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2019 - 201912020 - 20212
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Author: Athira, K × Start date: 2017 × Type: Thesis ×
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    ThesisItemOpen Access
    Varietal screening and management of anthracnose of black pepper using new generation fungicides
    (Department of Plant Pathology, College of Agriculture, Vellayani, 2021) Athira, K; KAU; Heera, G
    The study entitled “Varietal screening and management of anthracnose of black pepper using new generation fungicides” was conducted at Department of Plant Pathology, College of Agriculture, Vellayani during 2018 - 2020 with the objective to screen KAU varieties and most popular local cultivar Karimunda for resistance against anthracnose of black pepper caused by Colletotrichum gloeosporioides (Penz.) Penz. and Sacc. and evolve management strategy using new generation fungicides. As a part of the study, diseased samples were collected from three black pepper growing tracts of Kerala viz., Thiruvananthapuram, Wayanad and Idukki. Sample collections were made from two locations from Thiruvananthapuram (Kowdiar and Vellayani), Wayanad (Meenangadi and Ambalavayal) and Idukki (Myladumpara, Pampadumpara, Kattapana and Kambilikandam). Disease incidence and severity were assessed from the surveyed locations. The highest percentage disease index was observed in Myladumpara (50.28%) followed by Kattapana (48.62%). Weather parameter viz., temperature, relative humidity and rainfall were recorded during the survey period. The weather parameters viz., low temperature, high relative humidity and heavy rainfall favoured the incidence of anthracnose. The symptoms of the anthracnose appeared as small necrotic spots with a yellow halo on the leaf lamina. Several lesions coalesce together resulted in leaf blight and defoliation. In Pampadumpara, spike infection was also observed along with leaf spot. Colletotrichum cultures were isolated from the diseased sample by tissue isolation technique and eight pure cultures of Colletotrichum sp. (C1 to C8) were obtained. The pathogenicity of the eight isolates of Colletotrichum sp. from different locations were proved by Koch postulates. The morphological characters of the eight different isolates were studied in potato dextrose agar (PDA) medium. The isolated cultures of Colletotrichum sp. produced whitish with yellowish orange centre to light pink, off white to greyish coloured colony having fluffy, cottony to sparse mycelial growth with regular margins. Days taken to grow the entire petridish ranged from 7.25 to 9.75 days. The mycelium of the fungus was hyaline and septate, and its width ranged from 2.21 - 3.45 μm. The septal distance of the different Colletotrichum isolates ranged between 8.50 - 21.23 μm. The conidia were single celled with an oil globule at the centre. The conidial shape was either cylindrical, oblong or dumbbell. The conidial and appressorial size varied from 9.4 - 12.1 μm x 3.6 - 4.6 μm and 8.5 – 11.2 μm x 3.5 – 4.3 μm respectively. The isolates were identified as Colletotrichum gloeosporioides. The pathogenic variability of the eight C. gloeosporioides isolates were assessed on three black pepper varieties viz., Panniyur 1, Panniyur 3 and Karimunda by virulence rating. The isolate C7 was identified as the most virulent isolate which produced lesion size of 1.92 cm, 2.40 cm, and 3.22 cm on Panniyur 1, Panniyur 3 and Karimunda respectively at 5 days after inoculation (DAI). The isolate C7 produced symptoms within two days after artificial inoculation in the three varieties tested with a higher rate of lesion development of 0.40 (Panniyur 1), 0.49 (Panniyur 3) and 0.66 (Karimunda) cm day-1. KAU varieties (Panniyur 1 to 8) and local cultivar Karimunda were screened against the most virulent isolate of C. gloeosporioides. Among the varieties screened, Panniyur 4 was found to be highly susceptible with highest PDI of 51.43 (7 DAI), whereas Panniyur 2 had the lowest PDI of 14.28 (7DAI) followed by Panniyur 8 with PDI 20.00 % (7DAI) and were found to be tolerant to anthracnose infection. Panniyur 1, Panniyur 7 and Panniyur 5 were also found to be moderately susceptible. The pathogen produced symptoms in susceptible varieties within 2 DAI, whereas the tolerant varieties took 3-4 days to initiate the infection. In vitro screening of new generation fungicides revealed that kresoxim methyl of strobilurin and tebuconazole of triazole were the most effective in inhibiting mycelial growth of C. gloeosporioides (80.37% and cent percent respectively). The combination fungicide carbendazim 12% + mancozeb 63 % completely inhibited the mycelial growth at 25, 50 and 100 ppm. The combination fungicides azoxystrobin 11% + tebuconazole 18.3% SC and trifloxystrobin 25% + tebuconazole 55% WP were also effective against the pathogen at 100 ppm. The contact fungicide copper oxychloride was ineffective against the pathogen @ 10, 25, 50 and 100 ppm. The present study revealed the use of tolerant varieties along with need based application of new generation fungicides to keep the destructive disease under control. The future line of work should include screening of more black pepper varieties under field condition to assess their reaction to anthracnose, elucidation of the factors governing resistance to the disease and the efficacy of new generation fungicides under field condition.
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    ThesisItemOpen Access
    Varietal screening and management of anthracnose of black pepper using new generation fungicides
    (Department of Plant Pathology, College of Agriculture, Vellayani, 2020) Athira, K; KAU; Heera, G
    The study entitled “Varietal screening and management of anthracnose of black pepper using new generation fungicides” was conducted at Department of Plant Pathology, College of Agriculture, Vellayani during 2018 - 2020 with the objective to screen KAU varieties and most popular local cultivar Karimunda for resistance against anthracnose of black pepper caused by Colletotrichum gloeosporioides (Penz.) Penz. and Sacc. and evolve management strategy using new generation fungicides. As a part of the study, diseased samples were collected from three black pepper growing tracts of Kerala viz., Thiruvananthapuram, Wayanad and Idukki. Sample collections were made from two locations from Thiruvananthapuram (Kowdiar and Vellayani), Wayanad (Meenangadi and Ambalavayal) and Idukki (Myladumpara, Pampadumpara, Kattapana and Kambilikandam). Disease incidence and severity were assessed from the surveyed locations. The highest percentage disease index was observed in Myladumpara (50.28%) followed by Kattapana (48.62%). Weather parameter viz., temperature, relative humidity and rainfall were recorded during the survey period. The weather parameters viz., low temperature, high relative humidity and heavy rainfall favoured the incidence of anthracnose. The symptoms of the anthracnose appeared as small necrotic spots with a yellow halo on the leaf lamina. Several lesions coalesce together resulted in leaf blight and defoliation. In Pampadumpara, spike infection was also observed along with leaf spot. Colletotrichum cultures were isolated from the diseased sample by tissue isolation technique and eight pure cultures of Colletotrichum sp. (C1 to C8) were obtained. The pathogenicity of the eight isolates of Colletotrichum sp. from different locations were proved by Koch postulates. The morphological characters of the eight different isolates were studied in potato dextrose agar (PDA) medium. The isolated cultures of Colletotrichum sp. produced whitish with yellowish orange centre to light pink, off white to greyish coloured colony having fluffy, cottony to sparse mycelial growth with regular margins. Days taken to grow the entire petridish ranged from 7.25 to 9.75 days. The mycelium of the fungus was hyaline and septate, and its width ranged from 2.21 - 3.45 μm. The septal distance of the different Colletotrichum isolates ranged between 8.50 - 21.23 μm. The conidia were single celled with an oil globule at the centre. The conidial shape was either cylindrical, oblong or dumbbell. The conidial and appressorial size varied from 9.4 - 12.1 μm x 3.6 - 4.6 μm and 8.5 – 11.2 μm x 3.5 – 4.3 μm respectively. The isolates were identified as Colletotrichum gloeosporioides. The pathogenic variability of the eight C. gloeosporioides isolates were assessed on three black pepper varieties viz., Panniyur 1, Panniyur 3 and Karimunda by virulence rating. The isolate C7 was identified as the most virulent isolate which produced lesion size of 1.92 cm, 2.40 cm, and 3.22 cm on Panniyur 1, Panniyur 3 and Karimunda respectively at 5 days after inoculation (DAI). The isolate C7 produced symptoms within two days after artificial inoculation in the three varieties tested with a higher rate of lesion development of 0.40 (Panniyur 1), 0.49 (Panniyur 3) and 0.66 (Karimunda) cm day-1. KAU varieties (Panniyur 1 to 8) and local cultivar Karimunda were screened against the most virulent isolate of C. gloeosporioides. Among the varieties screened, Panniyur 4 was found to be highly susceptible with highest PDI of 51.43 (7 DAI), whereas Panniyur 2 had the lowest PDI of 14.28 (7DAI) followed by Panniyur 8 with PDI 20.00 % (7DAI) and were found to be tolerant to anthracnose infection. Panniyur 1, Panniyur 7 and Panniyur 5 were also found to be moderately susceptible. The pathogen produced symptoms in susceptible varieties within 2 DAI, whereas the tolerant varieties took 3-4 days to initiate the infection. In vitro screening of new generation fungicides revealed that kresoxim methyl of strobilurin and tebuconazole of triazole were the most effective in inhibiting mycelial growth of C. gloeosporioides (80.37% and cent percent respectively). The combination fungicide carbendazim 12% + mancozeb 63 % completely inhibited the mycelial growth at 25, 50 and 100 ppm. The combination fungicides azoxystrobin 11% + tebuconazole 18.3% SC and trifloxystrobin 25% + tebuconazole 55% WP were also effective against the pathogen at 100 ppm. The contact fungicide copper oxychloride was ineffective against the pathogen @ 10, 25, 50 and 100 ppm. The present study revealed the use of tolerant varieties along with need based application of new generation fungicides to keep the destructive disease under control. The future line of work should include screening of more black pepper varieties under field condition to assess their reaction to anthracnose, elucidation of the factors governing resistance to the disease and the efficacy of new generation fungicides under field condition.
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    ThesisItemOpen Access
    Develpment and evaluation of protein enriched RTE extruded food products
    (Department of Processing and Food Engineering, KCAET, Tavanur, 2019) Athira, K; KAU; Rajesh, G K
    Malnutrition causes major health problems due to qualitative and quantitative insufficiency of dietary protein and calories intake. Protein energy malnutrition is a serious threat especially in children in developing countries. Fortification or combination of two or more food ingredients can make a solution for this nutritional insufficiency to a certain extend. Food products with improved nutritional profile can be produced by blending legumes. Ready to eat food products are plays a major role in modern consumer’s diets. Extrusion cooking is a novel technology adopted by food industries as it is a rapid, continuous and cost-effective process. Therefore, an investigation has been taken up to develop a protein enriched ready to eat food products from rice, ragi, Bengal gram, ground nut and soybean using extrusion cooking. The feed composition selected for the extrusion were 60% rice, 10% ragi, 10% Bengal gram, 10% soybean and 10% groundnut flour and the physico chemical analysis of the feed mix was conducted and recorded. The process variables used in the study were temperature (120,130 and 140°C), moisture content (12, 14 and 16%) and screw speed (300, 350 and 400 rpm). The optimisation of process parameters was analysed using RSM based on the quality characteristics of the extrudates. The optimum operating conditions of extrusion process namely, barrel temperature, moisture content and screw speed was found to be 140°C, 12.20% and 383.96 (384) rpm respectively. The storage studies of optimally produced extrudates were conducted by using different packaging materials (LDPE and laminated aluminum) and packaging technologies (Active and passive MAP). The extrudates packed in laminated aluminum with active MAP had good overall acceptability after three months of storage and they were microbiologically safe. The total production cost of 1kg of extruded RTE product was found to be Rs. 113.29/-.