needs. Though India has been endowed with plenty of rainfall, the distribution is uneven both in time and space. A reservoir system simulation model reproduces the hydrologic and in some cases economic performance of a reservoir system for given inflow and operating rules. A computer simulation model for a multipurpose reservoir system was developed and tested for Peechi reservoir of Kerala state in south India. The model was designed for monthly operation with historic inflow of 35 years. The model obtains the monthly releases for various uses. The monthly water requirements for different purposes like drinking, irrigation, pisciculture and recreation are taken as the target to be achieved by the model. Out of the different uses only irrigation demand had monthly variation and the rest were taken as constants along with the dead storage and the maximum capacity for opening of the shutters. The objective of the model is to minimise the deviations of the release from the targets for each demand. The model has been formulated with appropriate priorities, which satisfy the continuity and physical conditions of the system. The priorities of different water demands can be altered at any stage of the operation according to the changing needs of the region The program is written in Visual Basic-6.0 and the results gave the monthly releases and deficits of different demands. One advantage of the model is that even non technical decision makers can comprehend the results obtained from this. The efficiency of the model is such that the solution can be obtained in the quickest time possible and is very user friendly.ThesisItem Open Access Optimal cropping pattern for the better utilization of minor irrigation schemes(Department of Irrigation and Drainage Engineering, Kelappaji College of Agricultural Engineering and Technology, Tavanur, 2000) Bindu, J; KAU; Joby V, PaulA monthly irrigation planning model was formulated for determining the optimal cropping pattern in an existing lift irrigation scheme. The study deals with the use of Linear Programming technique which is a powerful tool in systems analysis for obtaining an optimal cropping pattern from various alternatives for a command area by the conjunctive use of surface water. The optimal cropping pattern was selected for two purposes, i e. to maximise the net economic benefit from the command area for an year and to maximise the net area put under cultivation in an year. Appropriate constraints were also included while formulating the model on total cropping area of each month, cropping area of each crop, surface water availability and monthly crop water requirement etc. The model is found very flexible to alter the constraints . makers decisions from time to time based on socio-economic considerations.ThesisItem Open Access Performance evaluation of hydrocyclone filter(Department of Irrigation and Drainage Engineering, Kelappaji College of Agricultural Engineering and Technology, Tavanur, 2001) Damodhara Rao, M; KAU; John Thomas, Kthe final efficiencies are almost the same irrespective of the concentration of soil suspension. The particle size distribution of underflow material for different concentrations of soil suspension indicates a measure of separation efficiency of the filter. It was found that the percentage finer to coarser particles is almost the same for all the concentrations but for lower concentrations, fine particles have higher percentage of finer. This may indicate the efficient separation of fine particles in the case of lower . concentrations of soil suspensions. For the soil suspension of 300, 600, 900 and 1200mg/1 the percentage of particles finer than 0.075111111 are 0.86, 0.58, 1.96 and 4.05% respectively. The higher value of concentration for 300mg/1 indicates the better separation of finer particles.