Browsing by Author "Jyothi, M L"
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ThesisItem Open Access Evaluation of pickling mangoes for processing quality(Department of Processing Technology, College of Horticulture, Vellanikkara, 2016) Zeenath, K. K; KAU; Jyothi, M LMango (Mangiferaindica Linn.), popularly known as the “King of fruits”, is cherished for its flavour, succulence and delicious taste. In India the fruit is cultivated in an area of 2,312 ha and the production is around 15.03 million tons, contributing 40.48% of the total world production of mango.Raw fruits of local varieties of mango trees are used for preparing various traditional products like raw slices in brine, amchur, pickle, murabba, chutneye/c. In Kerala, commercial cultivation of mango is however limited and Palakkad district ranks first in mango cultivation. Due to the proximity to Western Ghats, the state has a wealth of local varieties which are valued for its pickling quality. Tender mango pickle, commonly known as Kadumanga,and cut mango pickles are popular in Kerala. Many of these land races are juicy types. However, studies on their suitability for preparation of different products are limited. Attempts are made at RARS, Pattambi and RARS, Pilicode under Kerala Agricultural University to conserve pickling varieties. Evaluation of these collections for product development is yet to be done. The study on “Evaluation of pickling mangoes for processing quality.” was conducted in the Department of Processing Technology, College of Horticulture, Vellanikkara, Thrissur, during 2014-2016 with the objective of assessing processing quality of pickling mango collections maintained at RARS, Pattambi and RARS, Pilicode. The experiment was conducted in CRD with three replications. Twenty one accessions (8 from RARS, Pilicode and 13 from RARS, Pattambi) were selected for the study out of which one was Chandrakaran. The programme was divided into two major experiments. Experiment I was “Evaluation of the accessions for quality” and experiment II “Evaluation of accessions for product development”. Fruits were collected at tender, mature and ripe mango stage. Quantitative and qualitative attributes of the selected accessions at the three stages were studied in experiment I. In experiment II fruits of these selected accessions were used for making tender mango pickle, cut mango pickle and RTS beverages. Organoleptic evaluation of these products was made at monthly intervals for three months. Microbial load was also observed in pickles at monthly intervals for three months. Results of the first experiment showed that there was significant difference between the accessions in both quantitative and qualitative characters at all three stages viz. tender, mature and ripe.Biochemical parameters such as titrable acidity increased from tender to mature stage and decreased on ripening. Polyphenol content was higher at tender stage, which decreased during maturation and ripening. Acidity of mangoes ranged from 1.91 to 5.01 per cent at tender stage,2.74 to 6.71 per cent at mature stage and from0.28 to 1.4 per cent at ripe 1.58 per cent in tender mango stage,0.61 to 3.63 per cent in mature stage and 0.7 to 3.7 per cent in ripe stage. TSS of ripe fruits varied from 12.5 to 22.2 0 brix and juice content from 20.52 to 61.63 per cent. Organoleptic evaluation of the products was conducted based on hedonic scale. Total score for tender mango pickle increased with the increasing storage time and that of RTS beverage decreased. Accessions 15 and 17 (Chandrakaran) were the best for tender mango pickling followed by Accessions 2, 3, 6, 8, 10 and 12. Acc. 4, 8, 9 and 21 were the best for cut mango pickling. Accessions 21, 17, 1, 2, 6, 7, 8, 11, and 13 were good for RTS beverage preparation. Microbial population was negligible in tender mango pickle compared to cut mango pickle. Accession 8 was suitable for all the three products. Accessions 6, 8 15 and 17 were good for both tender mango and cut mango pickle preparation. Accessions 8 and 21 were good for cut mango pickle and RTS beverage. Accessions 16 and 21 were least acceptable for tender mango pickling; 16, 19 and 20 for cut mango pickling and 9, 10, 14, 16 for RTS beverages.ThesisItem Open Access Response of banana Musa (AAB) 'Nendran' to nutrient sources(Department of Fruit Science, College of Agriculture, Vellanikkara, 2021) Manohar Lal Meghwal; KAU; Jyothi, M LBanana is the leading tropical fruit in the world market today with a highly organized and developed industry. Banana having a root system spread in the top 60 cm soil, is heavy feeder of nutrients and requires large quantities of nutrients for its growth, development and yield. Nutrient removal from soil by crops must be replenished. Under good management conditions and adequate supply of biofertilizers and organic manures, the nutrient removal can be replenished and soil physical, chemical and biological properties can be improved. Organic and inorganic sources of nutrients have significant influence on fruit quality and soil characteristics. The current agricultural policy emphasize a shift towards safe agricultural practices for which organic management is the best option. However the crop behaviour under organic and inorganic management needs elaborate studies. Hence the research entitled ‘Response of banana Musa (AAB) 'Nendran' to nutrient sources was formulated to elucidate response of banana in terms of growth, yield and quality to nutrient sources and to compare the fruit quality of banana grown under organic and conventional systems in farmer’s field. The study revealed that vegetative growth of Musa Nendran banana was not influenced by different sources of nutrients in early stage in both the years but later differences were recorded between the treatments. Plant height, number of leaves and pseudostem girth showed significant differences from 90 DAP. At bunching stage plant height and pseudostem girth were higher in organic treatments. There was significant difference in pseudostem girth between the treatments throughout the growth stage of Nendran banana. Among the treatments, T8 resulted in better growth of plants. Leaf characters like number of leaves and leaf area index were not influenced significantly between organic and integrated nutrient management. Early leaf production was also noticed in treatment T8 as indicated by the observations on phyllocron. Growth was delayed in control where no manures and fertilizers. In general more number of leaves per plant and lesser duration for leaf emergence was recorded in both the years in organic treatments. Chlorophyll production in the index leaf of banana was influenced with organic and inorganic nutrition. Chlorophyll a, b and total chlorophyll in the index leaf were distinctly higher in treatment T8 (fertigation with FYM) which was on par with treatments T3 and T5 where organic manures alone were applied. Early flowering and early harvesting were observed in organic treatments. Higher total biomass production was recorded in organic treatments. Yield and yield attributing characters like bunch weight, number of finger, finger weight were highest in treatments with organic sources of nutrients. The mean bunch weight was influenced significantly by organic and inorganic sources of nutrients. Fertigation with organic sources of nutrients resulted in the production of heavier bunches in both years. Maximum bunch weight was recorded from treatment T8 which was on par with other organic treatments as well as integrated management with fertilisers applied as fertigation as well as based on soil test results. No significant variation was observed between treatments on number of hands per bunch and finger characters like finger length and girth. Peel thickness of fruits were not significantly influenced but the pulp to peel ratio was significantly influenced by the treatments. Pulp to peel ratio was higher in all treatments other than T1 and control where T1 is the POP recommendation for TC banana under integrated nutrient management. Yield per plant was positively correlated with available N, P, K, Calcium, magnesium, sulphur, Zn, Cu, B, content of the soil. Yield was also positively correlated with soil properties like pH, organic carbon content, CEC, Bulk density, and Dehydrogenase enzyme activity. Higher biomass production was recorded in plants that received nutrients from organic sources compared to integrated nutrient management and control. Shelf life of fruits were improved in organic treatments. Fruit quality parameters like TSS, Total sugars, ascorbic acid and β carotene of ripe banana fruits were improved in organic treatments compare to inorganic system. Sensory score of ripe fruits and fruit chips were maximum in organic treatments. The taste of ripe banana fruits was improved in plants grown under organic treatments. Fertigation with organic manures (T8) resulted in improved fruit quality of Nendran banana in both the years. Different soil physical and chemical properties also improved when nutrients were supplied through organic sources. Soil pH, electrical conductivity, organic carbon content, cation exchange capacity, available, N, P, K, Mg, Iron, Copper, Zinc, Mn and boron were better in soils receiving organic manures alone. Similarly the soil biological properties like dehydrogenase activity, nitrogenase activity, microbial biomass carbon, and viable counts of total fungi, bacteria and actinomycetes were better in organic treatments. Bulk density of soil was low in soils receiving organic manures alone compared to integrated nutrients. Total uptake of nutrients in organic and integrated nutrient management system was compared. Uptake of N, Ca, S, Fe, Mn, Zn and Cu was higher in organic system of cultivation of banana compared to integrated system. Higher benefit cost ratio was recorded banana grown in organic system. The study revealed that organic sources of nutrients improved soil properties and thereby improved growth, yield and quality of banana.ThesisItem Open Access Response of banana Musa (AAB) 'Nendran' to nutrient sources(Department of Fruit Science, College of Agriculture ,Vellanikkara, 2021) Manohar Lal Meghwal.; Jyothi, M L; KAUanana is the leading tropical fruit in the world market today with a highly organized and developed industry. Banana having a root system spread in the top 60 cm soil, is heavy feeder of nutrients and requires large quantities of nutrients for its growth, development and yield. Nutrient removal from soil by crops must be replenished. Under good management conditions and adequate supply of biofertilizers and organic manures, the nutrient removal can be replenished and soil physical, chemical and biological properties can be improved. Organic and inorganic sources of nutrients have significant influence on fruit quality and soil characteristics. The current agricultural policy emphasize a shift towards safe agricultural practices for which organic management is the best option. However the crop behaviour under organic and inorganic management needs elaborate studies. Hence the research entitled ‘Response of banana Musa (AAB) 'Nendran' to nutrient sources was formulated to elucidate response of banana in terms of growth, yield and quality to nutrient sources and to compare the fruit quality of banana grown under organic and conventional systems in farmer’s field. The study revealed that vegetative growth of Musa Nendran banana was not influenced by different sources of nutrients in early stage in both the years but later differences were recorded between the treatments. Plant height, number of leaves and pseudostem girth showed significant differences from 90 DAP. At bunching stage plant height and pseudostem girth were higher in organic treatments. There was significant difference in pseudostem girth between the treatments throughout the growth stage of Nendran banana. Among the treatments, T8 resulted in better growth of plants. Leaf characters like number of leaves and leaf area index were not influenced significantly between organic and integrated nutrient management. Early leaf production was also noticed in treatment T8 as indicated by the observations on phyllocron. Growth was delayed in control where no manures and fertilizers. In general more number of leaves per plant and lesser duration for leaf emergence was recorded in both the years in organic treatments. Chlorophyll production in the index leaf of banana was influenced with organic and inorganic nutrition. Chlorophyll a, b and total chlorophyll in the index leaf were distinctly higher in treatment T8 (fertigation with FYM) which was on par with treatments T3 and T5 where organic manures alone were applied. Early flowering and early harvesting were observed in organic treatments. Higher total biomass production was recorded in organic treatments. Yield and yield attributing characters like bunch weight, number of finger, finger weight were highest in treatments with organic sources of nutrients. The mean bunch weight was influenced significantly by organic and inorganic sources of nutrients. Fertigation with organic sources of nutrients resulted in the production of heavier bunches in both years. Maximum bunch weight was recorded from treatment T8 which was on par with other organic treatments as well as integrated management with fertilisers applied as fertigation as well as based on soil test results. No significant variation was observed between treatments on number of hands per bunch and finger characters like finger length and girth. Peel thickness of fruits were not significantly influenced but the pulp to peel ratio was significantly influenced by the treatments. Pulp to peel ratio was higher in all treatments other than T1 and control where T1 is the POP recommendation for TC banana under integrated nutrient management. Yield per plant was positively correlated with available N, P, K, Calcium, magnesium, sulphur, Zn, Cu, B, content of the soil. Yield was also positively correlated with soil properties like pH, organic carbon content, CEC, Bulk density, and Dehydrogenase enzyme activity. Higher biomass production was recorded in plants that received nutrients from organic sources compared to integrated nutrient management and control. Shelf life of fruits were improved in organic treatments. Fruit quality parameters like TSS, Total sugars, ascorbic acid and β carotene of ripe banana fruits were improved in organic treatments compare to inorganic system. Sensory score of ripe fruits and fruit chips were maximum in organic treatments. The taste of ripe banana fruits was improved in plants grown under organic treatments. Fertigation with organic manures (T8) resulted in improved fruit quality of Nendran banana in both the years. Different soil physical and chemical properties also improved when nutrients were supplied through organic sources. Soil pH, electrical conductivity, organic carbon content, cation exchange capacity, available, N, P, K, Mg, Iron, Copper, Zinc, Mn and boron were better in soils receiving organic manures alone. Similarly the soil biological properties like dehydrogenase activity, nitrogenase activity, microbial biomass carbon, and viable counts of total fungi, bacteria and actinomycetes were better in organic treatments. Bulk density of soil was low in soils receiving organic manures alone compared to integrated nutrients. Total uptake of nutrients in organic and integrated nutrient management system was compared. Uptake of N, Ca, S, Fe, Mn, Zn and Cu was higher in organic system of cultivation of banana compared to integrated system. Higher benefit cost ratio was recorded banana grown in organic system. The study revealed that organic sources of nutrients improved soil properties and thereby improved growth, yield and quality of banana.ThesisItem Open Access Standardisation of propagation techniques in bread fruit (Artocarpus altilis (Park.) Fosberg)(Department of Horticulture, College of Agriculture, Vellayani, 1986) Jyothi, M L; KAU; Ramachandran Nair, SInvestigations were carried out at the Department of Horticulture, College of Agriculture, Vellayani during 1984-85 to standardise the most suitable method of vegetative propagation of bread fruit. The experiment was conducted in completely randomised design with root and stem cuttings and layering in order to find out the optimum thickness and. length of root and shoots end also the influence of growth regulators in enhancing the success with each of these methods. From the investigations it was found that root sittings were the mast; reliable end successful propagules compared to stem cuttings and layers. Thick roots were found to give comparitively more success In percentage of sprouting and the number of sprout per cutting Earlier sprouting and Easier growth of the sprouts were recorded from thin roots. The root development from the root cuttings was more from medium thick and thin cuttings. Longer root cuttings were more suited for propagation since they performed better in all characters except in secondary root development. Growth regulators had a negative effect on sprouting of root cuttings. Higher success in sprouting earlier sprouting and subsequent growth was obtained from untreated cuttings and also from those treated with NAA at lower concentration. However root development from the cuttings was found to be enhanced by growth regulator treatment compared to control. Among the growth regulators tried, NAA 300 ppm gave better results in the development of both primary and secondary roots.