Loading...
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.
Browse
64 results
Search Results
ThesisItem Open Access Characteization and evaluation of nutmeg (Myristica fragrans Houtt.) accessions(Department of Plantation Crops and Spices, College of Horticulture, Vellanikkara, 2016) Vikram, H C; KAU; Mini Raj, NNutmeg (Myristica fragrans Houtt.) is an introduced crop to India. There exists tremendous variability in the nutmeg population in Kerala, which is the major nutmeg growing state in the country. Assessment of the existing variability is a prerequisite for taking up successful crop improvement programmes, which is very much limited in this tree spice. In this context, the present study entitled “Characterization and evaluation of nutmeg (Myristica fragrans Houtt.) accessions” was taken up exclusively with the specific objectives to characterize nutmeg accessions based on morphological, biochemical and molecular parameters so as to scale the variability in a multidimensional way. Select fifty nutmeg accessions from a core germplasm collected and maintained in a private plantation in the Chalakudy river basin, belonging to age of fifteen years, formed the material for the study. Among the select fifty accessions, forty two were females, four monoecious and four males. In the morphological characterization, 51 qualitative and 38 quantitative characters were recorded from two trees per accession. Biochemical characterization was done in the select seventeen distinct accessions. GC-MS profiling was done in kernel and mace oils. Biochemical constituents of fresh pericarp were estimated. Isozyme profiling was done for peroxidase and polyphenol oxidase enzymes. The molecular characterization was attempted with 21 RAPD and 12 ISSR primers after screening. A key for identification of an elite nutmeg tree was developed. A descriptor for nutmeg with a set of 51 qualitative and 38 quantitative parameters and descriptor states for each of these characters was developed as the first step. This is the first study of its kind to develop a minimal descriptor for nutmeg. The descriptor developed from the present study was simultaneously utilised for morphological characterization and evaluation of the accessions. Wide variability was noticed among the accessions for 47 out of 51 qualitative characters. Four characters viz., leaf margin, fruit pubescence, grooves on nut and nature of fruit dehiscence were noted as non variable characters and hence, these were not included for further analysis. Based on the qualitative characters, accessions were classified into 11 clusters at 66 per cent similarity level. Accessions differed significantly for all the quantitative characters except shelling percentage. Performance evaluation of the accessions brought out the superiority of accession 8, 9 and 22 for yield. The accessions showed high GCV, PCV, h2 and genetic gain for most of the characters. Number of fruits per tree, fruit set percentage, number of fruits per m2, fresh and dry weight of mace, mace volume as well ratio of nut to mace exhibited high genetic gain. Hence, selection programme based on these characters will be very effective in improving the base populations. Based on Mahalanobis D2 analysis, accessions were grouped into 10 clusters. Wide range of variation was observed in contents of volatile oil, oleoresin and fixed oil of kernel and mace. Based on these constituents accessions were grouped into 26 clusters, which indicated their distinct quality. Based on the results of the morphological characterization, seventeen distinct accessions were selected for further biochemical and molecular analysis. GC-MS analysis of kernel and mace oils exhibited 20 and 24 constituents respectively. Volatile oil composition exhibited wide variability for the major constituents viz., myristicin, elemicin, safrole and sabinene apart from the presence of some unique compounds. Grouping of the accessions was done based on the per cent content of these important compounds. Two accessions recorded high contents of both myristicin and elemicin whereas another two accessions were in the complimentary; belonging to low myristicin group. High sabinene combined with low myristicin was the intrinsic quality attribute of one of the accessions. Change, as well as addition/deletion of specific constituents was also noticed in the volatile oils after storage for one year. Accessions exhibited wide range of variation in the biochemical constituents of pericarp, a valuable information for the value addition of pericarp. Total phenol and tannins exhibited high variation. The accessions were ranked based on the content of biochemical constituents. Isozyme profiling using peroxidase enzyme produced four bands and that based on polyphenol oxidase exhibited three bands. Molecular markers could assess the variability among the accessions. The selected 21 RAPD primers produced a total of 164 amplicons of which 63.21 per cent were polymorphic. The 12 ISSR primers selected produced a total of 87 amplicons of which 69.44 per cent were polymorphic. Few unique bands were detected for specific characters. Inter cluster association of each of the qualitative clusters with other clustering patterns was worked out. The results indicated the differences as well as similarities of the qualitative clusters with other clustering patterns. Finally, key quantitative characters were identified based on their direct and indirect effect on yield as also economic importance. The statistical key thus developed using 13 key quantitative characters will serve as a preliminary tool for identification of an elite nutmeg tree.ThesisItem Open Access Groundwater irrigation: management, adaptation and economic costs under declining resource conditions(Department of Agricultural Economics, College of Horticulture, Vellanikkara, 2017) Seenath Peedikakandi; KAU; Indira Devi, PGroundwater is the major source of domestic use and irrigation in Kerala, accounting for 39 per cent of net irrigated area. Irrigated agriculture in the state shows continuous increase over years. At the same time Kerala is reported as third among the states with highest depletion of groundwater. This situation poses challenges in agricultural production. The study ‘Groundwater irrigation: Management, adaptation and economic costs under declining resource conditions’ was undertaken, in this background. The objectives of the study were to analyse the extent of decline in groundwater resources and farmers’ understanding of the same, to analyse the extraction practices, management and economic efficiency of groundwater irrigation and coping (short term) and adaptation (long term) strategies towards management of groundwater decline and the economic cost of adaptation strategies. The study was conducted in Palakkad district of Kerala. Based on the stage of ground water development, three Block Panchayats viz., Chittur (over exploited), Malampuzha (critical) and Pattambi (semi-critical) were selected for the study. 50 Open Well (OW) irrigated and 50 Bore Well (BW) irrigated farms from each BP were randomly selected from the Grama Panchayats (GPs) where observational wells of the GWD (Ground Water Department- Kerala) are situated. Primary data was collected from the sample farms through field visits using pre-tested structured interview schedule and through direct observation. PRA (Participatory Rural Appraisal) was also conducted in each BP to draw the time line of changes in ground water status and social perceptions. Secondary data on monthly water levels of Groundwater Monitoring Wells (GMWs) maintained by GWD (Palakkad),rainfall data and published reports were used for the study. Statistical tools like descriptive analysis, regression and Stochastic Frontier Function were employed for analysis of the data. In most of the GMWs in the study area, the Water Level from Ground (WLG) has been declining over the years. The trend was more predominant during early summer (Dec.–Jan.) in Chittur and Malampuzha and in late summer in Pattambi BP. Regression analysis showed that WLG was significantly influenced by one year lagged rainfall in Chittur and current year rainfall in Malampuzha and Pattambi. The average well density was 205/km2 with highest in Pattambi. Density of defunct wells was highest (45/km2) and the average functional age of bore wells was lowest (7 years) in Chittur. The depth of well was highest in Chittur where bore well depth (136 mbgl- meters below ground level) was double than that of Pattambi. Coconut based cropping system was prevalent in most of the farms except in Malampuzha where paddy was the major crop. Flood, basin and sprinkler irrigations were found to be more common in Malampuzha and Pattambi BPs, while drip irrigation was prevalent in Chittur. Cost of irrigation in Chittur was about Rs. 29,000/ha/year which accounted for 37 per cent of cost of cultivation. Annual net return per ha. of farm was lowest (Rs. 17,640/-) in Chittur due to low cropping intensity. Stochastic Frontier Analysis indicated that mean economic efficiency was high (99.9%) in Chittur as most of the farms were functioning along the cost frontier. The variability among the farms in Chittur was low. Respondents opined that groundwater is declining over the years irrespective of the region. It has been so, for more than a decade in Chittur affecting socio-economic well-being of farmers. They attributed intensive extraction through bore wells and low rainfall as the major reasons for the decline. Farm level adaptations to water scarcity are classified under ‘supply management’ (methods that facilitated increase in quantity of water available for irrigation) and ‘demand management’ (methods that tried to use the water effectively through minimizing the use) strategies. The supply management strategies were mainly exploitative in nature which included digging new bore well (52-58%), improved draft technology with compressor pumps (58%), taking pits for water conservation (7%), coconut husk burial (12%), coconut leaf mulching (18%) and dependence on water markets (8%). Digging new bore well was the most common supply management strategy in Chittur which is highly capital intensive. The average cost amounted to Rs. 8,520/ha/year. Intensive extraction was done by excessive use of subsidized electricity. Adoption of drip irrigation (60%) was the most widely practiced demand management strategy which cost about Rs. 22,000/ha/year. Cropping pattern change from paddy and sugarcane to coconut was also observed. About 18 per cent of the land area in Chittur was kept fallow due to water scarcity. The study brings out results that suggest policy interventions in regulating bore well digging and revisiting the power subsidy system. In Chittur area, where the rainfall is scanty, extension of the Right Bank Canal of the Chittur River irrigation project is the most feasible solution. Taking up on-farm research trials in the area to suggest efficient farming systems and practices may also be done. Simultaneously water resource conservation strategies are to be popularized through awareness creation, capacity building programmes and subsidy support.ThesisItem Open Access Sucker production and activation techniques in banana ( Musa spp. )(Department of pomology and floriculture, College of horticulture,Vellanikkara, 2016) Bhende Siddhesh Shamrao, KAU; Sajan KurienThe studies on “Sucker production and activation techniques in banana (Musa spp.)” taken up at the Central Orchard of the College of Horticulture, Vellanikkara and at Regional Agricultural Research Station (RARS), Kumarakom, Kottayam during January 2013 to September 2015. These studies were taken up exclusively for a basic understanding of the sucker genesis (origin), variation in sucker production of important cultivated clones with different ploidy and genomic constitution, photosynthate and nutrient allocatory pattern to different suckers using 14 C and 32 P and for probing the effects of physical and cultural methods (manurial doses) of sucker activation techniques. Among the different clones tested in the studies for sucker production, Karpooravalli (ABB) recorded the highest number of suckers followed by Njalipoovan (AB), Nendran (AAB), Kadali (AA), Robusta (AAA) and Bodles altafort (AAAA) respectively. Suckering habit was positively correlated with decreasing ploidy level and an increase in the M. balbisiana blood in the genomic constitution of the particular clone. Kadali (AA) recorded the highest sucker production followed by Robusta (AAA) and Bodles altafort (AAAA) within the M. accuminata ploidy. In diploids, Njalipoovan (AB) recorded the highest number of suckers over Kadali (AA) and in triploids, Karpooravalli (ABB) recorded the higher number of suckers followed by Nendran (AAB) and Robusta (AAA) respectively. Differences in sucker production were observed between the different clones with respect to planting seasons. Kadali (AA), Njalipoovan (AB), and Robusta (AAA) recorded the higher number of suckers in Sept-Oct planting, whereas in case of Nendran (AAB) and Karpooravalli (ABB), Feb-March planting recorded the best sucker production. Bodles altafort (AAAA) recorded almost the same number of suckers in all the three plantings. Morphological characters like plant height, collar girth and total number of leaves recorded very strong and positive correlation with sucker characters but negative correlation was observed with average leaf production interval. Bunch weight recorded strong significant negative correlation with improved sucker production and was positively correlated with number of dead suckers. Number ofdead suckers produced were found positively correlated with plant height, collar girth, ‘D’ leaf area and average leaf production interval and almost a similar correlation between these characters was observed in PCA and factor analysis. The cluster analysis of six banana varieties, planted in three different seasons (18 entries) revealed that the clones fell in four distinct clusters. NJALI-1, NJALI-2, NJALI-3, NEND-1, NEND-3, KARP-2 and KARP-3 were grouped in the first cluster. ROB-1, ROB-2, ROB-3 and KAD-1 were grouped in the second cluster. KAD-2, KAD-3 and NEND-2 formed the next cluster and BOD-1, BOD-2, BOD-3 and KARP-1 formed the last cluster. In case of cluster analysis obtained from pooled data of six banana varieties planted in three seasons (6 entries), first cluster was composed of NJALI, NEND and KARP. Cluster II, III and IV were composed of KAD, ROB, BOD respectively and almost similar grouping was obtained from PCA and factor analysis. PCA and factor analysis revealed that diversity contributed by different banana traits for sucker production in first, second and third components was 46.8, 27.0 and 12.2 per cent respectively. The first three major factors / principle components contributed total 85.9 per cent of the diversity. PCA and factor analysis revealed that average dry weight of quality suckers, average dry weight of total suckers, total number of suckers produced, number of underdeveloped suckers produced, total number of leaves produced, number of quality suckers produced, plant height and collar girth characters recorded their dominance in first component/factor and were the most important traits for deciding the diversity of banana varieties in the present study. Communality values in factor analysis clearly revealed that the collar girth was the high relative contributory trait for deciding sucker yield in banana. The origin or genesis and early development of the sucker primordia was observed in the cortex region of the mother corm and this is the first confirmatory report on this aspect. The photosynthesis partitioning from the mother plant to daughter suckers using 14 C in six sucker retention intact system revealed that the last formed suckers got maximum share of photosynthates. In case of 1 st , 2 nd and 3 rd suckerremoval as an individual treatments, more allocation of the photosynthates was observed to the immediately next sucker and when 4 th and 5 th suckers were removed 6 th and 3 rd suckers showed the highest recovery of 14 C, revealing the positional effects in garnering more photosynthate. This report on actual photosynthate translocation from the mother plant to the daughter suckers is also the first of its kind under actual field conditions. Again this is also the first report on the redistribution of photosynthates to daughter suckers as a consequence of individual sucker removal. The experiment conducted on nutrient cycling from mother plant to daughter suckers using 32 P at two different stages i.e. fortnight before harvest and at harvest again confirmed that the mother plant has a definite dominant role in the distribution of nutrients and also redistribution to the daughter suckers consequent to sucker removal that was more destructively observed when the bunch was retained or not harvested. The very high recovery of 32 P in the mother plant was due to the high recovery observed in the bunch. At a fortnight before harvest, in all the treatments the highest recoveries of 32 P was observed in the mother plants. When 1 st sucker was removed the next best recovery was observed in the 2 nd sucker followed by 4 th sucker, when 2 nd sucker was removed the next best recovery was observed in 4 th sucker, when 3 rd sucker was removed the next best recovery was seen in 1 st sucker followed by 2 nd sucker, when 4 th sucker was removed the 2 nd sucker resulted the next highest recovery followed by 5 th sucker and when 5 th sucker was removed the next highest recovery was observed in 1 st sucker. At the time of harvest the removal of 1 st sucker resulted the highest recovery of the activity in the mother plant followed by 2 nd sucker. Removal of 2 nd sucker resulted the highest recovery in the 1 st sucker and mother plant. The 3 rd sucker removal resulted the highest recovery in the 1 st sucker followed by 2 nd sucker, removal of 4 th sucker resulted the highest recovery in the 3 rd sucker followed by the mother plant. The removal of 5 th sucker resulted the highest recoveries in 2 nd and 4 th sucker.Both the studies on nutrient recycling revealed a trend of higher recovery in the immediately next sucker. The recovery was the highest in the mother plant in the studies on fortnight before harvest due to retention of the bunch. Nutrient redistribution pattern to daughter suckers as a consequence of phased removal of individual suckers is also being reported for the first time. With respect to the sucker activation techniques, the studies on physical methods revealed that replanting the entire clump in trenches in oblique manner ten days after harvest produced maximum total number as well as quality suckers which performed equally well with the next best treatment of cutting the pseudostem at half height ten days after harvest. However, the latter treatment was the most economical one. In case of cultural methods (manurial doses) of sucker activation, application of NPK mixture (17: 17: 17) @ 5 and 10 g N equivalent clump -1 yielded maximum number of total as well as quality suckers, but the lower dose was found to be more economical based on B: C ratio.ThesisItem Open Access Efficiency of vermiconversion and decomposition of farm residues on soil health, yield and quality of banana (Musa spp.)(Department of Science and Agricultural Chemistry, College of Horticulture,Vellanikkara, 2016) Mayadevi, M R; KAU; SushamaAn investigation entitled “Efficiency of vermiconversion and decomposition of farm residues on soil health, yield and quality of banana (Musa spp.)” was undertaken at College of Horticulture and Banana Research Station, Kannara during 2013-2015. The objectives of the study were to compare the efficiency of native and exotic earthworms on vermiconversion of farm residues and the effects of different modes of vermicomposting on soil health, yield and quality of banana and to evaluate the in situ decomposition of banana crop residues An experiment with seven treatments and three replications was laid out in randomized block design to assess the composting efficiency of native and exotic earthworms. Seven treatments included absolute control as soil (S), ex-situ compost in silpaulin vermibed without earthworms (Ex-C), ex-situ vermicompost in silpaulin vermibed using Perionyx excavatus (Ex-P), ex-situ vermicompost in silpaulin vermibed using Eisenia foetida (Ex-E), in-situ vermicompost in banana planting pits using Perionyx excavatus (In-P), in-situ vermicompost in banana planting pits using Eisenia foetida (In-E), in-situ compost in banana planting pits without earthworms (In-C). In the next study, the prepared composts were tested along with recommended doses of fertilizers and FYM to assess their effects on growth, yield and crop quality of banana var. Nendran in RBD with seven treatments replicated thrice. The treatments were absolute control (S), 300:115:450g N:P2O5:K2O plant-1 + FYM at the rate of 20 kg plant-1 (POP) , exsitu vermicompost in silpaulin vermibeds with Perionyx excavatus at the rate of 20 kg plant -1 (Ex–P), ex-situ vermicompost in silpaulin vermibeds with Eisenia foetida at the rate of 20 kg plant -1 (Ex–E) , in-situ vermicompost in crop pits with Perionyx excavatus at the rate of 20 kg plant -1 (In-P), in-situ vermicompost in crop pits with Eisenia foetida at the rate of 20 kg plant -1 (In-E), in -situ compost at the rate of 20 kg plant -1 (In-C). After the harvest of the crop, the entire residues from each plant was incorporated in the respective crop pits and the insitu degradation of the banana residues was monitored. The salient findings are summarized as follows In the first trial, the composting efficiency of native and exotic earthworms under different modes of composting was compared. Chemical properties of compost like pH, electrical conductivity, and content of primary nutrients were significantly affected by modes of composting. Exotic earthworms like Eisenia foetida produced higher auxin content in the compost whereas Perionyx excavatus registered higher dehydrogenase activity under ex-situ mode of composting. The total microbial load was recorded in the compost prepared without earthworms under both modes of composting. Compost yield was more in ex-situ composting methods and Eisenia foetida was more efficient in composting as compared to Perionyx excavatus. Humic acid characterization by Fourier Transform Infra-Red spectroscopy revealed a similar spectra from different treatments and were found to be characterized by aromatic rings and triple bonded skeleton. Presence of relatively higher quantity of polysaccharide like substances was observed in insitu mode of composting. The spectra of humic acids for ex-situ composts prepared using Perionyx excavatus revealed a nitrate band of characteristic shape appearing prominently. Perionyx excavatus produced humic acids with high aromaticity both under ex-situ and in-situ mode of composting. Scanning electron microscopy revealed neo-formed CaCO3 nodules embedded in humic acids in the ex-situ vermicompost produced by Eisenia foetida. Transmission Electron Microscopy of humic acids indicated a globular structure for vermicompost prepared by Perionyx excavatus and a lamellar structure with voids for vermicompost prepared using Eisenia foetida. On field experimentation with different treatments using Nendran banana as the test crop, the highest yield was obtained for combined application of fertilizers and farm yard manure as per POP. Number of fingers per hand and number of functional leaves were found to influence the yield, irrespective of treatments. The number of days to bunching and harvest was significantly reduced for banana under in-situ composting. Higher content of total, reducing and non-reducing sugars were observed for in-situ composting treatments. On the contrary, higher titratable acidity was recorded for the control treatment. Both vitamin C content and sensory parameters were complimentary for POP treatment. Increased absorption and translocation of nutrients such as N, P, K and Mg in fruits were observed under organic nutrition using Perionyx excavatus. For the next study, the residues of banana were added to the respective pits for monitoring the carbon and nitrogen mineralization. The carbon mineralization with respect to time was fitted to single pool exponential model to derive the rate of mineralization and half-life. It revealed crop residues pre-treated with vermicompost using exotic earthworms had a higher rate of C cumulative mineralization. Nitrogen addition by both exotic and native species of earthworms were almost similar under in-situ conditions. The banana residue decomposition by Eisenia foetida was about 3.5 times higher than that of Perionyx excavatus. Calcium content of Perionyx excavatus pre-treated residues added the maximum calcium to the soil.ThesisItem Open Access Silicon availability of tropical soils with respect to rice nutrition(Department of Soil Science and Agricultrural Chemistry, College of Horticulture,Vellanikkara, 2016) Arya Lekshmi, v; KAU; Jayasree Sankar, sSilicon (Si) is the second most abundant element in soil. The amount of silicon in soil depends on parent material, soil type, pedogenic process and landscape. In soil solution, Si is present as monosilicic acid which is the only form that the plant can absorb from soil. The productivity of rice is comparatively low in soils of Kerala. As a ̳Si – accumulator‘, rice can benefit from Si nutrition. The application of Si can enhance growth and yield of rice. With this background, studies were conducted to categorize major rice growing soils of Kerala according to plant available silicon and to evaluate the efficacy of different sources of silicon including rice straw in wetland rice. The release of silicon from different soils added with various silicon sources under different water regimes was also monitored. Soil samples were collected from five different locations representing major rice growing regions of Kerala viz., Kuttanad, Kole land, Pokkali, sandy and lateritic to categorize them according to plant available silicon. The available Si ranged from 7.70 mg kg -1 (sandy soil) to 34.91 mg kg -1 (Kole land soil) in the order Kole land > Pokkali > lateritic > Kuttanad > sandy soil. All the soils under study were categorized as low in available Si. The available Si had positive correlation with organic carbon, available N, Ca, Mg, Fe, Mn, Zn, exchangeable K, Ca, Mg and CEC and negative correlation with available boron, AEC and silica-sesquioxide ratio. These soils were subjected to fractionation of silicon. The major fractions of Si were mobile, adsorbed, organic, occluded, amorphous and residual Si. The percentage distribution of fractions of Si in these soils were in the order; residual Si > amorphous Si > occluded Si > organic Si > mobile Si > adsorbed Si. Quantity – intensity relationship of five major rice growing soils at two temperatures viz. 25 0 C and 40 0 C were studied. The highest buffer power was indicated by Kuttanad soil followed by Pokkali and sandy soils at 25 0 C. It clearly indicated that these soils have a higher power to retain Si on solid phase and replenish its concentration in soil solution as and when it is depleted through plant uptake or leaching. The equilibrium Si concentration and the amount of Si adsorbed by each soil were used to test the fitness of data to the adsorption isotherms viz., Langmuir, Freundlich and Temkin. The data obtained from the adsorption experiments fitted into Freundlich and Temkin equations, but not to Langmuir equation at 25 0 C. At 40 0 C no adsorption equations were obtained for any soil.An incubation study was conducted to know the extent of release of Si on addition of different sources of silicon such as rice husk ash, biodecomposed rice husk, calcium silicate and sodium silicate in five rice growing soils under submerged water regime (SWR) and field capacity water regime (FCWR). Addition of Si significantly increased the release of available Si in all soils except Kole land soil after a month. Kole land soil showed higher release of available Si after two months. The highest release of available Si was at SWR in case of Kole land and Kuttanad soil, where as Pokkali, sandy and lateritic soils showed more release of available Si at FCWR. Irrespective of soils, treatment with sodium silicate showed higher release of available Si. Total Si showed a decreasing trend over the period of incubation for three months in all the soils. A field experiment was conducted at Agronomic Research Station, Chalakudy to evaluate the efficacy of different sources of silicon including rice straw in wetland rice. Rice husk ash, biodecomposed rice husk, calcium silicate and sodium silicate were used as source of Si along with fertilizers as per package of practice recommendation (NPK alone). The maximum number of panicles per hill, number of spikelets per panicle, thousand grain weights and minimum number of unfilled grains per panicle were recorded in treatment with calcium silicate application. The maximum grain yield of 6.90 t ha -1 was recorded in treatment T 5 (T 2 + Calcium silicate) and significantly superior (fig.54) over all other treatments. This increase in yield may be due to the effect of application of Si on soil fertility, nutrient uptake, and plant growth. The direct effect of Si fertilization on increased number panicle per hill, number of spikelets per panicle, and thousand grain weight and decreased number of unfilled grains per panicle might be the reason for increased grain and straw yield in treatment with calcium silicate. The treatment with POP + sodium silicate showed the highest uptake of Si by grain and straw of rice. The sources of Si had no residual effect on grain and straw yield of succeeding rice crop. In general, sandy soil low in available Si had a high response to applied Si in achieving higher grain yield.ThesisItem Open Access Integrated management of foliar fungal disease of culinary melon (Cucumis meloL. var. acidulus Naudin)(Department of Plant Pathology, College of Agriculture, Vellayani, 2016) Narmadhavathy, S; KAU; Kamala NayarThe project entitled “Integrated management of foliar fungal disease of culinary melon (Cucumis melo L. var. acidulus Naudin)” was undertaken with the objective of making a comparative evaluation of the efficacy of foliar application of fertilizers, micronutrients, bio-control agents and newer fungicide for the management of Colletotrichum leaf spot (Colletotrichum sp.) disease of culinary melon. Surveys conducted during September 2013 to December 2013, in ten culinary melon fields located at Instructional Farm (IF), College of Agriculture (CoA), Vellayani as well as in farmers’ fields near, CoA, Vellayani, in order to assess the prevalence of major diseases such as Colletotrichum leaf spot and downy mildew disease affecting the crop. Highest disease incidence (DI) and percentage disease index (PDI) of Colletotrichum leaf spot were observed, 75 days after sowing, at Chavadinada (70.00 per cent and 64.44 per cent respectively). Incidence and index of downy mildew disease were recorded in four out of the ten locations surveyed (Palapoor, Papanchani, Kalliyoor and Punjakari). Maximum disease incidence and percentage disease index of downy mildew disease (36 per cent and 33.33 per cent respectively) were observed at Papanchani. The most virulent isolate of anthracnose leaf spot pathogen (IF, Vellayani isolate), obtained during the survey was identified as Colletotrichum fructicola by molecular characterization. The treatment NPK 19:19:19 (0.5 per cent) combined with the fungicide mancozeb (0.4 per cent) and adjuvant was most effective in inhibiting the mycelia growth of the pathogen C. fructicola, in vitro, (100 per cent) over control as well as in suppressing artificially induced anthracnose disease and improving the growth parameters of the plants, in the two greenhouse experiments conducted at the CoA, Vellayani during March to June 2014 and August to October, 2014. Results of two field trials conducted at CoA, Vellayani, during January to March, 2015 and April to June, 2015 for testing four most effective treatments screened from the greenhouse experiments, indicated that NPK 19:19:19 (0.5 per cent) + azoxystrobin (0.15 ml/l) + adjuvant (DI 40.00 and PDI 13.05 respectively) and NPK 19:19:19 (0.5 per cent) + mancozeb (0.4 per cent) + adjuvant (DI 40.00 and PDI 13.47 respectively) were most effective in managing the disease and also increasing total yield of plants, when compared to the remaining treatments. Trials were conducted in farmers’ fields at three locations (Venganoor, Vavamoola and Venjaramoodu) for confirming the efficacy of the two most effective treatments screened from the field trials conducted at CoA, Vellayani and pooled analysis of the results indicated that the lowest PDI (12.22) and DI (28.50) were obtained in plants treated with NPK 19:19:19 (0.5 per cent) + azoxystrobin (0.15ml/l) + adjuvant, which was significantly superior to the other treatments. Results of the microbial studies indicated that there was decline in fungal flora of the plants treated with foliar fertilizer NPK 19:19:19 (0.5 per cent) + azoxystrobin (0.15 ml/l) + adjuvant, days after application of treatments whereas bacterial population was higher in plants applied with the same treatment when compared to the application of combination of foliar fertilizer NPK 19:19:19 (0.5 per cent) + mancozeb (0.4 per cent) + adjuvant. There was indication of higher induction of systemic resistance in plants treated with NPK 19:19:19 (0.5 per cent) + azoxystrobin (0.15 ml/l) + adjuvant due to the higher activity of defense related enzymes, such as phenylalanine ammonia lyase (PAL), peroxidase (PO), polyphenol oxidase (PPO), β-1,3glucanase, super oxide dismutase (SOD) and the compound phenol, all of which, reached maximum level on the 15th day after treatment. Leaf samples obtained from plants treated with foliar fertilizer NPK 19:19:19 (0.5 per cent) + azoxystrobin (0.15 ml/l) + adjuvant indicated highest nutrient use efficiency in all three locations of the confirmation trials while highest pigment status due to this treatment was observed in the trial conducted at Venganoor. Relative water content was generally high in leaf samples collected from all plants irrespective of the treatments, although it was comparatively low, in leaf samples obtained from plants of absolute control plot. Epicuticular wax content was slightly lower in the plants treated with combination of the foliar fertilizer NPK 19:19:19 (0.5 per cent) and fungicides, either azoxystrobin (0.15 ml/l) or mancozeb (0.4 per cent) + adjuvant. Stomatal frequency on the upper and lower surfaces of leaves was not much affected by application of foliar fertilizer NPK 19:19:19 (0.5 per cent) combined with the fungicides. B:C estimated ratio revealed that the highest returns were obtained from the plants treated with foliar spray of NPK 19:19:19 (0.5 per cent) + azoxystrobin (0.15 ml/l) + adjuvant, in all three locations of the farmers’ field trials. This study presents the first report of the pathogen Colletotrichum fructicola causing anthracnose leaf spot disease of culinary melon in India. In field conditions, combination of the foliar fertilizer NPK 19:19:19 (0.5%) and azoxystrobin (0.15 ml/l) along with adjuvant applied twice at 15 days’ interval was most effective in controlling anthracnose leaf spot disease of culinary melon and also increasing the yield of the crop.ThesisItem Open Access Supply chain analysis of marine fish marketing system in Kerala(Department of Agricultural Economics, College of Horticulture, Vellanikkara, 2017) Jeyanthi, P; KAU; Jesy Thomas, KFisheries is a major allied sector of agriculture contributing about 0.8 per cent to the Gross Domestic Product (GDP) and 5.15 per cent to agricultural GDP in India. Marine fisheries supports around 10 million people providing livelihood and employment directly or indirectly. Fish also provides more than one billion people living below the poverty line with most of their daily animal protein requirement globally. Kerala is a state known for its fish consumption which is more than four times the national average. However, the marine domestic fish marketing system faces several challenges in the process of distributing fish from the producer to the consumer. The study was conducted in Kerala state, which is the fourth largest fish producer in the country, and covered coastal and land locked (non-coastal) regions. The objectives of the study were to identify the supply chain of selected fish species, to assess the structure and performance of domestic fish markets, to examine the market integration and price transmission among the markets and to assess the consumer perception and suggest policy guidelines for improved fish marketing in Kerala. Two coastal districts viz., Ernakulam (E) and Kollam (K) and two land locked districts, Idukki (I) and Pathanamthitta (P) were selected and data was collected using simple random sampling from various marketing functionaries (producers, wholesalers, retailers and consumers). Since the species composition of marine fish landings is varied, the study focused on four high value (seer fish, shrimp, pomfret and tuna) and four low value but commonly consumed fish species (sardine, mackerel, anchovies, threadfin bream). Supply chain of the selected fish species was identified using the framework of Feller et al, 2006. Market performance of producers, wholesalers and retailers were assessed using Data Envelopment Analysis. The co-integration test was used to analyses the market integration of selected market pairs. Conjoint analysis was used to determine the attributes responsible for their fish purchasing behaviour. The constraints faced by the market functionaries were ranked using Rank Based Quotient. The generic supply chain of fish identified involved the auctioneer, wholesaler, retailers, secondary retailers, between the producer and the consumer. This is almost similar to the supply chain of other perishable like fruits, vegetables and flowers. The supply chain for sardine, tuna and thread fin bream also involved extra nodes in their supply chain due to industry specific demands like feed and other specialized products. The market structure of domestic fish markets was not efficient. The main reason being lack of infrastructure such as cold storage, well planned display and assemblage platforms, potable water and weighing balance. Market performance of producers was measured at the five landing centres in Ernakulam and Kollam and it was observed that only one market was efficient in each of the districts. It was revealed that the nature of inefficiency was due to scale rather than technology. In both Ernakulam and Kollam, only one wholesale market each was efficient and all other markets showed high technical efficiency i.e., above 0.80. In both wholesale and retail markets, the technical efficiency was relatively low in Idukki and Pathanamthitta with it being least in Idukki. It was revealed that the markets in the coastal regions showed relatively high technical efficiency than the land locked regions because of the higher volumes handled in the markets due to proximity with the landing centres, viz, the primary production centres, which is not so easily accessible to the land locked districts. Among wholesale markets, one market pair in Ernakulam, one in Idukki and one in Pathanamthitta showed co-integration and among retail one each in Ernkulam and Pathanamthitta showed co-integration. This indicates that in these markets there is a possibility of long run equilibrium in prices. The existence of low short run market integration (SRMI) at both wholesale as well as retail market levels was observed among the co-integrated market pairs. Consumer preference was for fresh fish in all the four districts studied in cleaned and cut form from retailers, wholesalers or wholesaler-cum-retailer. Sardine was the most preferred species in both coastal and landlocked regions of Kerala with more than 75 and 72 per cent of respondents, respectively, consuming it daily. The relative importance of attributes that consumer in Ernakulam and Kollam looked at while purchasing fish was fish species in fresh form and income. In Idukki and Pathanamthitta, availability and income were the relatively important attributes. Based on the pooled response of market functionaries in the selected districts the domination of middlemen was the major constraint for producers, wholesalers and retailers. Safety and quality of fish was the major constraint of consumers. The studies on efficiency of fish supply chain in line with the changing consumer preference are the future line of work towards sustainable fisheries development.ThesisItem Open Access Herbicide mixtures for weed management(Department of Agronomy,College of Agriculture, Vellayani, 2016) Sheeja, K Raj; KAU; Elizabeth, K SyriacThe experiment entitled "Herbicide mixtures for weed management in direct seeded puddled rice Oryza saliva L." was carried out at College of Agriculture, Vellayani, during the period from 2013 - 2016, to assess the bioefficacy of two post emergence herbicide mixtures viz., bispyribac sodium + metamifop and penoxsulam + cyhalofop butyl in direct seeded rice; to study the residual effect in soil; to investigate the impact on microbial and earth worm population, soil enzyme activity and weed seed bank and also to assess the in vitro sensitivity to soil borne pathogen, Rhizoctonia solani, bio control agents and bio fertilizer organisms. Field experiment was undertaken during first and second crop seasons of 2014-15 at Nemom block at farmer's field. The experiment was laid out in RED with 12 treatments and three replications. Bispyribac sodium + metamifop @ 60, 70, 80 and 90 g ha"*,penoxsulam + cyhalofop butyl @ 120, 125, 130 and 135 g ha"*, bispyribac sodium @ 25 g ha"', penoxsulam @ 22.5 g ha"', hand weeding twice and weedy check constituted the treatments. The higher three tested doses of penoxsulam + cyhalofop butyl v/z.,125, 130 and 135 g ha ' and the highest tested dose of bispyribac sodium + metamifop viz., 90 g ha"' were better than other weed management treatments in improving the growth and yield attributes of rice. Pooled analysis indicated the superiority of penoxsulam + cyhalofop butyl @ 135 g ha"' which recorded the highest grain yield (8463 kg ha ' ) and it was statistically on par with its lower doses (130 and 125 g ha*'). Straw yield was not significantly influenced by the weed control treatments. Penoxsulam + c^lofop butyl @ 135 g ha"' recorded the highest net returns (93744 ha *) and B: C ratio (2.43), which was on par with its lower dose (130 g ha"'). Penoxsulam + cyhalofop butyl @ 135 g ha"' was more effective in reducing the total density of weeds. With regard to the control of sedges and BLW, penoxsulam + cyhalofop butyl was more effective, but with respect to grasses, both the herbicide mixtures were more or less similar in effectiveness. Penoxsulam + cyhalofop butyl @ 135 and 136 registered higher weed control efficiency and lower weed index than other treatments. Uncontrolled weed growth caused a yield reduction of 50.38 per cent. Herbicide treatments significantly reduced the nutrient uptake by weeds and enhanced the nutrient uptake by crop over weedy check. The higher doses of penoxsulam + cyhalofop butyl (125,130 and 135 g ha"') and bispyribac sodium + metamifop (70, 80 and 90 g ha*') were more effective in maintaining higher nutrient content in soil. Dynamics of soil microbial population, earthworm population, soil enzyme status and organic carbon content of soil consequent to the application of herbicide mixtures revealed that, both penoxsulam + cyhalofop butyl and bispyribac sodium + metamifop at their tested doses did not have any inhibitory effect. Results of screening trial revealed that maize was the most sensitive indicator plant for both the herbicide mixtures. Dry weight and fresh weight of maize shoot were adjudged as the best parameters for assessing the residual effect of bispyribac sodium + metamifop and penoxsulam + c>^Iofop butyl in soil respectively. Pot culture bioassay studies revealed that the tested herbicide mixtures and their doses did not have any residual effect. In vitro sensitivity studies of bispyribac sodium + metamifop and penoxsulam + cyhalofop butyl to Rhizoctonia solani pointed out that both the herbicide mixtures inhibit the growth of Rhizoctonia solani. Studies on the in vitro effect of herbicide mixtures to Trichoderma viride indicated that bispyribac sodium + metamifop was safe to the fungus, whereas penoxsulam + cyhalofop butyl was moderately toxic. Compatibility studies revealed that both the herbicide mixtures were highly compatible with Psetidomonas fluorescenSy Azospirillum lipoferum and Azotobacter chroococciim. Weed seed bank assay results indicated the effectiveness of the higher doses of penoxsulam + cylialofop butyl (135, 130 and 125 g ha'') in depleting the seed bank compared to other treatments. The present study revealed the superiority of heibicide mixtures over individual herbicides in the management of weeds in wet seeded rice. Application of penoxsulam + cyhalofop butyl @ 135 or 130 g ha*', at 15 DAS could be adjudged as the most economic and ecofriendly weed management practice for wet seeded rice as evidenced by high weed control efficiency, net returns and B: C ratio; environmental safety, high inhibitory effect to Rhizoctonia solani and good compatibility with bio control agents and bio fertilizer organisms.ThesisItem Open Access Collection and evaluation of marigold (Tagetes spp.) genotypes for humid tropics(Department of Pomology and Floriculture, College of Agriculture, Vellayani, 2017) Shajma Nafeesa, Basheer; KAU; Sabina George, TThe present study entitled ‘Collection and evaluation of marigold (Tagetes spp.) genotypes for humid tropics was conducted in the Department of Pomology and Floriculture, College of Agriculture, Vellayani during 2012-2015, with an objective to collect and evaluate the genotypes of Tagetes spp. for growth, yield of fresh flowers and floral attributes in two planting seasons, ie, October and May planting and to select promising genotypes for loose flower production and for landscaping. The experimental material consisted of twenty five genotypes of Tagetes erecta and five genoytpes of Tagetes patula. These were evaluated in the field in a randomized block design with three replications. Significant differences were observed among the genotypes for plant growth characters, foliage characters, flowering and yield characters and flower characters in both planting seasons. In both October and May plantings, TEG 5 and TEG 6 maintained greater plant height and the lowest plant height were found to be in TPG 17 and TPG 18. The maximum plant spread was recorded in TEG 5 in October planting and in TPG 21 in May planting. The highest number of primary branches per plant was recorded in TEG 6 followed by TEG 5 in October planting and in TEG 16 followed by TEG 5 and TEG 8 in May planting. The highest number of secondary branches was recorded by TEG 14 in October planting and by TPG 21 in May planting. Among flowering and yield characters, in October planting, the lowest number of days to flowering was recorded in Tagetes patula genotypes, TPG 19, TPG 18 and TPG 21 (33.33 days) and the lowest number of days to flower opening in TPG 21 and TPG 17 (45.33 days). In May planting, the Tagetes erecta genotype TEG 11 recorded the lowest number of days to flower initiation (49.00) and flower opening (68.33). TEG 29 recorded the longest flowering duration in both October and May planting. The maximum number of flowers per plant and flower yield per plant was observed in TEG 16 in October planting. In May planting, TPG 18 followed by TEG 16 recorded the maximum number of flowers. The genotype TEG 16 also recorded the highest flower yield per plant in May planting and the highest number of viable seeds per plant in both the seasons. TEG 11 recorded higher values for fresh weight of flower in both the seasons of investigation. In October planting and May planting, the highest value for petal meal per kg of fresh flowers was recorded in TEG 29 and the maximum petal meal per ha was recorded in TEG 5 in October planting and in TEG 29 in May planting. The highest total carotenoid content was recorded by TEG 3 followed by TEG 2 in both the seasons. Among the flower characters, TEG 5 the highest number of ligulate floret whorls and TEG 11 recorded the highest value for length of floret, flower diameter, girth of floral receptacle in both the seasons. Significantly higher flower stalk length was observed for TEG 3 and the longest vase life was recorded by TEG 7 in both the seasons of investigation. Genetic variability studies showed that genotypic coefficient of variation (GCV) was higher than phenotypic coefficient of variation (PCV) for all the characters. High GCV and PCV and high heritability was observed for all the characters studied. Correlation studies revealed a highly significant positive correlation of flower yield with number of flowers per plant, plant spread, fresh weight of flowers, length of floret, crop duration and number of secondary branches per plant. Path analysis studies showed that fresh weight of flowers had the highest direct positive effect on flower yield per plant followed by number of flowers per plant and plant height. Cluster analysis based on D2 values divided the thirty genotypes of marigold into six clusters with Cluster V recording the maximum number of genotypes and Cluster I, the minimum number of genotypes.Seasonal evaluation of the genotypes showed that May planting was found to be better than October planting in terms of plant growth characters, flower yield and flower characteristics. Earlier initiation of flowering was however observed in October planting in all the genotypes. The present study revealed that, the Tagetes erecta genotypes TEG 5, TEG 29, TEG 25, TEG 30, TEG 22, TEG 11 and TEG 7 may be suitable for commercial loose flower production. The genotype TEG 16 with semiupright habit may be suited for plant compactness and flower production. The genotypes TEG 3 and TEG 2, with higher carotenoid content may be suitable for pigment extraction. The Tagetes patula genotypes, TPG 21 and TPG 18 with dwarf spreading plant habit and the Tagetes erecta genotype TEG 11 with semiupright plant habit may be suitable as flowering ground covers in landscaping. The wide range of genetic variability available in marigold genotypes can be utilized for further crop improvement programmes through direct selection and hybridization.
