Research Article
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Year 2021, Volume: 27 Issue: 4, 484 - 492, 04.12.2021
https://doi.org/10.15832/ankutbd.722483

Abstract

Supporting Institution

T.C.Tarım ve Orman Bakanlığı, Tarımsal Araştırmalar ve Politikalar Genel Müdürlüğü, Adana Biyolojik Mücadele Araştırma Enstitüsü

References

  • Referans1 Akbas B, Değirmenci K, Çiftçi O, Kaya A & Yurtmen M (2011). Update on Plum pox virus distribution in Turkey. Phytopathologia Mediterranea, 50 (1): 75-83 Referans2 Anonymous (2008). Plum pox virus detection. Cornell University. College of Agriculture and Life Sciences. http://web.pppmb.cals.cornell.edu/fuchs/ppv/ppv_detection.html Referans3 Avient L, De Mendoza A H & Llacer G (1994). Transmission of plum pox potyvirus in Spain. EPPO Bulletin, 24: 669–674
  • Referans4 Brunt A A, Crabtree K, Dallwitz M J, Gibbs A J, Watson L & Zurcher E J (1996). Plant viruses online: Plum pox potyvirus. http://bio-mirror.im.ac.cn/mirrors/pvo/vide/descr630.htm
  • Referans5 Caglayan K, Serce C U, Gazel M, Kaya K, Cengiz F C, Vidal E & Cambra M (2013). Evaluation of the susceptibility of different prunus rootstocks to natural infection of plum pox virus-t. Journal of Plant Pathology, 95 (3), 579-586
  • Referans6 Candresse T, Svanella-Dumas L, Gentit P, Caglayan K & Cevik B (2007). First report of the presence of Plum pox virus rec strain in Turkey. Plant Disease, 91 (3):331
  • Referans7 Celetti M, Fraser H, Carter N & Llewellyn J (2008). Sharka (Plum Pox Virus) of stone fruit and ornamental prunus species. Ontario. Ministry of Agriculture Food and Rural Affairs. http://www.omafra.gov.on.ca/english/crops/facts/02-001.PDF
  • Referans8 Ceylan A, Gürcan K, Akbulut M & Sohi M G (2014). High sharka infection in Kayseri. Erciyes University Journal of the Institute of Science and Technology, 30: 1-6
  • Referans9 Elibuyuk I O (2003). Natural spread of Plum pox virus in Ankara, Turkey. Journal of Phytopathology 151: 617–619
  • Referans10 Gildow F, Damsteegt V, Stone A, Schneider W & Luster D (2004). Plum Pox in North America: Identification of aphid vectors and a potential role for fruit in virus spread. Phytopathology, 94 (8): 868-74
  • Referans11 Isaac M, Preda S & Marcu M (1998). Aphid species--vectors of plum pox virus. Acta Virolologica, 42 (4): 233-4
  • Referans12 Koc G & Baloglu S (2006). First report of sharka in the Cukurova Region of Turkey. Journal of Plant Pathology, 88 (3): 68
  • Referans13 Kunze L & Krczal H (1971). Transmission of sharka virus by aphids. In: Proceedings of the 8th European Symposium on Fruit Tree Virus Diseases, 255-260. INRA, Paris, France
  • Referans14 Labonne G, Yvon M, Quiot J B, Avinent L & Llacer G (1995). Aphids as potential vectors of Plum Pox Virus: Comparison of methods of testing and epidemiological consequences. XVI International symposium on fruit tree virus diseases, Acta Horticulturae, 386:207-218 http://www.actahort.org/books/386/386_27.htm
  • Referans15 Labonne G & Dallot S (2006). Epidemiology of sharka disease in France. EPPO Bulletin, 36 (2), 267-270
  • Referans16 Levy L, Damsteegt V, Scorza R & Kölber M (2000). Plum Pox Potyvirus disease of stone fruits. APS net features. Online. doi: 10.1094/APSnetFeature -2000-0300
  • Referans17 Milusheva S, & Rankova Z (2002). Plum Pox Potyvirus detection in weed species under field conditions. VII International symposium on plum and prune genetics, breeding and pomology. Acta Horticulturae, 577
  • Referans18 OEPP/EPPO (2004). Eppo standarts, Diagnostic protocols for regulated pests: Plum pox virus. PM 7/32 (1). Bulletin OEPP/EPPO Bulletin 34: 247–256
  • Referans19 Pirone T P & Harris K F (1977). Nonpersistent transmission of plant viruses by aphids. Annual Review of Phytopathology, 15: 55-73
  • Referans20 Pribek D (2001). Study on transmission and isolates of Plum Pox Virus, and possibilties of establishing integrated protection. Theses of doctors (PhD) dissertation, University of Veszprém, Georgikon faculty of agricultural sciences, Keszthely Referans21 Stafford C A, Walker G P & Ullman D E (2012). Vector feeding and virus transmission. Communicative and integrative biology, 5(1): 43–49
  • Referans22 Stoetzel M B & Miller G L (1998). Aphids (Homoptera: Aphididae) colonizing peach in the United States or with potential for introduction. Florida Entomologist, 81 (3): 325-345
  • Referans23 Sahtiyancı S (1969). Virus de la sharka chez le prunier. Bulletin Phytosanitaire FAO 17: 69
  • Referans24 Ulubas Serce C, Candresse T, Svanella-Dumas L, Krizbai L & Gazel M (2009). Further characterization of a new recombinant group of Plum pox virus isolates, PPV-T, found in orchards in the Ankara province of Turkey. Virus Research 142: 121–126
  • Referans25 Viršček M M, Mavrič I, Zemljič M U & Škerlavaj V (2004). Detection of plum pox potyvirus in weeds. Proceedings of the 19th international symposium on virus and virus-like diseases of temperate fruit crops, 251-254

Potential Aphid (Hemiptera: Aphididae) Vectors of Plum-pox Virus (Virus:Potyviridae) and Status of Sharka Disease in Stone Fruit Orchards in the East Mediterranean Region of Turkey

Year 2021, Volume: 27 Issue: 4, 484 - 492, 04.12.2021
https://doi.org/10.15832/ankutbd.722483

Abstract

This study was conducted in stone fruit orchards in five provinces of the East Mediterranean Region of Turkey between the years of 2009-2011. The aim of the study was to determine the potential aphid vectors of the quarantine pathogen PPV (plum pox virus, family Potyviridae) that causes serious yield losses. During the surveys, 542 orchard/nurseries were sampled and 6 aphid species (Hemiptera: Aphididae) [Brachycaudus persicae (Passerini,1860), B. helichrysi (Kaltenbach, 1843), B. cardui (Linnaeus, 1758), Hyalopterus pruni (Geoffroy, 1762), Myzus persicae (Sulzer, 1776) and M.cerasi (Fabricius, 1775)] from stone fruit trees and 4 aphid species [Aphis craccivora (Koch, 1854), A. fabae Scopoli 1763, A. gossypii Glover 1877, A. nasturtii Kaltenbach 1843)] from weeds that were known as the efficient vectors of PPV were detected in the stone fruit orchards. Stone fruit samples (flower, leaf, fruit), weed samples and aphid samples were tested by DAS-ELISA to determine the presence of PPV. PPV infected samples that resulted uncertain from DAS-ELISA were processed to conventional RT-PCR (Reverse Transcription Polymerase Chain Reaction) to finalize the decision of PPV presence. A total of 8 orchards were resulted as PPV-infected with both analyzing methods in the region. Three of these orchards were infected with aphids as well. B.cardui collected from the PPV-infected orchard in Hatay-Samandağ were also run to analyse for the presence of PPV and resulted virus positive.

References

  • Referans1 Akbas B, Değirmenci K, Çiftçi O, Kaya A & Yurtmen M (2011). Update on Plum pox virus distribution in Turkey. Phytopathologia Mediterranea, 50 (1): 75-83 Referans2 Anonymous (2008). Plum pox virus detection. Cornell University. College of Agriculture and Life Sciences. http://web.pppmb.cals.cornell.edu/fuchs/ppv/ppv_detection.html Referans3 Avient L, De Mendoza A H & Llacer G (1994). Transmission of plum pox potyvirus in Spain. EPPO Bulletin, 24: 669–674
  • Referans4 Brunt A A, Crabtree K, Dallwitz M J, Gibbs A J, Watson L & Zurcher E J (1996). Plant viruses online: Plum pox potyvirus. http://bio-mirror.im.ac.cn/mirrors/pvo/vide/descr630.htm
  • Referans5 Caglayan K, Serce C U, Gazel M, Kaya K, Cengiz F C, Vidal E & Cambra M (2013). Evaluation of the susceptibility of different prunus rootstocks to natural infection of plum pox virus-t. Journal of Plant Pathology, 95 (3), 579-586
  • Referans6 Candresse T, Svanella-Dumas L, Gentit P, Caglayan K & Cevik B (2007). First report of the presence of Plum pox virus rec strain in Turkey. Plant Disease, 91 (3):331
  • Referans7 Celetti M, Fraser H, Carter N & Llewellyn J (2008). Sharka (Plum Pox Virus) of stone fruit and ornamental prunus species. Ontario. Ministry of Agriculture Food and Rural Affairs. http://www.omafra.gov.on.ca/english/crops/facts/02-001.PDF
  • Referans8 Ceylan A, Gürcan K, Akbulut M & Sohi M G (2014). High sharka infection in Kayseri. Erciyes University Journal of the Institute of Science and Technology, 30: 1-6
  • Referans9 Elibuyuk I O (2003). Natural spread of Plum pox virus in Ankara, Turkey. Journal of Phytopathology 151: 617–619
  • Referans10 Gildow F, Damsteegt V, Stone A, Schneider W & Luster D (2004). Plum Pox in North America: Identification of aphid vectors and a potential role for fruit in virus spread. Phytopathology, 94 (8): 868-74
  • Referans11 Isaac M, Preda S & Marcu M (1998). Aphid species--vectors of plum pox virus. Acta Virolologica, 42 (4): 233-4
  • Referans12 Koc G & Baloglu S (2006). First report of sharka in the Cukurova Region of Turkey. Journal of Plant Pathology, 88 (3): 68
  • Referans13 Kunze L & Krczal H (1971). Transmission of sharka virus by aphids. In: Proceedings of the 8th European Symposium on Fruit Tree Virus Diseases, 255-260. INRA, Paris, France
  • Referans14 Labonne G, Yvon M, Quiot J B, Avinent L & Llacer G (1995). Aphids as potential vectors of Plum Pox Virus: Comparison of methods of testing and epidemiological consequences. XVI International symposium on fruit tree virus diseases, Acta Horticulturae, 386:207-218 http://www.actahort.org/books/386/386_27.htm
  • Referans15 Labonne G & Dallot S (2006). Epidemiology of sharka disease in France. EPPO Bulletin, 36 (2), 267-270
  • Referans16 Levy L, Damsteegt V, Scorza R & Kölber M (2000). Plum Pox Potyvirus disease of stone fruits. APS net features. Online. doi: 10.1094/APSnetFeature -2000-0300
  • Referans17 Milusheva S, & Rankova Z (2002). Plum Pox Potyvirus detection in weed species under field conditions. VII International symposium on plum and prune genetics, breeding and pomology. Acta Horticulturae, 577
  • Referans18 OEPP/EPPO (2004). Eppo standarts, Diagnostic protocols for regulated pests: Plum pox virus. PM 7/32 (1). Bulletin OEPP/EPPO Bulletin 34: 247–256
  • Referans19 Pirone T P & Harris K F (1977). Nonpersistent transmission of plant viruses by aphids. Annual Review of Phytopathology, 15: 55-73
  • Referans20 Pribek D (2001). Study on transmission and isolates of Plum Pox Virus, and possibilties of establishing integrated protection. Theses of doctors (PhD) dissertation, University of Veszprém, Georgikon faculty of agricultural sciences, Keszthely Referans21 Stafford C A, Walker G P & Ullman D E (2012). Vector feeding and virus transmission. Communicative and integrative biology, 5(1): 43–49
  • Referans22 Stoetzel M B & Miller G L (1998). Aphids (Homoptera: Aphididae) colonizing peach in the United States or with potential for introduction. Florida Entomologist, 81 (3): 325-345
  • Referans23 Sahtiyancı S (1969). Virus de la sharka chez le prunier. Bulletin Phytosanitaire FAO 17: 69
  • Referans24 Ulubas Serce C, Candresse T, Svanella-Dumas L, Krizbai L & Gazel M (2009). Further characterization of a new recombinant group of Plum pox virus isolates, PPV-T, found in orchards in the Ankara province of Turkey. Virus Research 142: 121–126
  • Referans25 Viršček M M, Mavrič I, Zemljič M U & Škerlavaj V (2004). Detection of plum pox potyvirus in weeds. Proceedings of the 19th international symposium on virus and virus-like diseases of temperate fruit crops, 251-254
There are 22 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Makaleler
Authors

Adalet Hazır 0000-0003-0749-2215

Melike Yurtmen 0000-0002-8104-953X

Hakan Fidan 0000-0002-0384-9486

Publication Date December 4, 2021
Submission Date April 17, 2020
Acceptance Date June 24, 2020
Published in Issue Year 2021 Volume: 27 Issue: 4

Cite

APA Hazır, A., Yurtmen, M., & Fidan, H. (2021). Potential Aphid (Hemiptera: Aphididae) Vectors of Plum-pox Virus (Virus:Potyviridae) and Status of Sharka Disease in Stone Fruit Orchards in the East Mediterranean Region of Turkey. Journal of Agricultural Sciences, 27(4), 484-492. https://doi.org/10.15832/ankutbd.722483

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