Browsing by Author "Narayanankutty, C"
Now showing 1 - 9 of 9
- Results Per Page
- Sort Options
Item Chakka vaividyamarnna ulppannangal(Kerala Agricultural University, 2012) Pushpalatha, P B; Narayanankutty, C; Sheela, K BItem Controlling seedling height of cowpea (Vigna unguiculata (L.) Walp.) transplants using plant growth regulators(Department of Vegetable Science, College of Agriculture, Vellanikkara, 2022) Anu Latha Robi; Narayanankutty, CCowpea (Vigna unguiculata (L.) Walp) is an annual leguminous vegetable crop. It is grown throughout india for its tender green pods used as vegetable. Green cowpea seeds are boiled as a fresh vegetable or may be canned or frozen. The beans are nutritious and provide complementary proteins to cereals diets. Seedlings like cowpea, cucurbits having lanky growth growing in polyhouses is an undesirable quality, especially in plugs intended for mechanized planting and long distance transport. Seed treatment with growth retardants is an effective method for controlling seedling height .However limited studies have been conducted in vegetable crops The present study was undertaken with the objectives of controlling seedling height of vegetable cowpea and to assess the field performance of treated seedlings. The experiment was conducted at the Centre for Hi-Tech Horticulture and Precision farming, Vellanikkara KAU, Thrissur during the year 2020-2021 In seedling stage, highest germination was recorded in control treatment on 5th and 10th days after sowing (89%) and (91%) respectively in Vellayani Jyothika. Minimum germination percentage was recorded in Paclobutrazol @ 200 ppm on 5th and 10th day after sowing (64.3%) and (66.0%) respectively in cowpea genotype Vellayani Jyothika. Significantly lower germination percentage was recorded in treatments receiving Paclobutrazol @ 200 ppm on 5th and 10th day after sowing (70.0%) (72%) in the genotype Kashi Kanchan. In both the genotypes there were no significant difference between the treatments on 15th days after sowing. Paclobutrazol treatment took more number of days for emergence of seedling up to the first node compared to control treatment ie Paclobutrazol @ 200 ppm (8.13) and (8.00) respectively in both the genotypes. Highest shoot length was recorded in control treatment on 5th, 10th and 15 th days after germination in both the genotypes. Significantly lower shoot length was recorded in treatments receiving Paclobutrazol @ 200 ppm irrespective of the number of days after germination. Growth retardants in general reduce root growth, shoot weight and root weight of the seedlings. In both the genotypes (Vellayani Jyothika and Kashi Kanchan) significantly lower root length, shoot weight and root weight was obtained in Paclobutrazol treatments compared to non-treated control. Height of seedling up to the first node was directly linked to shoot length. In both the genotypes of the cowpea significantly lower shoot length was recorded in treatments receiving Paclobutrazol @ 200 ppm (4.09) and (4.03) respectively. Paclobutrazol treated seedlings had dark green leaves when compared to other growth regulator and control treatments on 5th ,10th and 15th days after germination. In both the cowpea genotypes, when compared to other growth retardant and control treatments highest stem girth of the seedlings was recorded in treatments receiving Paclobutrazol @ 200 ppm on 5th (3.19 mm) 10th (3.45mm) and 15th (3.7mm) in Vellayani Jyothika and on 5th (3.3mm ) 10th (3.4mm) and 15th (3.8mm) in Kashi Kanchan. There were no significant difference between the treatments on 5th (2) and 15th days (7-8) after germination in both the genotypes. The total chlorophyll content and carotenoid content was recorded highest in treatments receiving Paclobutrazol treatments on seedling stage. Minimum auxin content and gibberellic acid contents were observed in Paclobutrazol treatments. In the field experiment, in both the cowpea genotypes, plant growth regulator Ethrel recorded maximum plant height where as in Vellayani Jyothika minimum plant height was recorded in Cycocel@ 50 ppm (112.40 cm) .In Kashi Kanchan lowest plant height was recorded in Paclobutrazol @ 200 ppm (33.06 cm) in Kashi Kanchan. In vellayani Jyothika highest internodal length was recorded in Ethrel @100 ppm (3.13 cm) and Ethrel @50 ppm (3.04 cm). Minimum was recorded in Paclobutrazol@ 200 ppm (2.63 cm). In the genotype Kashi Kanchan maximum internodal length was recorded in Ethrel@ 200 ppm (3.34 cm) and minimum was recorded in Cycocel @ 100 ppm (2.53cm). Highest number of primary branches was recorded in treatments receiving Paclobutrazol @ 200 ppm which was on par with Paclobutrazol @ 100 ppm compared to control in Vellayani Jyothika. In Kashi Kanchan there were no significant differences found between the treatments. Growth retardants had significant effect on the viz days to first flowering, days to first harvest and crop duration. Early flowering results in early harvesting of pods. Plant growth retardant Cycocel @ 200 ppm (41day) and Cycocel @ 25 ppm (36.80 days) recorded earliest flowering in the field in both the genotypes. In both the genotypes delayed flowering and maximum crop duration was recorded in Paclobutrazol treatments. Pod length and pod girth are related with pod weight. Ethrel treatment had highest pod length and pod girth compared to control .The higher number of flowers, pod girth and pod length contributed to production of more number of pods which in turn resulted in higher yield per plant. In both the cowpea genotypes, highest number of pods per plant and yield per plant was recorded in Ethrel treatments (Ethrel 100 ppm) in Vellayani Jyothika followed by Paclobutrazol treatment (Paclobutrazol 100 ppm) where as in Kashi Kanchan Paclobutrazol 100 ppm was on par with Ethrel 100 ppm. From the above study it could be concluded that, Paclobutrazol 100 ppm seed treatment was effective in controlling seedling height as well to obtain good yield in vegetable cowpea.Item DNA barcoding in genera benincasa and praecitrullus(Centre for Plant Biotechnology and Molecular Biology, College of Horticulture,Vellanikkara, 2019) Priya Sonkamble; Narayanankutty, CBenincasa is a monotypic genus with only one cultivated species hispida. In India, Benincasa exhibits rich diversity. There is substantial variation in vegetative traits and fruitcharacters and it is difficult to distinguish ashgourd genotypes based on their external morphology alone. In spite of having enormous morphological variability, all members at present are accommodated into asingle species. The taxonomic classification of Praecitrullus is still uncertain. The marker and pollen morphology studieshave revealed that P. fistulosusis more related to B. hispida, than compared to other cucurbit species. DNA barcoding is a novel system designed to provide rapid, accurate and automatable species identification using short, standardized genomic regions as internal species tags. DNA barcoding is based on the characteristic variations on the sequences of identified genomic regions, which can distinguish individuals of a species. Species identification through barcoding is usually achieved by the retrieval of a short DNA sequence from a standard part of the genome (i.e. a specific gene region either from chloroplast, mitochondria or nuclear genome) and identifying the barcode gaps for each species. The barcode sequence from each unknown specimen is then compared with a library of reference barcode sequences derived from individuals of known identity. The study entitled “DNA barcoding in genera Benincasa and Praecitrullus was done at Centre for Plant Biotechnology and Molecular Biology, College of Horticulture, Vellanikkara, with the objectives to assess genetic diversity and interspecies relationship among Benincasa and Praecitrullus genotypes and to check the species status of Benincasa using barcodes. Twenty-six ashgourd and five tinda accessions were morphologically screened in the field using the standard descriptor and basedaccessions were clustered, based on morphological characters recorded. The ashgourd accessions varied widely for their morphological traits,fruit size varied between0.191 to 12.0 kg. Thefruit shape, varied from club, spindle, cylindrical, oblong to ridged shape. The growth habit varied from long viny to short viny.Serrated, deep serrated and double serrated leaf margin was observed. For stem pubescencevariations recorded were hispid, downy, tomentose, puberulent, pilose,villous and hirsute. The cross compatibility of the ash gourd accessions were also checked to establish the species status. All the accessions of ash gourd were cross compatiblein both the directions, showing that they belong to the same species. Based on the morphological data of ashgourd accessions nine cluster were generated. One representative accession from each cluster and three representative accessions of tinda selected for the molecular studies. Total genomic was isolated and subjected to PCR assay. The matK and ITS2 gave the bands of 950 bp and 799 bp respectively, which were sufficient to identify barcode gaps.The markers were sequenced from 9 genotypes of ashgourd and 3 tinda genotypes.The BLAST analysis had shown that matK and ITS2 both loci is 99 per cent efficient for species discrimination in Benincasa and Praecitrullus. Barcode gap, a position in the sequence at which a particular nucleotide shows characteristic variation in all the members of a particular species, was identified for all the members of Benincasa and Praecitrullus species. Barcode gaps were identified for tinda, in comparison with Benincasa for both the loci. The barcodes in tinda were observed in matK locus at 47, 127 and 232bp. Similarly, for the locus ITS2, the barcode gaps in tinda were identified at 162, 207, 278, 279 and 288 bp. However, within Benincasa, there were no such characteristic barcode gaps, indicating that the null hypothesis of monotypic status of Benincasa is true. Phylogenetic analysis using Clustal Omega showed the variation within Benincasa species and Praecitrullus species.The barcodes developed in this study could be successfully used to solve the genetic relatedness of Benincasa and Praecitrullus species.Item Evaluation of a set of non-segragating and segragating populations of tomato for field resistance to bacterial wilt(Department of Olericulture, College of Horticulture, Vellanikkara, 1985) Narayanankutty, C; Peter, K VItem Fertigation and mulching studies in cabage (Brassica oleracea var capitata L)(Department of Olericulture, College of Horticulture, Vellanikkara, 2013) Mvoyaha Kaposha, Nakaande; Narayanankutty, CItem Jackfruit: value added products(Kerala Agricultural University, 2009) Pushpalatha, P B; Sheela, K B; Narayanankutty, C; Jaikumaran, UItem Productivity management in yard long bean (Vigna unguiculata var. sesquipedalis (L.) Verdcourt) through crop geometry and nutrition(Department Of Olericulture, College Of Horticulture, Vellanikkara, 2005) Preetha, M D; Narayanankutty, CItem Rootstock evaluation and grafting studies in brinjal (Solanum melongena L.)(Department of Vegetable Science, College of Horticulture, Vellanikkara, 2019) Sadanand Kumabar; Narayanankutty, CThe present investigation was conducted at Agricultural Research Station, Mannuthy and Centre for Hi-Tech Horticulture and Precision Farming, Vellanikkara, Thrissur during the year 2018-2019 with the objective to evaluate ten available rootstocks comprising of Surya, Haritha, SMI, SM2, SM3, SM116, SM398, Solanum sisymbrifolium, Sokmum torvum KAUl, Solanum torvum TNAUl for resistance to bacterial wilt in both field evaluation and artificial Inoculation and to study the field performance of grafted brinjal plants on bacterial wilt resistant rootstocks. In the field trials Solanum sisymbrifolium was highly susceptible to bacterial will with 96.6% wilt incidence whereas SM398 (40% PDI), SM2 (40% PDl), SMI (23.3% PDI), Solanum torvum KAUl (16.6% PDI) and Solanum torvum TNAUl (20% PDI) were found moderately resistant to bacterial wilt. Genotypes such as Surya, Haritha, SM3 and SM1I6 found highly resistant to bacterial wilt even when spot planted with susceptible check genotype Pusa Ruby which showed 100 percent wilt incidence. The PDI in check genotype Pusa Ruby ranged from 86.67 per cent to 100 per cent. Solanum sisymbrifolium spot planted with Pusa Ruby took minimum number of days to wilt incidence (23.40 days) whereas SM398 took maximum days to will (32.3 days). Under artificial inoculation the genotype Solanum sisymbrifolium exhibited 73.33 per cent will incidence along with the susceptible check Pusa Ruby which exhibited 86.6 per cent wilt incidence and both the genotypes were classified as susceptible to bacterial wilt. All other genotypes viz,, Surya, Haritha, SM 1, SM2, SM3, SM 116, SM398, Solanum torvum KAU1 and Solanum fon'um TNAUl did not show any wilt incidence under artificial inoculation and were resistant to bacterial wilt. Solanum sisymbrifolium took more number of days to wilt (16.81 days) when compared to the susceptible check Pusa Ruby (9.77 days). The root dip method recorded highest PDI in both susceptible genotype Solanum sisymbrifolium (86.67%) and the susceptible check Pusa Ruby (100%) when compared to media drenching and stem injection methods and the number of days to wilt incidence was also the lowest in root dip method (11.70 days) followed by stem inoculation (12.25 days) and media drenching (26.50 days). Significant differences were observed with respect to plant height, plant spread, stem girth, number of primary branches, fruits per plant, fruit length, fruit girth, average fruit weight, yield per plant, total phenolic, dry matter, number of wilted plants, root length and root spread among ail the rootstocks used when compared to non-grafted control and all the grafted plants produced significantly better performance for all the above parameters irrespective of the rootstocks used. Maximum yield per plant (6.69 kg), number of fruits per plant (94.80), plant spread, stem girth, number of primary branches, fruit lengtli (22.22 cm), root length (63.65 cm) and root spread (87.05 cm) were recorded when cullivar Haritha was used as a rootstock. The highest plant height, fruit girth (10.97 cm) and average fruit weight (78.00 g) were recorded on SMI 16 rootstock. Highest dry matter content was found in fruits of grafted plants of SM398 (11.12%) and the total phenolic content was the highest when SM3 (113.30 mg/l OOg) was used as rootstock. Maximum numbers of wilted plants were observed in non-grafted control. The perfonnance of non-grafted control plants was poor for all the above characters studied. Grafting did not significantly influence earliness, duration of the crop or number of harvests or total soluble solids content of fruits in brinjal. It had no significant effect on incidence of other pests on the crop except for bacterial wilt. From above studies it could be summarised that spot planting could be used as an effective tool for screening brinjal genotypes against bacterial wilt. Grafting technology could be successfully utilised in brinjal not only for bacterial wilt resistance but also for obtaining higher productivity. Haritha was found to be best rootstock for grafting in brinjal as it recorded significantly higher yield per plant, number of fruits per plant, plant spread, stem girth, number of primary branches, fruit length, root length and root spread followed by SMI 16 rootstock which recorded the highest plant height, fruit girth and average fruit weight.Item Spot-planting technique to confirm host reaction to bacterial wilt in tomato(Kerala Agricultural University, 1986) Narayanankutty, C; Peter, K V