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Given the lack of a resistant genetic pool in host plants, the introduction of exotic invasive pathogens can result in epidemics that affect a specific ecosystem and economy. Plant quarantine, which is designed to protect endemic plant resources, is a highly invaluable safeguard that should keep biosecurity with increasing international trade and global transportation. A total of 34 species of plant pathogens including Phytophthora infestans were documented as introduced from other countries into Korea from 1900 to 2010. The genus Phytophthora, classified in oomycetes, includes more than 120 species that are mostly recognized worldwide as highly invasive plant pathogens. After 2000, over 50 new species of Phytophthora were identified internationally as plant pathogens occurring in crops and forest trees. In Korea, Phytophthora is also one of the most serious plant pathogens. To date, 22 species (about onefifth of known species) of the genus have been identified and reported as plant pathogens in the country. The likelihood of new exotic Phytophthora species being in troducedinto Korea continues to increase, thus necessitating intensive plant quarantine inspections. As new potential threats to plant health in Korea, six Phytophthora species, namely, P. alni, P. inundata, P. kernoviae, P. pinifolia, P. quercina, and P. ramorum, are discussed in this review with focus on history, disease, biology, management, and plant quarantine issues.

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기사명 저자명 페이지 원문 목차
Control of Meloidogyne incognita Using Mixtures of Organic Acids 서윤희, 김영호 pp.450-455
Isolation and Characterization of the Colletotrichum acutatum ABC Transporter CaABC1 Suyoung Kim, Sook-Young Park, Hyejeong Kim, Dongyoung Kim, Seon-Woo Lee, Heung Tae Kim, Jong-Hwan Lee, Woobong Choi pp.375-383
Characterization of the Maize Stalk Rot Pathogens Fusarium subglutinans and F. temperatum and the Effect of Fungicides on Their Mycelial Growth and Colony Formation Jong-Hwan Shin, Joon-Hee Han, Ju Kyong Lee, Kyoung Su Kim pp.397-406
Transcriptome Analysis of Early Responsive Genes in Rice during Magnaporthe oryzae Infection Yiming Wang, Soon Jae Kwon, Jingni Wu, Jaeyoung Choi, Yong-Hwan Lee, Ganesh Kumar Agrawal, Shigeru Tamogami, Randeep Rakwal, Sang-Ryeol Park, Beom-Gi Kim, Ki-Hong Jung, Kyu Young Kang, Sang Gon Kim, Sun Tae Kim pp.343-354
Comparative Analysis of Defense Responses in Chocolate Spot-Resistant and -Susceptible Faba Bean(Vicia faba) Cultivars Following Infection by the Necrotrophic Fungus Botrytis fabae Mahmoud H. El-Komy pp.355-366
The Current Incidence of Viral Disease in Korean Sweet Potatoes and Development of Multiplex RT-PCR Assays for Simultaneous Detection of Eight Sweet Potato Viruses Hae-Ryun Kwak, Mi-Kyeong Kim, Jun-Chul Shin, Ye-Ji Lee, Jang-Kyun Seo, Hyeong-Un Lee, Mi-Nam Jung, Sun-Hyung Kim, Hong-Soo Choi pp.416-424
Transcriptome Analysis of the Barley-Rhynchosporium secalis Interaction Antonious Al-Daoude, Amina Shoaib, Eyad Al-Shehadah, Mohammad Jawhar, Mohammad Imad Eddin Arabi pp.425-431
Phytophthora Species, New Threats to the Plant Health in Korea 현익화, 최우봉 pp.331-342
Development of a Selective Medium for the Fungal Pathogen Cylindrocarpon destructans Using Radicicol 강윤희, 이승호, 이정관 pp.432-436
Evidence for Genetic Similarity of Vegetative Compatibility Groupings in Sclerotinia homoeocarpa Seog Won Chang, Young-Ki Jo, Taehyun Chang, Geunhwa Jung pp.384-396
Analysis of in planta Expressed Orphan Genes in the Rice Blast Fungus Magnaporthe oryzae Md. Abu Sadat, Junhyun Jeon, Albely Afifa Mir, Seongbeom Kim, Jaeyoung Choi, Yong-Hwan Lee pp.367-374
Simple Method to Produce in vitro Pyrenophora tritici-repentis Teleomorph Hamida Benslimane pp.437-439
Development of a PCR Diagnostic System for Iris yellow spot tospovirus in Quarantine 신용길, 노재영 pp.440-444
Detection of Multiple Potato Viruses in the Field Suggests Synergistic Interactions among Potato Viruses in Pakistan Amir Hameed, Zafar Iqbal, Shaheen Asad, Shahid Mansoor pp.407-415

참고문헌 (71건) : 자료제공( 네이버학술정보 )

참고문헌 목록에 대한 테이블로 번호, 참고문헌, 국회도서관 소장유무로 구성되어 있습니다.
번호 참고문헌 국회도서관 소장유무
1 Agrios, G. N. 2011. Plant pathology, 6th ed. Academic Press, San Diego, 922pp. 미소장
2 Ahumada, R., Rotella, A., Slippers, B. and Wingfield, B. D. 2013. Pathogenicity and sporulation of Phytophthora pinifolia on Pinus radiata in Chile. Australas. Plant Pathol. 42:413-420. 미소장
3 Chestnut Blight: The Classical Problem of an Introduced Pathogen 네이버 미소장
4 Bakonyi, J., Nagy, Z. Á. and Érsek, T. 2007. A novel hybrid with nuclear background of Phytophthora alni subsp. alni exhibits a mitochondrial DNA profile characteristic of P. alni subsp. uniformis. Acta Phytopathol. Entomol. Hung. 42:1-7. 미소장
5 First report of Phytophthora quercina from oak forests in Austria 네이버 미소장
6 Molecular Detection of Phytophthora ramorum by Real-Time Polymerase Chain Reaction Using TaqMan, SYBR Green, and Molecular Beacons. 네이버 미소장
7 Blair, J. E., Coffey, M. D., Park, S. Y., Geiser, D. M. and Kang, S. 2008. A multi-locus phylogeny for Phytophthora utilizing markers derived from complete genome sequences. Fungal Genet. Biol. 45:266-277. 미소장
8 Brasier, C. M., Beales, P. A., Kirk, S. A., Denman, S. and Rose, J. 2005. Phytophthora kernoviae sp. nov., an invasive pathogen causing bleeding stem lesions on forest trees and foliar necrosis of ornamentals in Britain. Mycol. Res. 109:853-859. 미소장
9 Comparative aggressiveness of standard and variant hybrid alder phytophthoras, Phytophthora cambivora and other Phytophthora species on bark of Alnus, Quercus and other woody hosts 네이버 미소장
10 Production of gametangia by Phytophthora ramorum in vitro 네이버 미소장
11 Brasier, C. M., Kirk, S. A., Delcan, J., Cooke, D. E., Jung, T. and Man in’t Veld, W. A. 2004. Phytophthora alni sp. nov. and its variants: designation of emerging heteroploid hybrid pathogens spreading on Alnus trees. Mycol. Res. 108:1172-1184. 미소장
12 An unusual Phytophthora associated with wide-spread alder mortality in Britain 네이버 미소장
13 Brasier, C. M., Sánchez-Hernández, E. and Kirk, S. A. 2003. Phytophthora inundata sp. nov., a part heterothallic pathogen of trees and shrubs in wet or flooded soils. Mycol. Res. 107:477-484. 미소장
14 Phytophthora lateralis discovered in an old growth Chamaecyparis forest in Taiwan 네이버 미소장
15 Plant pathology: Sudden larch death. 네이버 미소장
16 Cooke, D. E. L., Drenth, A., Duncan, I. M., Wagels, G. and Brasier, C. M. 2000. A molecular phylogeny of Phytophthora and related Oomycetes. Fungal Genet. Biol. 30:17–32. 미소장
17 Molecular evidence supports Phytophthora quercina as a distinct species 네이버 미소장
18 Genetic diversity of European populations of the oak fine-root pathogen Phytophthora quercina 네이버 미소장
19 Cunnington, J. H., Jones, R. H., de Alwis, S. and Minchinton, E. J. 2006. Two new Phytophthora records for Australia. Australas. Plant Pathol. 35:383-384. 미소장
20 Transmission of Phytophthora ramorum in Mixed-Evergreen Forest in California. 네이버 미소장
21 Oospore viability and variation in zoospore and hyphal tip derivatives of the hybrid alder Phytophthoras 네이버 미소장
22 Phytophthora pinifolia sp. nov. associated with a serious needle disease of Pinus radiata in Chile 네이버 미소장
23 PM 7/112 (1) Phytophthora kernoviae 네이버 미소장
24 Gene × environment tests discriminate the new EU2 evolutionary lineage of Phytophthora ramorum and indicate that it is adaptively different 네이버 미소장
25 Gallegly, M. E. and Hong, C. 2008. Phytophthora: Identifying species by morphology and DNA fingerprints. The American Phytopathological Society. APS Press, 518pp 미소장
26 Phosphonate controls sudden oak death pathogen for up to 2 years 네이버 미소장
27 Sudden oak death syndrome fells 3 oak species 네이버 미소장
28 Implications of Sexual Reproduction for Phytophthora infestans in the United States: Generation of an Aggressive Lineage. 네이버 미소장
29 The impact of Phytophthora disease on riparian populations of common alder (Alnus glutinosa) in southern Britain 네이버 미소장
30 Gibbs, J. N., van Dyck, C. and Webber, J. F. 2003. Phytopthora disease of alder. For. Comm. Bull. 126:1-82. 미소장
31 Emergence of the sudden oak death pathogen Phytophthora ramorum 네이버 미소장
32 Standardizing the nomenclature for clonal lineages of the sudden oak death pathogen, Phytophthora ramorum. 네이버 미소장
33 Grunwald, N. J., Goss, E. M. and Press, C. M. 2008. Phytophthora ramorum: a pathogen with a remarkably wide hostrange causing sudden oak death on oaks and ramorum blight on woody ornamentals. Mol. Plant Pathol. 9:729-740. 미소장
34 Hansen, E. M., Reeser, P. W., Sutton, W., Winton, L. M. and Osterbauer, N. 2003. First report of A1 compatibility type of Phytophthora ramorum in North America. Plant Dis. 87:1267. 미소장
35 Hardham, A. R. 2005. Phytophthora cinnamomi. Mol. Plant Pathol. 6:589-604. 미소장
36 Phytophthora ramorum, the cause of sudden oak death or ramorum leaf blight and dieback 네이버 미소장
37 Ho, H. H., Hong, C. X. and Erwin, D. C. 2006. Phytophthora inundata isolated from diseased alfalfa roots in Southern California. Mycotaxon 97:349-358. 미소장
38 Ioos, R., Andrieux, A., Marçais, B. and Frey, P. 2006. Genetic characterization of the natural hybrid species Phytophthora alni as inferred from nuclear and mitochondrial DNA analyses. Fungal Genet. Biol. 43:511-529. 미소장
39 Microsatellite markers identify three lineages of Phytophthora ramorum in US nurseries, yet single lineages in US forest and European nursery populations 네이버 미소장
40 First records of soilborne Phytophthora species in Swedish oak forests 네이버 미소장
41 Jung, T., Cooke, D. E. L., Blaschke, H., Duncan, J. M. and Osswald, W. 1999. Phytophthora quercina sp. nov., causing root rot of European oaks. Mycol. Res. 103:785-798. 미소장
42 Multiple new Phytophthora species from ITS Clade 6 associated with natural ecosystems in Australia: evolutionary and ecological implications. 네이버 미소장
43 Korea Forestry Promotion Institute (KFPI). 2013. Assessment of the Korea’s forest resources (2006-2012). KFPI, Anyang, Korea, 267pp. (in Korean) 미소장
44 The genus Phytophthora anno 2012. 네이버 미소장
45 McPherson, B. A., Erbilgin, N., Bonello, P. and Wood, D. L. 2013. Fungal species assemblages associated with Phytophthora ramorum-infected coast live oaks following bark and ambrosia beetle colonization in northern California. Forest Ecol. Manag. 291:30–42. 미소장
46 Mostowfidadeh-Ghalamfarsa, R., Cooke, D. E. and Banihashemi, Z. 2006. Multiple gene genealogies approach for phylogenetic relationship of Phytophthora inundata and other Phytophthoras. In: Proceedings of 17th Iranian Plant Protection Congress, September 2006, Karaj, Iran, 434 (abstract). 미소장
47 National Plant Quarantine Service (NPQS) 2010. Compendium of exotic plant pests and weeds. NPQS, Anyang, Korea, 292pp. (in Korean) 미소장
48 Will all the trees fall? Variable resistance to an introduced forest disease in a highly susceptible host 네이버 미소장
49 Parkunan, V., Johnson, C. S., Bowman, B. C. and Hong, C. X. 2010. First report of Phytophthora inundata associated with a latent infection of tobacco (Nicotiana tabacum) in Virginia. Plant Pathol. 59:1164. 미소장
50 Perez-Sierra, A., Alverez, L. A., Vercauteren, A., Heungens, K. and Abad-Campos, P. 2011. Genetic diversity, sensitivity to phenylamide fungicides and aggressiveness of Phytophthora ramorum on Camellia, Rhododendron, and Viburnum plants in Spain. Plant Pathol. 60:1069–1076. 미소장
51 Poucke, K. V., Franceschini, S., Webber, J. F., Vercauteren, A., Tunner, J. A., Mccracken, A. R., Heungens, K. and Brasier, C. M. 2012. Discovery of a fourth evolutionary lineage of Phytophthora ramorum: EU2. Fungal Biol. 116:1178-1191. 미소장
52 Redlin, S. C., Werres, S. and Schroder, T. 2014. Chapter 19 Invasive pathogens in plant biosecurity. Case study: Phytophthora ramorum: cause of sudden oak death, ramorum leaf blight and ramorum dieback, In: Gordh, G. and McKirdy, S. (eds.)The Handbook of Plant Biosecurity, Springer, pp. 593-611. 미소장
53 Phytophthora ramorum as the Cause of Extensive Mortality of Quercus spp. and Lithocarpus densiflorus in California. 네이버 미소장
54 Phytophthora ramorum: integrative research and management of an emerging pathogen in California and Oregon forests. 네이버 미소장
55 Characterisation of Phytophthora inundata according to host range, morphological variation and multigene molecular phylogeny 네이버 미소장
56 Establishment of Rapid Micropropagation System of Ligustrum lucidum by Tissue Culture 네이버 미소장
57 Pathogenicity of four Phytophthora Species on Wild Cherry and Italian Alder Seedlings 네이버 미소장
58 Schena, L., Hughes, K. J. D. and Cooke, D. E. 2006. Detection and quantification of Phytophthora ramorum, P. kernoviae, P. citricola and P. quercina in symptomatic leaves by multiplex real-time PCR. Mol. Plant Pathol. 7:365-379. 미소장
59 Schumann, G. L. 1991. Plant diseases: their biology and social impact. American Phytopathological Society, St. Paul, 397pp. 미소장
60 Siwecki, R. and Liese, W. 1991. Oak decline in Europe, In: Siwecki, R. and Liese, W. (eds.) Proceedings International Symposium, Polish Academy of Science, 7pp. 미소장
61 Plant Pathology (4th edn) 네이버 미소장
62 Svihra, P. 2001. Diagnosis of SOD: case study of a scientific process. Calif. Agric. 55:12-16. 미소장
63 The Korean Society of Plant Pathology (KSPP). 2009. List of plant diseases in Korea. 5th ed. KSPP, Suwon, Korea, 853pp. (in Korean) 미소장
64 Tomlinson, J. A., Dickinson, M., Hobden, E., Robinson, S., Giltrap, P. M. and Boonham, N. 2010. A five-minute DNA extraction method for expedited detection of Phytophthora ramorum following prescreening using Phytophthora spp. lateral flow devices. J. Microbiol. Methods 81:116–120. 미소장
65 Recovery of Phytophthora ramorum Following Exposure to Temperature Extremes. 네이버 미소장
66 Genotypic and phenotypic characterization of the European A2 isolates of Phytophthora ramorum 네이버 미소장
67 Vial, A., Latorre, B. A. and Ortúzar, J. 2006. Characterization of Phytophthora citrophthora and P. inundata associated to foot and root rot of citrus trees in Chile. Ciencia e Investigación Agraria 33:173-184. 미소장
68 Werres, S. and De Merlier, D. 2003. First detection of Phytophthora ramorum mating type A2 in Europe. Plant Dis. 87:1266. 미소장
69 Werres, S., Marwitz, R., Man In’T Veld, W. A., De Cock, A. W. A. M., Bonants, P. J. M., De Weerdt, M., Themann, K., Ilieva, E. and Baayen, R. P. 2001. Phytophthora ramorum sp. nov., a new pathogen on Rhododendron and Viburnum. Mycol. Res. 105:1155-1165. 미소장
70 Werres, S. and Zielke, B. 2003. First studies on the pairing of Phytophthora ramorum. J. Plant Dis. Prot. 110:129-130. 미소장
71 Widmer, T. L. and Dodge, S. C. 2013. Can fungal epiphytes reduce disease symptoms caused by Phytophthora ramorum? Biol. Control 65:135–141. 미소장

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