Management of collar rot of pea through resistant germplasm and chemicals application

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Research Paper 01/12/2017
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Management of collar rot of pea through resistant germplasm and chemicals application

Muhammad Ehetisham-ul-Haq, Muhammad Kamran, Shaukat Ali, Muhammad Idrees, Muhammad Iqbal, Huma Abbas, Abdul Rashid, Saleem Il Yasin, Mudassar Iqbal
Int. J. Biosci.11( 6), 9-15, December 2017.
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Abstract

Collar rot is a devastating disease of pea lowers the yield significantly. The present research was aimed to find the resistant pea germplasm against collar rot disease and to evaluate the fungicides efficacy under field conditions for disease management. Fourty-four pea varieties and lines were evaluated against collar rot disease of pea under field conditions. No variety and line was found immune. Three varieties/lines (1300-8, No. 267, Rondo) exhibited highly resistant response. Samrinazard, 2001-40, Ambassador, Robina, Pea-09, Strike and Isprit were resistant against the pathogen’s virulence. Fifteen varieties/lines (FS 21-87, MID No.8, 2001-40, LINA Pak, 9800-10, 1300-8, Green Arrow, PAF-400, 92001, Sprinter, Tere-2, Winner, Parker, Kinglit, Italian-680) responded moderately susceptible against collar rot disease. 9800-5, Climax, No. 380, PTL-1, 9805, Olympia, IT-96, GRW-45, Knight, Chinese, FS 23-87, Mayfair, Headline. G. Feast, AM-1, Verdo and Bounting were found susceptible while 2001-60 and Meteor were found highly susceptible to the disease. Five different fungicides {(Acrobat (Dimethomorph), Revus (mandipropamid), Success (Chlorothalonil + Metalaxy), Curzate (Cymoxanil 8% + Mancozeb 64%) and Ridomil Gold (64% w/w Mancozeb + 4% w/w Metalaxyl-M) were evaluated against collar rot disease @ 2.5g/L, 2.4 ml/L, 2g/L,6g/L and 2g/L respectively in field conditions. Ridomil Gold (64% w/w Mancozeb + 4% w/w Metalaxyl-M) was found the most effective to manage the disease.

VIEWS 17

Agrios G. 2005. Plant Pathology. 5th eds. New York: Academic Press.

Baldev B. 1988. Origin, distribution, taxonomy, and morphology. Pulse crops, 3-51.

Barak E, Dinoor A,  Jacoby B. 1983. Adsorption of systemic fungicides and a herbicide by some components of plant tissues, in relation to some physicochemical properties of the pesticides. Pest Management Science, 14, 213-219. https://doi.org/10.1002/ps.2780140302.

BASF. 2017. ACROBAT® 50 WP FUNGICIDE.

Biffen RH. 1905. Mendel’s laws of inheritance and wheat breeding. Journal of Agricultural Research, 1, 4-48. http://dx.doi.org/10.1017/S0021859600000137.

Crathorne B, Dobbs A, Rees Y. 1990. Chemical pollution of the aquatic environment by priority pollutants and its control. Pollution: causes, effects and control, http://dx.doi.org/10.1039/9781847551719-00001.

DuPont. 2017a. Trusted protection against Potato diseases with Curzate®.

DuPont. 2017b. Curzate® Fungicide for Crop Disease.

FAO. 2013. Peas, green, production quantity (tons) – for all countries, USA.

Gent DH, Schwartz HF, Nissen SJ. 2003. Effect of commercial adjuvants on vegetable crop fungicide coverage, absorption, and efficacy. Plant disease, 87, 591-597. https://doi.org/10.1094/PDIS.2003.87.5.591.

Govindaraj M, Vetriventhan M, Srinivasan M. 2015. Importance of genetic diversity assessment in crop plants and its recent advances: an overview of its analytical perspectives. Genetics Research International, 2015, 1-15. http://dx.doi.org/10.1155/2015/431487.

Kraft JM, Pfleger FL. 2001. Compendium of pea diseases and pests,  American Phytopathological Society (APS Press).

Maxted N, Ambrose M. 2001. Peas (Pisum L.), pp. 181-190, Plant genetic resources of legumes in the Mediterranean. Springer.

Mayee C, Datar V. 1986. Phytopathometry. Technical bulletin No.1. 73pp. Martheda Agriculture, University, Parbhani, India.

McGee DC. 1995. Epidemiological approach to disease management through seed technology. Annual review of phytopathology, 33, 445-466. https://doi.org/10.1146/annurev.py.33.090195.002305.

Meynard JM, Doré T,  Lucas P. 2003. Agronomic approach: cropping systems and plant diseases. Comptes Rendus Biologies, 326, 37-46. https://doi.org/10.1016/S1631-0691(03)00006-4.

Munnecke DE. 1972. Factors affecting the efficacy of fungicides in soil. Annual review of Phytopathology, 10, 375-398. https://doi.org/10.1146/annurev.py.10.090172.002111.

Mustafa A, Burhan M, Iqbal M, Bashir SMR, Saeed S, Niaz MZ. 2017. Assessing the host status of pea germplasm against collar rot disease caused by Phytophthora megasperma under natural conditions of Faisalabad. Acadamy of Agriculture Journal, 2, 18-21.

Podger F. 1978. Phytophthora cinnamomi a cause of lethal disease of indigenous plant communities. Phytopathology, 62, 972-981.

Rodriguez R, Jimenez A, Fernández-Bolaños J, Guillén R, Heredia A. 2006. Dietary fibre from vegetable products as source of functional ingredients. Trends in Food Science & Technology, 17, 3-15. https://doi.org/10.1016/j.tifs.2005.10.002.

Ryckaert B, Spanoghe P, Haesaert G, Heremans B, Isebaert S, Steurbaut W. 2007. Quantitative determination of the influence of adjuvants on foliar fungicide residues. Crop Protection, 26, 1589-1594. https://doi.org/10.1016/j.cropro.2007.02.011.

SAS. 2011-2012. SAS 9.3 Help and Documentation computer program, version By SAS, Cary, NC.

Sharma P, Gupta P. 1982. Karyotypes in some pulse crops. Nucleus, 25, 81-85.

Sigler W, Taylor C, Throssell C, Bischoff M, Turco R. 2000. Environmental fates of fungicides in the turfgrass environment: A minireview. ACS Publications. https://doi.org/10.1021/bk-2000-0743.ch008.

Soylu S, Dervis S. 2011. Determination of prevalence and incidence of fungal disease agents of pea (Pisum sativum L.) plants growing in Amik plain of Turkey. Research on Crops, 12, 588-592.

Steel R, Torrie J, Dickey T. 1997. Principles and practice of statistics: A biomedical approach. New York: McGraw Hill.

Steurbaut W. 1993. Adjuvants for use with foliar fungicides. Pest Management Science, 38, 85-91 https://doi.org/10.1002/ps.2780380204.

Syngenta. 2017a. RIDOMIL GOLD MZ 68 WG, Kenya.

Syngenta. 2017b. Revus Fungicide.

Syngenta. 2017c. Ridomil Gold.

Thompson HC, Kell WC. 1923. Vegetable crops,  Tata Mcgraw-Hill Publishing Company Ltd; Bombay; New Delhi.

Vanderplank JE. 1984. Disease resistance in plants,  Academic Press.

Waxman MF. 1998. The agrochemical and pesticides safety handbook,  CRC Press.

Wilson K. 2014. Microsoft Office 2013,  Springer.