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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 Estimation of induced variability in chillies(Department of agricultural botany , College of agriculture Vellayani, Trivandrum., 1985) Lekha Rani, C; KAU; Krishnan Nair, NThe mutagenic effect of Co-gamma rays and Ethylmethane sulphonate on three different chilli varieties have bean studied in detail in generation U3 ing two moderate doses of gamma rays <20 and 30 kR) and two concentrations of ISMS (0.5 and 1*0 par cent)* The presence and extent of chimeras and their relation to induced variability was assessed by raising branch-wise progenies in ^ generation* The experiment was conducted during 1982-84 at the Department of Agricultural Botany# College of Agriculture, Vellayani* The generation was laid out in RBD and in splitplot design with proper randomisation and replications* The crop wa3 raised and maintained following the Package of Practices recommended. The polygenic traits analysed in a, generalisen include plant height, number of branches per plant, fruit yield per plant and length and weight of fruits. The data collected were statistically analysed for proper interpretation of tho results obtained. It has been observed in almost all the polygenic traits that the extent of variability created vary depending on the genotypes, mutagen and their dosos and character under observation. The mean values wer« found to shift both in negative and positive directions to control values• significant shift in mean values depending on the type of branch category clearly demonstrates that there exists the mechanism of diplontlc selection in this particular crop variety# when exposed to mutagens. But the extent of selection varies depending on the mutagen and their doses and the genotypes concerned. a significant negative shift in mean Value was noted only in the case of fruit weight under both the concentrations of EM3 and 20 kR gamma rays whereas a positive or negative insignificant shift was noted in all other characters under both the mutagens, when under EM3 and in gansna rays showed a negative shift* positive shift in mean value wes noted in majority of the cases for number of branches per plant. Fruit length and weight and number of seeds per fruit showed a negative shift in majority of the cases analysed# but fruit number and yield per plant showed a reverse trend. The shift in mean value under the different branch categories varied depending on the varieties# mutagens and their doses and also the character under study. The phenotypes were found toAdistributedboth in negative and positive directions to control group in all the characters analysed. The frequency distribution whether negative or positive varied depending on the mutagen and their doses# the genotypes and character under study. In majority of tha cases the maximum frequencies of positive variants under both the concentrations of EMS and under 0.5 per cent for negative variants were found to be in the early formad branches when it was in the later ones is tha case of negative variants under 1.0 per cent EMS. in the case of gamma rays this general trend was not observed* The data analysed clearly demonstrate the existence of diplontic selection and promises wide scope for positive selection response either in negative or positive directions.ThesisItem Open Access Study of genetic correlations under full -SIB mating system (Two loci case)(Department of Statistics, College of veterinary and animal sciences Mannuthy, Thrissur, 1985) Khin Moe Moe; KAU; George, K CA purely theoretical investigation entitled ,JA Study of Genetic Correlations under Fu ll-s ib Mating System (two lo c i case)*1 was carried out with the following objectives, i ) to derive the joint distribution (correlation table) and to find the correlation between fu ll -s ib pairs under fu l l -s ib mating system in the case of two lo c i when there i s no linkage as well as when there i s complete linkage. l i ) to derive the joint distribution (correlation table) and to find the correlation between parent-offspring pair© under fu l l -s ib mating system in the case of two loci when there is no linkage as well as when there is complete linkage, i i i ) to derive the joint distribution (correlation table) and to find the correlation between fu l l -s ib pairs under paront-offspring mating system in the case of two lo c i when there is no linkage as well as when there is complete linkage, iv) to derive the joint distribution (correlation table) and to find the correlation between parent-offspring pairs under parent-offspring mating system in the case of two lo c i when there is no linkage as well as when there is complete linkage. 2 Th© joint distributions of fu ll -s ib pairs and parent- ©Ffspring pairs undor fu ll-s ib gating system wore derived with the help of generation matrix technique and th© correlations wore worked out therefrom, assuming additive genie e ffec ts and using the product-momeni correlation coefficient formula. The correlations were worked out for tho f i r s t ten generations of fu ll -s ib mating in both cases of no linkage and complete linkage, & comparative study of fu ll -s ib correlations and parent-offspring correlationsf conducted both numerically and graphically, revealed that £i) evonthough fu ll -s ib correlation was greater than parent-offspring correlation in in i t ia l generation (random mating) when there was complete linkage, the la tte r increased more rapidly than the former from in it ia l generation to f ir s t generation and ( i i ) from the second generation onwards, the rate of increase in both o f correlations were nearly the same upto tenth generation. I t was interesting to note that the parent-offspring correlations wore of comparatively higher order than th© fu ll-s ib correlations in both cases of complete linkage and no linkage. Similarly, th© joint distributions (correlation tables) for fu ll-s ib pairs and parent-offspring pairs under parentoffspring mating system were derived employing generation matrix approach and the correlations for the f i r s t ten 3 generations of parent—offspring mating in both cases of no linkage and complete linkage were worked out therefrom. A comparative study of those correlations was carried out both numerically and graphically. It was found that the trend in both correlation curves remain the same, but the value of parent-offspring correlation was always greater than that of full-sib correlation in case of no linkage as well as in caso of complete linkage. In comparison of all these correlations, it was found that the correlations increased as the number of generation increased and ultimately reached the limit unity when the number of generations increased indefinitely large. It was also observed that the magnitude of correlation in case of complete linkage was more than that of correlation In case of no linkage even under the same system of mating*ThesisItem Open Access Potassium utilization in cassava (Manihot utilissina pohl) as influenced by neem cake - urea blend(Department of Soil Science and Agricultural Chemistry, College of Horticulture, Vellanikkara, 1985) Manorama Thampatti, K C; KAU; Padmaja, PPotassium utilization in cassava (manihot utilissima pohl.) as influenced by neem cake – urea blend. An investigation was carried out at the College of Horticulture, Vellanikkara, during the year 1983-84, which include a soil column study to understand the dynamics of NH4+- N and K+ ions when applied as urea or urea-neem cake blend either alone or along with muriate of potash. The columns were filled with soil collected from the field surface upto 60 cm depth. Each 15 cm was taken as a separate layer maintaining the same bulk density as observed in the field. Fertilizer treatments comprising, no fertilizer, urea or urea-neem cake blend to supply 100 ppm N and muriate of potash to supply 100 ppm K either alone or in combination were applied to the surface 15 cm soil and mixed thoroughly. The study indicated that under natural conditions NH4+ - N was concentrated more in the lower layers of soil beyond the root zone of cassava whereas potassium was concentrated more in the surface layers of 0-30 cm depth. Application of muriate of potash either alone or in combination with urea-neem cake blend increased potassium in the surface layer within eight hours after fertilizer application. When untreated urea granules were applied along with potassic fertilizer, a major part NH4+ - N was found either concentrated in lower layers, or nitrified and lost. But when urea-neem cake blend was applied along with potassic fertilizer a major part of nitrogen was retained as NH4+ - N in the surface layers upto two weeks and later it moved downwards. There was a drastic reduction of NH4+ - N status in the surface layers upto 45 cm after one week in untreated urea, whereas urea-neem cake blend maintained much of NH4+ - N in the surface 30 cm upto three weeks. Application of muriate of potash maintained highest potassium status followed by urea-neem cake blend along with muriate of potash. The maximum leaching loss of potassium was observed from untreated urea when applied along with muriate of potash. The loss was reduced considerably when potassic fertilizer was applied along with urea-neem cake blend. A field experiment was conducted as a continuation of the study carried out at the College of Agriculture, Vellayani, when urea-neem cake blend at 5:3 ratio increased nitrogen availability, nitrogen uptake and yield. But it had an adverse effect on potassium utilization of the crop resulting in poor quality tubers and the yield increase observed was not significant. The present experiment was planned to tide over this difficulty either by changing the time of application or increasing the rate of potassic fertilizer. Results of the experiment clearly showed that urea-neem cake blend increased nitrogen use efficiency of cassava as evident in higher soil available nitrogen and higher nitrogen uptake by the crop. When muriate of potash was applied one month after application of urea-neem cake blend, the uptake of potassium was not reduced considerably in the initial stages and at the same time uptake was comparatively higher at the sixth month and harvest stages. Potassium at 75 kg K2O ha-1 increased uptake of all nutrients and also produced maximum tuber yield of 21.39 tonnes ha-1, whereas application of potassium one month after application of urea-neem cake blend recorded 19.76 tonnes ha-1 of tuber yield which was on par with the former treatment. Potassium uptake at all major growth stages were significantly correlated with plant dry weight and tuber yield. Maximum benefit per rupee invested was obtained when the rate of potassium was raised from 50 kg K2O ha-1 to 75 kg K2O ha-1 along with 50 kg N as urea-neem cake blend. Changing the time of application of potassic fertilizers to one month and three months after planting also increased the benefit obtained. Both three treatments were on par with each other and significantly superior to others.ThesisItem Open Access Cost of cultivation and marketing of pepper in Cannanore district(Department of Agricultural Economics, College of Horticulture, Vellanikkara, 1985) Santhosh, P; KAU; Narayanan Nair, E RThe study was based mainly on the data collected from a sample of farmers and market intermediaries in Cannanore district of Kerala during the year 1982-’83. Data for estimating the cost of cultivation were generated from a random sample of 72 farmers, stratified on the basis of size holding. The costs were analysed input wise, operation wise and also based on ABC cost concepts in the aggregate level and stratum level. Capital productivity analysis was also attempted to study the economic feasibility of pepper cultivation. Pepper marketing was studied from the level of producers to the terminal market at Cochin. Price spread was worked out through the method of concurrent margins. Cost of production analysis was carried out both at the aggregate level and at the stratum levels for a period of seven years viz. from planting till the crop attained the stage of yield stabilisation. The annual cost for the seven year period at the aggregate level was found to be Rs.5,605, during the first year, Rs.2,475.06 in the second year, Rs.3,481.80 in the third year, Rs.3,514.48 in the fourth year, Rs.3,992.72 in the fifth year, Rs.4,715.12 in the sixth year and Rs.5,681.68 in the seventh year. In general the most conspicuous cost creating input was human labour while the corresponding operation was intercultural operations. Roughly one-fourth of the total cost was fixed cost and the rental value of the land was the predominant item in this. The cost of cultivation was highest in stratum II and less in stratum I. Analysis of capital productivity revealed that the investment on pepper cultivation had a pay back period of nine years two months and eleven days, benefit-cost ratio of 1.16, Net present worth of Rs. 6,646 and an internal rate of return of 17.22 per cent. The market practices, marketing costs, market structure and price spread were also studied. The marketing channels identified were: 1. Producer → Pre-harvest contractor → Wholesaler →Exporter 2. Producer → Village Merchant → Wholesaler → Exporter 3. Producer → Wholesaler → Exporter 4. Producer → Village Merchant → Commission agent → Wholesaler → Exporter 5. Producer → Commission agent → Wholesaler → Exporter 6. Producer → Village Merchant → Internal wholesaler (Consignment trade) The price spread in these six channels were worked out to be 28 per cent, 17.45 per cent, 12.65 per cent, 18.91 per cent, 14.11 per cent and 14.01 per cent respectively.ThesisItem Open Access Evaluation of a set of non-segragating and segragating populations of tomato for field resistance to bacterial wilt(Department of Olericulture, College of Horticulture, Vellanikkara, 1985) NarayananKutty, C; KAU; Peter, K VBacterial wilt caused by Pseudomonas solanacearum E.F. Smith is the single limiting factor for tomato cultivation in the warm humid tropical soils of Kerala. The susceptibility of reportedly resistant varieties elsewhere necessitates the need for continuous evaluation of tomato lines for wilt resistance. An experiment was planned and carried out during 1983-’85 at the College of Horticulture, Vellanikkara to identify new sources of resistance to bacterial wilt. The susceptible check Pusa Ruby showed 100% susceptibility in all the trials. The F2 hybrids of Saturn and LE 79 were found resistant, out of the four non-segregating (Saturn, LE 79, Pusa Ruby and Pusa Ruby x LE 79 F1) and two segregating populations (Pusa Ruby x LE 79 F2, Saturn x LE 79 F2) evaluated. In a repeated trial F3s were also evaluated along with the F2s and non-segregating populations (Saturn and FE 79). Resistance was observed in Saturn x LE 79 F3 (percentage wilt, 10.7) and Saturn x LE 79 F2 (percentage wilt, 18.23). Pusa Ruby x LE 79 F2 s and F3s were susceptible to moderately susceptible. Among the non-segregating populations, LE 79 showed moderate resistance, while Saturn was moderately susceptible to susceptible in both the trials. Information on days to fruit set, days to harvest, fruit yield/plant and average fruit weight were also gathered. A higher average fruit weight (44.63g) was observed in the resistant Saturn x LE 79 F3s. Evaluation of 15 reportedly resistant lines of tomato confirmed resistance in LE 79 LFG and LE 217. The line LE 79 LFG was also medium fruited (40.1g) and high yielding. Concentric cracking and irregular cracking were observed higher than radial cracking in all the lines evaluated. Fruit set ranging from 50 to 63% was observed in all the lines at higher night temperatures (230C average). Genetics of fruit shoulder colour revealed that white colour was recessive to green and governed by a single gene. Evaluation techniques like root dipping in bacterial culture and planting, stem inoculation in leaf axil and alternate row planting were compared with spot-planting for efficiency. Spot-planting was found easier and effective. The chances for escape are negligible in this method of evaluation.ThesisItem Open Access Pattern of root activity in bananas under irrigated and rainfed conditions(Department of Pomology and Floriculture, College of Horticulture, Vellanikkara, 1985) Sobhana, A; KAU; Aravindakhan, MThe experiments were undertaken with an objective to find out the most active root zone of banana var. ‘Nendran’ employing radioactive 32p. These were conducted in the College of Horticulture, Kerala Agricultural University, Vellanikkara, during the year 1983-84. The field experiments were laid out in randomised block design, with three replications and the plants were raised under normal conditions. While taking into consideration the number, length and diameter fresh and dry weights of roots, all these were found to be more for the rainfed crop than the irrigated. This explains the enhanced production of roots under conditions of moisture stress. The radioactivity was injected at four months ago of the plant. The area around each experimental plant was injected with 32p solution with the help of a dispensette. The different lateral distances used for the 32p injection were 20cm, 40cm, 80cm and 120 cm and the different depths were 5cm, 15 cm , 30cm and 60cm. The third leaf was radio assayed and the 32p counts were used for finding out the percentage of active roots at the various treatment sites. The results of radiotracer studies indicated that maximum percentage of active roots was located at a soil zone covering 20cm distance and 30 cm depth from the base of the plant under irrigated condition, at five and six months age of the plant. The rainfed crop had its maximum percentage of active roots at a soil zone of 30cm deep and 40cm away from the plant. As the lateral distances increased from 20cm to 120cm, a reduction was noticed in the percentage activity of roots accordingly, under both irrigated and unirrigated conditions. But the root activity was not significantly different at different depths for the irrigated crop, which was significant for the rainfed crop. Under high moisture stress roots tend to forage into deeper layers of soil for getting the available water. Hence deeper soil zones had more active roots under unirrigated conditions, compared to irrigated crop, which had more surface active roots. An experiment was also organized to study of the translocation of absorbed 32p to various parts of the plant after flowering under irrigated condition. It was observed that male flowers had maximum concentration of 32p followed by female flowers or fruits. Of the various leaves, topmost younger leaves were found to build up more 32p than matured leaves, indicating a translocation to the developing immature leaves.ThesisItem Open Access Optimization of enterprise combinations with special reference to garden land agriculture(Department of Agricultural Economics, College of Horticulture, Vellanikkara, 1985) Jayachandran, N V; KAU; Prabhakaran, TThis study on optimal enterprise combinations on garden land farms in Kerala was carried out using data collected from sample holdings selected from the ninth ward of Panancherry panchayath under Ollukkara block in Trichur district, through simple random sampling. The 72 holdings that formed the sample were grouped into four categories based on size of garden land holdings. The major constraints identified were land, labour in three seasons viz. June to September, October to December and January to May, irrigation and capital. Banana was identified as the most resource intensive activity followed by arecanut plus pepper. Cocoa was the least labour and capital intensive activity. Net margins calculated per unit of activity indicated that banana had highest net margin in all categories followed by arecanut plus pepper, coconut, cow, tapioca and cocoa in the decreasing order. Optimal plans worked out under existing conditions using linear programming technique for model farms under the four categories of holdings indicated a uniform tendency of increase in area under coconut over the existing plan. Except the optimal plan for the second category, which included arecanut plus pepper also, all other optimal plans had three enterprises viz. coconut, banana and cow. Cocoa and tapioca did not appear in any optimal plan. Maximum increase in net income of 52 per cent was recorded in optimal plan for first category. In other categories the increases were ten per cent in both second and third and nine per cent in the fourth category. Optimal plans resulted in more efficient use of resources. Sensitivity of optimal plans were tested by considering 25 per cent increases in prices of pepper and tapioca. The optimal plans at revised prices indicated decline in area under coconut over optimal plans at original prices in all categories simultaneously followed by appearance of tapioca in the first category and arecanut plus pepper in second, third and fourth categories. Banana was eliminated from second category and cow activity from the third category. Increase in net incomes on revised optimal plans over existing plans worked out to 54 per cent, 20 per cent, 13 per cent and 10 per cent respectively on categories I, II, III and IV.ThesisItem Open Access Influence of crop geometry on the growth and yield of rice variety jaya(Department of Agronomy, College of Horticulture, Vellanikkara, 1985) Usha, K E; KAU; Balakrishnapillai, PInfluence of crop geometry on the growth and yield of rice variety 'Jaya'. An experiment was conducted in the Regional Agricultural Research Station, Pattambi during the second crop season of 1983 to study the influence of crop geometry on the growth and yield of rice variety 'Jaya'. The experiment was laid out in split plot with three replications. The treatments consisted of six treatment combinations of two levels of spacing between plants (20 x 15 cm, 20 x 10 cm) and three levels of spacing between alleys (80 cm, 160 cm and 240 cm apart) in the main plot and four levels of crop orientation (north-South, East-West, diagonal planting North East-South West and diagonal planting North West-South East) in the sub plot. Observations on weather factors such as temperature, relative humidity, rainfall, sunshine hours, wind velocity and evaporation were recorded daily. Crop growth characters like height, number of tillers, leaf area index were recorded at different stages of development of the crop and yield components like number of productive tillers, length of panicle, and yield of girth and straw were noted during the harvest. The day time variation of albedo was also measured at frequent intervals. N-S oriented crop was significantly superior to others with regard to crop growth characters as well as yield components. Height, number of tillers, number of productive tillers, length of panicle and number of grain per panicle were influenced by the 20 x 15 cm spacing while the 20 x 10 cm spacing showed the maximum drymatter production, maximum thousand grain weight and highest value of grain and straw yields. The grain yield was not significantly influenced by the alley treatments. It was found that proper spacing and orientation had significant effect on overall growth and yield of the crop. Highest grain yield was recorded in plots with N-S orientation and with 20 x 10 cm spacing. The best performance is attributed to more effective utilisation of solar radiation with the uniform exposure of plants to sunlight. The albedo measurements were also higher over the closely spaced and N-S oriented plots indicating the better growth and performance of the crop. Results of the present investigation indicate that rice in Kerala during the second crop season can be grown most successfully if planted at a spacing of 20 x 10 cm and oriented in N-S direction.ThesisItem Open Access Fertiliser management in cassava- groundnut intercropping system(Department of Agronomy, College of Horticulture, Vellanikkara, 1985) Bridgit, T K; KAU; Sreedharan, CAn experiment was conducted at Agricultural Research Station, Mannuthy, to study the effect of levels of N and time of application of N and K in a cassava- groundnut intercropping system. This 2x2x4 factorial experiment was laid out in randomized Block design with three replications under rainfed conditions. The study revealed that intercropping cassava with groundnut enhanced the growth parameters of cassava at all stages of growth. Yield attributes, yield and total drymatter production of cassava were also increased by intercropping. The quality characters like drymatter starch and crude protein content of tubers were improved by intercropping. Hundred percent recommended dose of N increased the growth, yield and quality over 75 percent of the recommended dose. Among the time of application T3 (15, 75 and 120 DAP) has given the highest tuber yield (21.92t ha-1) followed by T1 (15,60 and 90 DAP) of 21.65 t ha-1. T4 (basal, 60 and 90 DAP) which is the recommended dose recorded the lowest yield of 17.9 t ha-1. A comparatively higher utilization index was obtained with intercropping and higher level of N (75kg ha -1). T1 andT1 and T3 recorded more UI values than T2 and T4. The nutrient content as well as up take in cassava was increased by legume intercropping and higher levels of N. T1 and T3 recorded more nutrient content in different plant parts as compared to T2and T4. The fertility status of the soil was improved by intercropping and levels of N. Yield of ground nut was influenced by higher levels of N. Yield of groundnut was influenced by higher levels of N and time of application of N and K to cassava.T2 and T4 recorded more yield. Nutrient content and up take of bhusa was not influenced by levels of N and time of application of N and K. Maximum LER was seen in sole cassava plot when N and K was given at 15,75 and 120 DAP while in intercropped plot it was highest when N and K were given at 15,60 and 90DAP. Income from cassava cultivation was increased by intercropping with groundnut application of N and K at 15, 75 and 120DAP. Groundnut can be intercropped successfully with cassava under Kerala condition and a substantial quantity (25 per cent) of fertilizer nitrogen required by the main crop could be saved by this practice. For getting better fertilizer use efficiency of applied N and K fertilisers, 1st dose should be applied at 15 DAP of cassava instead of the now recommended basal Dose. Second dose can be extended up to 75 days of planting and the last dose up to 120 DAP so as to coincide with the harvest of the intercrop and the earthing up of cassava.
