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http://dx.doi.org/10.7235/hort.2012.11140

Evaluation of Pepper Genetic Sources (Capsicum spp.) for Disease Resistance Breeding  

Lee, Sang-Jun (Department of Plant Science, Gangneung-Wonju National University)
Kim, Byung-Sup (Department of Plant Science, Gangneung-Wonju National University)
Publication Information
Horticultural Science & Technology / v.30, no.2, 2012 , pp. 185-191 More about this Journal
Abstract
For initiation of resistance breeding program of the red pepper, 21 PR ($Phytophthora$ resistance) cultivars, 36 cultivars collected from USA and 'Supermanitta' which is a susceptible cultivar against phytophthora blight were assayed against phytophthora blight, powdery mildew, and anthracnose. For seedling assay of phytophthora blight, three different mating type strains of $Phytophthora$ $capsici$ were used (A1, A2, Sterile). The result showed that most of the pepper of PR cultivars were resistance or moderately resistance at each mating type. 'Yeokganghongjanggun' was resistant to all three $P.$ $capsici$ strains and 'PR-Datta' and 'PR-Manitta' were resistant or moderately resistant at each type. In case of the collected cultivars, 'NuMex J.E.Parker', 'Omni Color', and 'SCM334' were resistant to all the three types and some cultivars including 'Sweet Banana' and 'Tabasco' were moderately resistant to each type fungi. 'Orange Habanero' and 'Black Cuban' were resistant to powdery mildew and 'Supermanitta' and 'PR Keumdong' were moderately resistant, while 'Santa Fe Grande', 'NuMex Pinata' and 'Puya' were very susceptible. In the case of anthracnose, 'Aji Limon' and 'Capsicum baccatum var. pendulum 3-4' were resistant and 'Pobalno', 'Omni Color', 'Negro', 'Mesilla', 'Mulato', 'Bhut Jolokia', 'Big Dipper', 'Black Cuban', 'NuMex Pinata', and 'NuMex Big Jim' were moderately resistant. The most PR cultivars except 'Taesan' were susceptible or very susceptible. These resistant individuals identified through this experiment can be used as sources of resistance to pepper pathogens in the future breeding programs.
Keywords
pepper anthracnose; phytophthora blight; powdery mildew;
Citations & Related Records
Times Cited By KSCI : 4  (Citation Analysis)
Times Cited By Web Of Science : 1  (Related Records In Web of Science)
Times Cited By SCOPUS : 1
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1 Hwang, B.K. 2002. Studies of resistance of pepper to Phytophthora blight and its control. Res. Plant Dis. 8:131-145.   DOI
2 Kim, B.S. 1986. Resistance to Phytophthora root rot in introduced peppers (Capsicum spp.). Kor. J. Hort. Sci. Technol. 20:77-80.
3 Kim, B.S. and H.S. Hwang. 2002. Introduction of resistance to Phytophthora capsici into 'Chilseongcho' a local pepper cultivar in Youngyang, using backcross method. Kor. J. Hort. Sci. Technol. 20:77-80.
4 Kim, D.H., J.H. Park, J.S. Lee, K.S. Han, Y.K. Han, and J.H. Hwang. 2009. Effect of temperature, relative humidity on germination and development of powdery mildew (Leveillula taurica) on pepper and its inoculation method. Res. Plant Dis. 15:187-192.   DOI
5 Lee, O.H., H.S. Hwang, J.Y. Kim, J.H. Han, Y.S. Yoo, and B.S. Kim. 2001. A Search for Sources of Resistance to Powdery Mildew (Leveillula taurica (Lev.) Arn) in Pepper (Capsicum spp.). Kor. J. Hort. Sci. Technol. 19:7-11.
6 Lee, S.J., Y.J. Park, H.T. Kim, and B.S. Kim. 2010. The race differentiation of Phytophthora capsici in Korea. Res. Plant Dis. 16:153-157.   DOI
7 Ortega, G., C. Palazon, and J.C. Zueco. 1991. Genetics of resistance to Phytophthora capsici the pepper line 'SCM-334'. Plant Breed. 107:50-55.   DOI
8 Song, J.Y., S.J. Yoo, and H.K. Kim. 2002. Distribution and alteration of mating type of Phytophthora capsici population from red pepper in Korea. Kor. J. Mycol. 30:152-156.   DOI
9 The Korea Society of Plant Pathology (KSPP). 2009. List of plant diseases in Korea. The Korea Society of Plant Pathology, Suwon, Korea.
10 Yoon, J.B., D.C. Yang, W.P. Lee, S.Y. Ahn, and H.G. Park. 2004. Genetic resources resistant to anthracnose in the genus Capsicum. J. Kor. Soc. Hort. Sci. 45:318-323.
11 Bosland, P.W. 1993. An effective plant field cage to increase the production of genetically pure chilli (Capsicum spp.) seed. HortScience 29:1182-1183.
12 Asia Vegetable Research and Development Centre (AVRDC). 1999. Off-season tomato, pepper and eggplant, p. 20-30. 1998 Progress Report. AVRDC, Tainan, Taiwan
13 Berke, T., L.L. Black, and C.A. Liu. 1999. Breeding for anthracnose and phytophthora resistance in hot pepper (Capsicum annuum). J. Kor. Capsicum Res. Coop. 5:1-15.
14 Blazquez, C.H. 1976. A powdery mildew of chilli caused by Oidiopsis sp. Phytopathology 66:1155-1157.   DOI
15 Bosland, P.W. 1996. Capsicums: Innovative uses of an ancient crop, p. 479-487. In: J. Janick (ed.). Progress in new crops. ASHS Press, Arlington, VA.
16 Bosland, P.W. and D.L. Lindesy. 1991. A seedling screen for Phytophthora root rot of pepper, Capsicum annuum. Plant Dis. 75:1048-1050.   DOI
17 Green, S.K. and J.S. Kim. 1994. Sources of resistance to viruses of pepper (Capsicum spp.): A catalog, p. 72. Technical Bulletin No. 20. AVRDC, Tainan, Taiwan.
18 Ham, J.H., Y.J. Kim, and B.K. Hwang. 1991. Induction of resistance to metalaxyl of Phytophthora capsici by chemical mutagenesis. Kor. J. Plant Pathol. 7:133-139.
19 Hwang, B.K. 1995. Genetical variation of Phytophthora capsici isolates, genetics and biochemistry of resistance to phytophthora blight in Capsicum annuum, p. 145-176. In: H.S. Chung (ed.). Current topics in fungal plant pathology. Hanrimwon Publishing Company, Seoul, Korea.