BibTex RIS Kaynak Göster

Response of heat-stable tomato genotypes to Mi-1 virulent root-knot nematode populations

Yıl 2014, , 229 - 238, 01.06.2014
https://doi.org/10.16970/ted.54290

Öz

Tomato is one of the most important vegetables cultivated worldwide. Many pests and pathogens cause significant yield decline in growing fields. Root-knot nematodes are known to be devastating pathogens on tomato. Resistant varieties carrying Mi-1 gene have been effectively used to control of root-knot nematodes. However, the efficiency of Mi-1 has been especially restricted by virulent root-knot nematode populations in cultivated tomatoes. Therefore, new resistant genetic varieties are required in growing fields. Heat-stable wild tomato species are known to be resistance to Meloidogyne populations at high soil temperature. To our knowledge, there are limited studies on response of heat-stable materials to different virulent root knot nematode populations under 28 oC. In the present study, reactions of heat stable materials to different virulent isolates of M. incognita and M. javanica were investigated at 24 oC soil temperature. Results showed that these materials did not confer resistance against M. incognita and M. javanica virulent isolates. Therefore, searching of new genetic sources resistant to virulent root-knot nematodes is required for breeding program

Kaynakça

  • Ammati, M. 1985. Resistance to Meloidogyne in Lycopersicon, Its Stability at High Soil Temperature and Use of Tissue Culture Techniques to Transfer the Resistance to Tomato. PhD Diss., Univ. of California, Riverside. (Diss. Abstr. 85.)
  • Castagnone-Sereno, P., 1994. “Genetics of Meloidogyne virulence against resistance genes from Solanaceous crop 107-123”. In: Advances in Molecular Plant Nematology. (Ed: F. Lamberti, C. De Giorgi & D. McK. Bird). Plenum Press, New York, 324 pp.
  • Cortada, L., P. Manzano, F. J. Sorribas, C. Ornat, & S. Verdejo-Lucas, 2010. The resistance response of Solanum huaylasense accession LA1358 to Meloidogyne spp. Nematropica, 40: 31-40.
  • Cortada, L., F.J. Sorribas, C. Ornat, M.F. Andrés & S. Verdejo-Lucas, 2012. Response of tomato rootstocks carrying the Mi-resistance gene to populations of Meloidogyne arenaria, M. incognita and M. javanica. European Journal of Plant Pathology, 124: 337-343.
  • Devran, Z. & M.A. Söğüt, 2009. Distribution and identification of root-knot nematodes from Turkey. Journal of Nematology, 41: 128-133.
  • Devran, Z. & M.A. Söğüt, 2010. Occurrence of virulent root-knot nematode populations on tomatoes bearing the Mi gene in protected vegetable-growing areas of Turkey. Phytoparasitica, 38: 245-251.
  • Devran, Z., M.A. Söğüt & N. Mutlu, 2010. Response of tomato rootstocks with the Mi resistance gene to Meloidogyne incognita race 2 at different soil temperatures. Phytopathologia Mediterranea, 49: 11-17.
  • Devran, Z., B. Başköylü, A. Taner & F. Doğan, 2013. Comparison of PCR-based molecular markers for identification of Mi gene. Acta Agriculturae Scandinavica, Section B - Soil & Plant Science, 45: 395-402.
  • Doganlar, S., A., Frary & S.D. Tanksley, 1997. Production of interspecific hybrids between Lycopersicon esculentum and two accessions of Lycopersicon peruvianum carrying new root-knot nematode resistance genes. Euphytica, 95: 203–207.
  • Dropkin, V. H., 1969. The necrotic reaction of tomatoes and other hosts resistant to Meloidogyne: reversal by temperature. Phytopathology, 59: 1632–1637.
  • El Mehrach, K., S. Gharsallah Chouchane, L. Mejia, V.M. Williamson, F. Vidavsky, A. Hatimi, M.S. Salus, C.T. Martin & D.P. Maxwell, 2005. PCR based methods for tagging the Mi-1 locus for resistance to root-knot nematode in begomovirusresistant tomato germplasm. Acta Horticulturae, 695: 263–270.
  • Huang, X., M. McGiffen & I. Kaloshian, 2004. Reproduction of Mi-Virulent Meloidogyne incognita isolates on Lycopersicon spp. Journal of Nematology, 36: 69–75.
  • Kaloshian, I., V.M. Williamson, G. Miyao, D. Lawn & B.B. Westerdahl, 1996. Resistance-breaking’ nematodes identified in California tomatoes. California Agriculture, 50:18–9.
  • Lefrancois, C., Y. Chupeau & J.B. Bourgin 1993. Sexual and somatic hybridization in the genus Lycopersicon. Theoretical Applied Genetics, 86: 533–546.
  • Ornat, C., S. Verdejo-Lucas & F.J. Sorribas 2001. A population of Meloidogyne javanica in Spain virulent to the Mi resistance gene in tomato. Plant Disease, 85: 271–276.
  • Randig, O., M. Bongiovanni, R.M.D.G. Carneiro & P. Castagnone-Sereno 2002 Genetic diversity of root-knot nematodes from Brazil and development of SCAR marker specific for the coffee damaging species. Genome, 45: 862–870.
  • Rick, C.M., 1986. “Reproductive Isolation in the Lycopersicon peruvianum Complex, 477-495”. In: Solanaceae: Biology and Systematics (Ed: W.G., D’Arcy) Colombia University Press, New York.
  • Roberts, P.A. & I.J. Thomason I.J. 1989. A review of variability in four Meloidogyne spp. measured by reproduction on several hosts including Lycopersicon. Agricultural Zoology Reviews, 3: 225–252.
  • Roberts, P.A., A. Dalmasso, G.B. Cap & P. Castagnone-Sereno, 1990. Resistance in Lycopensicon peruvianum to isolates of Mi gene compatible Meloidogyne populations. Journal of Nematology, 22: 585–589.
  • Sasser, J.N., C.C. Carter & K.M. Hartman, 1984. Standardization of Host Susceptibility Studies and Reporting of Resistance to Root-knot Nematodes. A Cooperative Publications of The Department of Plant Pathology, North Carolina State University and The United States Agency For International Development, Raleigh, Nort Carolina, U.S.A.
  • Seah, S., V.M. Williamson, B.E. Garcia, L. Mejía, M.S. Salus, C.T. Martin & D.P. Maxwell, 2007. Evaluation of a co- dominant SCAR marker for detection of the Mi-1 locus for resistance to root-knot nematode in tomato germplasm. Tomato Genetic Cooperative Report, 57: 37–40.
  • Taylor, I.B., 1986. “Biosystematics of the Tomato, 1-34”. In: The Tomato Crop. A Scientific Basis for Improvement (Ed: J.G., Atherton & J. Rudich). Chapman and Hall, New York, 661 pp.
  • Tzortzakakis, E. A. & S.R. Gowen, 1996. Occurrence of a resistance breaking pathotype of Meloidogyne javanica on tomatoes in Crete, Greece. Fundamamental and Applied Nematology, 19: 283–288.
  • Tzortzakakis, E.A., M.A.M. Adam, V.C. Blok, C. Paraskevopoulos, & K. Bourtzis, 2005. Occurrence of resistance- breaking populations of root-knot nematodes on tomato in Greece. European Journal of Plant Pathology, 113: 101–105.
  • Veremis, J.C. & P.A. Roberts, 1996. Differentiation of Meloidogyne incognita and M. arenaria novel resistance phenotypes in Lycopersicon peruvianum and derived bridge lines. Theoretical Applied Genetics, 93: 960–967.
  • Veremis, J.C., A. van Heusden, & P.A. Roberts, 1999. Mapping a novel heat-stable resistance to Meloidogyne in Lycopersicon peruvianum. Theoretical Applied Genetics, 98: 274–280.
  • Williamson, V.M., J.Y. Ho, F.F. Wu, N. Miller & Kaloshian I. 1994. A PCR-bases marker tightly linked to the nematode resistance gene, Mi, in tomato. Theoretical Applied Genetics, 87: 757-763.
  • Yaghoobi, J., I. Kaloshian, Y. Wen & V.M. Williamson, 1995. Mapping a new nematode resistance locus in Lycopersicon peruvianum. Theoretical Applied Genetics, 91: 457–464.
  • Zijlstra, C., D.T.H.M. Donkers-Venne & M. Fargette, 2000. Identification of Meloidogyne incognita, M. javanica and M. arenaria using sequence characterized amplified region (SCAR) based PCR assays. Nematology, 2: 847–853.

Mi-1 virülent kök-ur nematod populasyonlarına yüksek sıcaklıkta dayanıklı domates genotiplerinin tepkisi

Yıl 2014, , 229 - 238, 01.06.2014
https://doi.org/10.16970/ted.54290

Öz

Domates dünya çapında kültürü yapılan en önemli sebzelerden birisidir. Domates yetiştirilen alanlarda birçok zararlı patojen ve hastalık önemli ürün kayıplarına sebep olmaktadır. Kök-ur nematodları domatesin en önemli zararlısı olarak bilinmektedir. Mi-1 geni taşıyan dayanıklı çeşitler kök-ur nematodlarını kontrol etmede etkin şekilde kullanılmaktadır. Bununla birlikte Mi-1 geninin etkisi kültürü yapılan domateslerde, virülent kök-ur nematodları tarafından sınırlanmaktadır. Bu sebeple bu nematodlara dayanıklı yeni genetik çeşitlerin kullanılması gerekmektedir. Yüksek sıcaklığa dayanıklı yabani domates türlerinin yüksek sıcaklıkta Meloidogyne populasyonlarına dayanıklı olduğu bilinmektedir. Bu türlerin 28 oC’nin altındaki toprak sıcaklığında farklı virülent kök-ur nematod popülasyonlarına karşı tepkileri konusunda sınırlı sayıda çalışma bulunmaktadır. Bu çalışmada M. incognita ve M. javanica’nın farklı virülent izolatlarına yüksek sıcaklığa dayanıklı materyallerin tepkileri 24 oC toprak sıcaklığında testlenmiştir. Sonuçlar bu materyallerin M. incognita ve M. javanica virulent izolatlarına karşı dayanıklılık sağlamadığını göstermiştir. Bu sebeple ıslah programları için virülent kök-ur nematodlarına dayanıklı yeni genetik kaynakların araştırılması gerekmektedir

Kaynakça

  • Ammati, M. 1985. Resistance to Meloidogyne in Lycopersicon, Its Stability at High Soil Temperature and Use of Tissue Culture Techniques to Transfer the Resistance to Tomato. PhD Diss., Univ. of California, Riverside. (Diss. Abstr. 85.)
  • Castagnone-Sereno, P., 1994. “Genetics of Meloidogyne virulence against resistance genes from Solanaceous crop 107-123”. In: Advances in Molecular Plant Nematology. (Ed: F. Lamberti, C. De Giorgi & D. McK. Bird). Plenum Press, New York, 324 pp.
  • Cortada, L., P. Manzano, F. J. Sorribas, C. Ornat, & S. Verdejo-Lucas, 2010. The resistance response of Solanum huaylasense accession LA1358 to Meloidogyne spp. Nematropica, 40: 31-40.
  • Cortada, L., F.J. Sorribas, C. Ornat, M.F. Andrés & S. Verdejo-Lucas, 2012. Response of tomato rootstocks carrying the Mi-resistance gene to populations of Meloidogyne arenaria, M. incognita and M. javanica. European Journal of Plant Pathology, 124: 337-343.
  • Devran, Z. & M.A. Söğüt, 2009. Distribution and identification of root-knot nematodes from Turkey. Journal of Nematology, 41: 128-133.
  • Devran, Z. & M.A. Söğüt, 2010. Occurrence of virulent root-knot nematode populations on tomatoes bearing the Mi gene in protected vegetable-growing areas of Turkey. Phytoparasitica, 38: 245-251.
  • Devran, Z., M.A. Söğüt & N. Mutlu, 2010. Response of tomato rootstocks with the Mi resistance gene to Meloidogyne incognita race 2 at different soil temperatures. Phytopathologia Mediterranea, 49: 11-17.
  • Devran, Z., B. Başköylü, A. Taner & F. Doğan, 2013. Comparison of PCR-based molecular markers for identification of Mi gene. Acta Agriculturae Scandinavica, Section B - Soil & Plant Science, 45: 395-402.
  • Doganlar, S., A., Frary & S.D. Tanksley, 1997. Production of interspecific hybrids between Lycopersicon esculentum and two accessions of Lycopersicon peruvianum carrying new root-knot nematode resistance genes. Euphytica, 95: 203–207.
  • Dropkin, V. H., 1969. The necrotic reaction of tomatoes and other hosts resistant to Meloidogyne: reversal by temperature. Phytopathology, 59: 1632–1637.
  • El Mehrach, K., S. Gharsallah Chouchane, L. Mejia, V.M. Williamson, F. Vidavsky, A. Hatimi, M.S. Salus, C.T. Martin & D.P. Maxwell, 2005. PCR based methods for tagging the Mi-1 locus for resistance to root-knot nematode in begomovirusresistant tomato germplasm. Acta Horticulturae, 695: 263–270.
  • Huang, X., M. McGiffen & I. Kaloshian, 2004. Reproduction of Mi-Virulent Meloidogyne incognita isolates on Lycopersicon spp. Journal of Nematology, 36: 69–75.
  • Kaloshian, I., V.M. Williamson, G. Miyao, D. Lawn & B.B. Westerdahl, 1996. Resistance-breaking’ nematodes identified in California tomatoes. California Agriculture, 50:18–9.
  • Lefrancois, C., Y. Chupeau & J.B. Bourgin 1993. Sexual and somatic hybridization in the genus Lycopersicon. Theoretical Applied Genetics, 86: 533–546.
  • Ornat, C., S. Verdejo-Lucas & F.J. Sorribas 2001. A population of Meloidogyne javanica in Spain virulent to the Mi resistance gene in tomato. Plant Disease, 85: 271–276.
  • Randig, O., M. Bongiovanni, R.M.D.G. Carneiro & P. Castagnone-Sereno 2002 Genetic diversity of root-knot nematodes from Brazil and development of SCAR marker specific for the coffee damaging species. Genome, 45: 862–870.
  • Rick, C.M., 1986. “Reproductive Isolation in the Lycopersicon peruvianum Complex, 477-495”. In: Solanaceae: Biology and Systematics (Ed: W.G., D’Arcy) Colombia University Press, New York.
  • Roberts, P.A. & I.J. Thomason I.J. 1989. A review of variability in four Meloidogyne spp. measured by reproduction on several hosts including Lycopersicon. Agricultural Zoology Reviews, 3: 225–252.
  • Roberts, P.A., A. Dalmasso, G.B. Cap & P. Castagnone-Sereno, 1990. Resistance in Lycopensicon peruvianum to isolates of Mi gene compatible Meloidogyne populations. Journal of Nematology, 22: 585–589.
  • Sasser, J.N., C.C. Carter & K.M. Hartman, 1984. Standardization of Host Susceptibility Studies and Reporting of Resistance to Root-knot Nematodes. A Cooperative Publications of The Department of Plant Pathology, North Carolina State University and The United States Agency For International Development, Raleigh, Nort Carolina, U.S.A.
  • Seah, S., V.M. Williamson, B.E. Garcia, L. Mejía, M.S. Salus, C.T. Martin & D.P. Maxwell, 2007. Evaluation of a co- dominant SCAR marker for detection of the Mi-1 locus for resistance to root-knot nematode in tomato germplasm. Tomato Genetic Cooperative Report, 57: 37–40.
  • Taylor, I.B., 1986. “Biosystematics of the Tomato, 1-34”. In: The Tomato Crop. A Scientific Basis for Improvement (Ed: J.G., Atherton & J. Rudich). Chapman and Hall, New York, 661 pp.
  • Tzortzakakis, E. A. & S.R. Gowen, 1996. Occurrence of a resistance breaking pathotype of Meloidogyne javanica on tomatoes in Crete, Greece. Fundamamental and Applied Nematology, 19: 283–288.
  • Tzortzakakis, E.A., M.A.M. Adam, V.C. Blok, C. Paraskevopoulos, & K. Bourtzis, 2005. Occurrence of resistance- breaking populations of root-knot nematodes on tomato in Greece. European Journal of Plant Pathology, 113: 101–105.
  • Veremis, J.C. & P.A. Roberts, 1996. Differentiation of Meloidogyne incognita and M. arenaria novel resistance phenotypes in Lycopersicon peruvianum and derived bridge lines. Theoretical Applied Genetics, 93: 960–967.
  • Veremis, J.C., A. van Heusden, & P.A. Roberts, 1999. Mapping a novel heat-stable resistance to Meloidogyne in Lycopersicon peruvianum. Theoretical Applied Genetics, 98: 274–280.
  • Williamson, V.M., J.Y. Ho, F.F. Wu, N. Miller & Kaloshian I. 1994. A PCR-bases marker tightly linked to the nematode resistance gene, Mi, in tomato. Theoretical Applied Genetics, 87: 757-763.
  • Yaghoobi, J., I. Kaloshian, Y. Wen & V.M. Williamson, 1995. Mapping a new nematode resistance locus in Lycopersicon peruvianum. Theoretical Applied Genetics, 91: 457–464.
  • Zijlstra, C., D.T.H.M. Donkers-Venne & M. Fargette, 2000. Identification of Meloidogyne incognita, M. javanica and M. arenaria using sequence characterized amplified region (SCAR) based PCR assays. Nematology, 2: 847–853.
Toplam 29 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Makaleler
Yazarlar

Zübeyir Devran Bu kişi benim

Mehmet Ali Söğüt Bu kişi benim

Yayımlanma Tarihi 1 Haziran 2014
Gönderilme Tarihi 26 Ocak 2015
Yayımlandığı Sayı Yıl 2014

Kaynak Göster

APA Devran, Z. ., & Söğüt, M. A. . (2014). Mi-1 virülent kök-ur nematod populasyonlarına yüksek sıcaklıkta dayanıklı domates genotiplerinin tepkisi. Turkish Journal of Entomology, 38(3), 229-238. https://doi.org/10.16970/ted.54290
AMA Devran Z, Söğüt MA. Mi-1 virülent kök-ur nematod populasyonlarına yüksek sıcaklıkta dayanıklı domates genotiplerinin tepkisi. TED. Haziran 2014;38(3):229-238. doi:10.16970/ted.54290
Chicago Devran, Zübeyir, ve Mehmet Ali Söğüt. “Mi-1 virülent kök-Ur Nematod populasyonlarına yüksek sıcaklıkta dayanıklı Domates Genotiplerinin Tepkisi”. Turkish Journal of Entomology 38, sy. 3 (Haziran 2014): 229-38. https://doi.org/10.16970/ted.54290.
EndNote Devran Z, Söğüt MA (01 Haziran 2014) Mi-1 virülent kök-ur nematod populasyonlarına yüksek sıcaklıkta dayanıklı domates genotiplerinin tepkisi. Turkish Journal of Entomology 38 3 229–238.
IEEE Z. . Devran ve M. A. . Söğüt, “Mi-1 virülent kök-ur nematod populasyonlarına yüksek sıcaklıkta dayanıklı domates genotiplerinin tepkisi”, TED, c. 38, sy. 3, ss. 229–238, 2014, doi: 10.16970/ted.54290.
ISNAD Devran, Zübeyir - Söğüt, Mehmet Ali. “Mi-1 virülent kök-Ur Nematod populasyonlarına yüksek sıcaklıkta dayanıklı Domates Genotiplerinin Tepkisi”. Turkish Journal of Entomology 38/3 (Haziran 2014), 229-238. https://doi.org/10.16970/ted.54290.
JAMA Devran Z, Söğüt MA. Mi-1 virülent kök-ur nematod populasyonlarına yüksek sıcaklıkta dayanıklı domates genotiplerinin tepkisi. TED. 2014;38:229–238.
MLA Devran, Zübeyir ve Mehmet Ali Söğüt. “Mi-1 virülent kök-Ur Nematod populasyonlarına yüksek sıcaklıkta dayanıklı Domates Genotiplerinin Tepkisi”. Turkish Journal of Entomology, c. 38, sy. 3, 2014, ss. 229-38, doi:10.16970/ted.54290.
Vancouver Devran Z, Söğüt MA. Mi-1 virülent kök-ur nematod populasyonlarına yüksek sıcaklıkta dayanıklı domates genotiplerinin tepkisi. TED. 2014;38(3):229-38.