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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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19861
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Subject: Horticulture × Author: Joseph Philip × End date: 1986 × Start date: 1986 × Type: Thesis ×
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    ThesisItemOpen Access
    Mineral nutrition of nutmeg (Myristica Fragrans Hout.) in relation to deficiency symptoms and flowering
    (Department of Plantation Crops and Spices, College of Horticulture, Vellanikkara, 1986) Joseph Philip; KAU; Sivaraman Nair, P C
    Detailed investigations were carried out at the College of Horticulture, Kerala Agricultural University, Vellanikkara from 1982 to 1985 with a view to study the nutrient deficiency symptoms by inducing deficiency and to study the influence of carbohydrates, nutrient elements and their ratios on flowering of nutmeg. Deficiency symptoms of macro-nutrients except Ca and S were first manifested on the older leaves while that of micro-nutrients on younger leaves. Symptoms of N deficiency were expressed as yellowing of leaves with orange tinge except the midrib and lateral veins followed by development of brownish necrotic blotches with bright orange yellow halos. Bronze green to purple discolouration of leaves with purplish brown necrotic blotches were the symptoms of P deficiency. Potassium deficiency symptoms were characterized by chocolate brown necrosis along the leaf tip and margins which later progressed to the distal one third to two third portion of the laminae. Due to Ca deficiency, the younger leaves became thick, brittle and reduced in size with blunt end. Light orange yellow chlorosis developed along the leaf margins and tips followed by the development of necrotic spots with bright orange yellow zone adjacent to the necrotic areas. Magnesium deficiency was characterized by the yellowing of the midrib and lateral veins and adjacent areas starting from the base of the leaf followed by yellowing of the entire laminae, necrosis and outward cupping of margins. In the case of S deficiency, the younger leaves became uniformly lemon yellow which later developed characteristic ‘birds eye spot’ and ‘shot holes’. Interveinal chlorosis of the young leaves was the most commonly observed symptom of micro-nutrient deficiencies. However, the chlorosis was specific to the concerned nutrients. Uniform straw yellow discoloration of leaves with pale green midrib and lateral veins followed by development of necrosis from leaf tip towards base, downward cupping of leaves and asymmetrical laminae were the symptoms of Fe deficiency. Manganese deficiency symptoms were characterized by pale yellow interveinal chlorosis and crinkling of leaves. Development of water-soaked spots from margins and tips in a wavy pattern towards the midrib followed by downward cupping, coppery red necrosis and leaf distortion were the characterization symptom of Cu deficiency. Symptoms of Zn deficiency were expressed as abnormally long and narrow leaves with characteristic mottling and reduced internodes. Boron deficiency symptoms were expressed as crinkling and orange yellow chlorosis of leaf tip of younger leaves which were thick and brittle. Later on, bright orange yellow chlorotic patches developed in between the lateral veins followed by the development of necrosis from margins and tips at the distal portion. Cracks developed at the necrotic areas and torn off. Among the macro and micro-nutrients, the earliest deficiency symptoms were manifested by the element Fe (3rd month), followed by Mg and S (4th month) N (5th month) P and B (7th month), K, Cu and Zn (8th month), Ca (9th month) and Mn (9.5th month). Vegetative growth was markedly reduced due to the deficiency of macro and micro-nutrients. Calcium, P, K, Mg and Zn were the elements which showed profound influence on root growth. The growth of plant was found to be completely arrested at a comparatively early stage (5th month) due to Mg, S and Fe deficiencies, followed by B (7th month), N (9th month), P, K, Ca, Cu an Zn (10th month) and Mn (10.5th month) deficiencies. Visual symptoms of deficiencies were concurred with a marked reduction in the foliar level of the concerned element. The influences of macro and micro-nutrient deficiencies on the foliar level of other nutrients are furnished below. Comparative foliar concentration of nutrients Nutrient deficiency --------------------------------------------------------------------- Elements increased Elements decreased Nitrogen P, Zn, B Mg, Fe, Mn Phosphorus N, Zn Mg, Mn Potassium Ca, Mg Nil Calcium K, Mg, N B Magnesium Ca, K, Cu N Sulphur N, P Nil Iron P, Zn, Mn K, Ca Manganese Fe, K, N Nil Copper Fe, Mg Ca Zinc P, Fe Mg Boron N, P Ca, K The deficiency symptoms could be recovered by the application of the deficient nutrient element. The flowering shoots of nutmeg were found to be associated with a significantly higher concentration of carbohydrates in leaves. The flowered shoots had a relatively lower amount of N in leaves prior to flowering and the N content increased slightly towards flowering. It was observed that the P, K, Ca and Mg were higher in the flowering shoots. But the variation was significant only in the case of Ca and Mg, that too in three flushes out of the normal four. The flowering shoots had a relatively lower concentration of foliar S than that of the non-flowering shoots. The flowering shoots registered significantly higher C/N ratio in leaves than that of the non-flowering shoots. The flowered shoots always registered a relatively higher P/S, Ca/S and Mg/S ratios and a lower foliar level of Ca/Mg, N/P and N/K ratios. The flowered and non-flowered shoots showed an erratic trend with respect to K/Ca, K/P and Ca + Mg ratios.