Refine your search
Collections
Co-Authors
Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z All
Jat, Mukesh Kumar
- Evaluation of Fungicides as Seed Tratment against Coriander Wilt Disease Caused by Fusarium oxysporum f.sp. corianderii
Abstract Views :273 |
PDF Views:0
Authors
Affiliations
1 Department of Plant Pathology, College of Agriculture, S. K. N. Agricultural University, Jobner (Rajasthan), IN
1 Department of Plant Pathology, College of Agriculture, S. K. N. Agricultural University, Jobner (Rajasthan), IN
Source
International Journal of Plant Protection, Vol 10, No 1 (2017), Pagination: 92-95Abstract
Among all the tested fungicides, complete inhibition of the fungal growth i.e. 100.00 per cent was recorded with Bavistin (carbendazim) at 200 ppm and 500 ppm the tested concentrations. The next best fungicides in order of fungal growth inhibition were Carbendazim + Mancozeb (companion), Topsin-M (thiophanate methyl), Vitavax (carboxin + thiram) and Benomyl (benlate) which inhibited the fungal growth by Carbendazim was found significantly superior at 200 and 500 ppm with (100%) inhibition of mycelial growth followed by Companion and Topsin- Mat 500 ppm and with (100%). Seed treatment with Bavistin (carbendazim) resulted in lowest wilt incidence (10.39%) result showed that increase with seed yield 1011.15 kg/ha was recorded in Carbendazim followed by companion that showed wilt incidence of 12.22 per cent. Both these fungicides were found to be statistically at par with each other. Next effective seed dresser were Topsin-M and Vitavax that showed wilt incidence of 14.33 and 21.55 per cent, respectively. These fungicides were found to be at par with best fungicides. Seed treatment with Benomy were found to be least effective which showed wilt incidence of 24.15 per cent and decrease with seed yield 617.90 kg/ha was recorded both the years.Keywords
Wilt, Coriander, F. oxysporum, Fungicides.References
- Agnihotri, J.P. and Sharma, A.K. (1987).Efficacy offungicides in inhibiting the growth of Fusarium oxysporum f. sp. cumini and in reducing the incidence of wilt in cumin. Indian Cocoa Arecanut & Spices J., 10: 84-87.
- Bliss, C.A. (1934). The method of probits analysis. Sci., 79: 39.
- Champawat, R. S. (1986). Studies on cumin (Cuminum cyminum L.) wilt incited by F. oxysporum f.sp. cumini. Ph.D. Thesis, Sukhadia University, Udaipur (RAJASTHAN) INDIA.
- Champawat, R.S. (1990). Efficacy of fungicides against F. oxysporum f. sp. cumini. J. Phytopath. Res., 3: 133-136.
- Gupta, R.K., Bansal, R.K. (2003). Comparative efficacy of plant leaf extracts and fungicides against F. oxysporum Schlecht inducing fenugreek wilt under pot house conditions. Ann. Biol., 19 : 35-37.
- Kala, C., Gangopadhyay, S. and Godara, S.L. (2013).Efficacy of fungicides in suppressing chickpea wilt caused by Fusarium oxysporum f.sp. ciceris. Pl. Dis. Res., 28 (1): 71-73 .
- Mailem, Y.S., Bhat B.N., Rao, V.K., Maheshwari, T.U., Rajeswari, B. and Reddy, D.R.R. (2015). Management of chickpea (Cicer arietinum L.) wilt caused by Fusarium oxysporum f. sp. ciceris using fungicides, botanicals and bioagents. Indian J. Plant Protec., 43. (1): 85-89.
- Mathur, B.L. and Mathur, R.L. (1970).Role of contaminated seeds in dessemination of cumin wilt of fungus F. Oxysporum f. sp. cumini. Rajasthan J. Agric. Sci., 1: 80-82.
- Narula and Joshi (1963). Fusarium oxysporum Sch. f.sp. coriandrii. Sci. Cult., 29 : 206.
- Raheja, S. and Patel, R.L. (2011). Evaluation of different fungicides as seed dressers against cumin wilt disease caused by Fusarium oxysporum f.sp. cumini. Pl. Dis. Res., 26 (1): 20-25.
- Rana, S.K., Sugha, S.K. and Banyal, D.K. (2005). Efficacy of SAAF (carbendazim + mancozeb) as a seed dressing fungicide. Pestol., 29: 39-41.
- Singh, A.K. (2009). Integrated management of wilt, Fusarium oxysporum f.sp.coriandrii of coriander. Indian J. Plant Protec., 37 (1&2): 132-133.
- Singh, D.P., Maurya, S., Prakash, O.M. and Singh, U.P. (2005). Phenolic composition and antifungal activity of culture filtrate of Leptoxyphium axillatum. Indian Phytopath., 58: 143–148.
- Singh, R.D., Choudhary, S.L. and Patel, K.G. (1972). Seed transmission and control of Fusarium wilt of cumin. Phytopath. Mediter., 11: 19-24.
- Srivastava, U.S. (1972). Effect of interaction of factors on wilt of coriander caused by Fusarium oxysporum f.sp. corianderii Kulkarni, Nikam & Joshi. Indian J. Agric. Sci., 42 : 618-620.
- Anonymous (2013-14). www.eands.dacnet.net.in/PDF/Agriculture statistics-At-Glance 2014.Pdf.
- In Vitro and Vivo Evaluation of some Fungicides and Organic Amendments to Control of Fusarium solani Causing Indian Aloe (Aloe barbadensis) Root
Abstract Views :195 |
PDF Views:0
Authors
Affiliations
1 Department of Plant Pathology, S.K.N. College of Agriculture, Jobner (Rajasthan), IN
2 Department of Plant Pathology, S.K.N. College of Agriculture, Jobner (Rajasthan), IN
1 Department of Plant Pathology, S.K.N. College of Agriculture, Jobner (Rajasthan), IN
2 Department of Plant Pathology, S.K.N. College of Agriculture, Jobner (Rajasthan), IN
Source
International Journal of Plant Sciences, Vol 12, No 1 (2017), Pagination: 90-94Abstract
Investigation on ischolar_main rot (Fusarium solani) of Indian aloe (Aloe barbadensis Mill.) under jobner conditions was carried out in Department of Plant Pathology Lab., S.K.N. College of Agriculture Jobner to find out sutaible management strategies. Trials on the use of some fungicides and organic amendments to control the pathogen. Among five fungicides viz., Benomyl, Thiophanate methyl, Captan, Carbendazim and Thiram and in case organic amendments neem cake, Vermicompost, Goat and Sheep manure, Mustard Cake and Wool Waste tested in different concentrations against Fusarium solani by following Poisoned Food Technique. Benomyl was found best with complete inhibition of the mycelial growth at 200 and 300 ppm concentrations, followed by Thiophanate methyl and Neem cake (79.0%) was found most effective in reducing mycelial growth of the fungus followed by Vermicompost (74.8%) effective against Fusarium solani. The effect of combinations of different fungicides and organic amendments against Fusarium solani were tested in vivo (pot house) condition Benomyl + Neem cake combination (0.3% + 1.25 g/kg soil) was found best with minimum per cent disease incidence (12.00%) followed by Thiophanate methyl + Neem cake (16.00%), Benomyl + Vermicompost (20.00%) which were observed to be less effective as compared to other fungicides and organic amendments.Keywords
Indian Aloe, Fusarium solani, Fungicides, Organic Amendment, Neem Cake, Vermicompost.References
- Ashour, W.A., Elewa, I.S., Ali, A.A. and Dabash, T. (1980). The role of some systemic and non-systemic fungicides and fertilization on the enzyme activity and the control of Fusarium oxysporum f.sp.cepae, the cause of basal rot in onion. Agric. Res. Rev., 58 (2) : 145-161.
- Chatterjee, A. and Pakrashi, S.C. (2001). The teratise on Indian medicinal plants. National Institute of Science Communication CSIR, New Delhi, 6 : 95-97.
- Ekka, S. and Prasad, S.M. (2010). Evaluation of oil cakes against rhizome rot of ginger. Indian Phytopathol., 63:106-107
- Gupta, R.P., Srivastava, P.K. and Pandey, V.B. (1983). Efficacy of fungicides against Fusarium oxysporum f.sp.cepae, incitant of basal rot of onion. Pesticides, 17: 16.
- Haseeb, A. and Kumar, V. (2007). Efficacy of bioagents and organic amendment materials against Fusarium oxysporum causing brinjal wilt. Indian Phytopathol., 60 : 108-111
- Majumdar, V.L., Bhatnagar, K., Sharma, K. and Verma, O.P. (2007). Three new diseases of Aloe barbadensis Mill. J. Mycol. & Plant Pathol., 37 : 124-125.
- Raychaudhuri, S.P. (2003). Integrated disease management: Medicinal plants. Recent Progress in Medicinal Plants : Disease and their Management. SCI Publishing LLC, Houston, Texas, USA, v. 6, p. 151-157.
- Singh, N.I., Devi, R.K.T. and Devi, P.P. (2000). Effect of fungicides on growth and sporulation of Fusarium solani. Indian Phytopathol., 53 : 327-328.
- Vincent, J.M. (1947). The esters of 4-hydroxyle benzoic acid and related compound. Method for the study of their fungistatic properties. J. Indian Sci., Landon, 16 : 749-755.