The occurrence and pathogenicity of Geosmithia spp. and common blue-stain fungi associated with pine bark beetles in planted forests in Israel

详细信息    查看全文

• 作者：Mally Dori-Bachash ; Liat Avrahami-Moyal…
• 关键词：Ophiostoma ; Graphilbum ; Leptographium ; Geosmithia ; Bark beetle ; Pine
• 刊名：European Journal of Plant Pathology
• 出版年：2015
• 出版时间：December 2015
• 年：2015
• 卷：143
• 期：4
• 页码：627-639
• 全文大小：551 KB
• 参考文献：Ayres, M. P., Wilkens, R. T., Ruel, J. J., Lombardero, M. J., & Vallery, E. (2000). Nitrogen budgets of phloem-feeding bark beetles with and without symbiotic fungi. Ecology, 81, 2198-210.CrossRef
  Barbero, M., Loisel, R., Quezel, P., Richardson, D., & Romane, F. (1998). Pines of the Mediterranean basin. In D. M. Richardson (Ed.), Ecology and biogeography of Pinus (pp. 153-70). Cambridge: Cambridge University Press.
  Ben Jamaa, M. L., Lieutier, F., Yart, A., Jerraya, A., & Khouja, M. L. (2007). The virulence of phytopathogenic fungi associated with the bark beetles Tomicus piniperda and Orthotomicus erosus in Tunisia. Forest Pathology, 37, 51-3.CrossRef
  Benade, E., Wingfield, M. J., & Van Wyk, P. S. (1995). Conidium development in the Hyalorhinocladiella anamorph of Ophiostoma ips. Mycologia, 87, 298-03.CrossRef
  Campanella, J. J., Bitincka, L., & Smalley, J. (2003). MatGat: an application that generates similarity/identity matrices using protein or DNA sequences. BMC Bioinformatics, 4, 29.PubMedCentral CrossRef PubMed
  Carbone, I., & Kohn, L. M. (1999). A method for designing primer sets for speciation studies in filamentous ascomycetes. Mycologia, 91, 553-56.CrossRef
  Chambel, M., Climent, J., Pichot, C., & Ducci, F. (2013). Mediterranean pines (Pinus halepensis Mill. and brutia Ten.). In L. E. Paques (Ed.), Forest tree breeding in Europe (pp. 229-65). Netherlands: Springer.CrossRef
  De Beer, Z. W., & Wingfield, M. J. (2013). Emerging lineages in the Ophiostomatales. In K. A. Seifert, Z. W. de Beer, & M. J. Wingfield (Eds.), The Ophiostomatoid fungi: Expanding frontiers (pp. 21-6). Utrecht: CBS.
  De Beer, Z. W., Seifert, K. A., & Wingfield, M. J. (2013). A nomenclator for ophiostomatoid genera and species in the Ophiostomatales and Microascales. Biodiversity Series, 12, 245-22.
  De Beer, Z. W., Duong, T. A., Barnes, I., Wingfield, B. D., & Wingfield, M. J. (2014). Redefining Ceratocystis and allied genera. Studies in Mycology, 79, 187-19.PubMedCentral CrossRef PubMed
  Dunn, C., Wolfaardt, F., & Wingfield, M. J. (2002). Pathogenicity of Ophiostoma piliferum (Cartapip 97 ?) compared with that of other South African sap-staining fungi: research letter. South African Journal of Science, 98, 401-03.
  Fernandez, M. M. F., Garcia, A. E., & Lieutier, F. (2004). Effects of various densities of Ophiostoma ips inoculations on Pinus sylvestris in north‐western Spain. Forest Pathology, 34, 213-23.CrossRef
  Freeman, S., Pham, M., & Rodriguez, R. J. (1993). Molecular genotyping of Colletotrichum species based on arbitrarily primed PCR, A + T-rich DNA, and nuclear DNA analyses. Experimental Mycology, 17, 309-22.CrossRef
  Freeman, S., Sharon, M., Maymon, M., Mendel, Z., Protasov, A., Aoki, T., Eskalen, A., & O’Donnell, K. (2013). Fusarium euwallaceae sp. nov. - a symbiotic fungus of Euwallacea sp., an invasive ambrosia beetle in Israel and California. Mycologia, 105, 1595-606.CrossRef PubMed
  Gardes, M., & Bruns, T. D. (1993). ITS primers with enhanced specificity for Basidiomycetes - application to the identification of mycorrhiza and rusts. Molecular Ecology, 2, 113-18.CrossRef PubMed
  Gezer, A. (1986). The sylviculture of Pinus brutia in Turkey. Options Méditerranéennes, 86, 55-6.
  Glass, N. L., & Donaldson, G. C. (1995). Development of primer sets designed for use with the PCR to amplify conserved genes from filamentous Ascomycetes. Applied and Environmental Microbiology, 61, 1323-330.PubMedCentral PubMed
  Gupta, M., & Filner, P. (1991). Microsatellites amplify highly polymorphic DNA bands in SPAR of plant DNA. Proceedings of the International Society of Plant Molecular Biology. Tucson, Arizona, 1705 p.
  Harrington, T. C. (2005). Ecology and evolution of mycophagous bark beetles and their fungal partners. In F. E. Vega and M. Blackwell (Eds.), Ecological and Evolutionary Advances in Insect-Fungal Associations (pp. 257-91). Oxford University Press.
  Hausner, G., Iranpour, M., Kim, J. J., Breuil, C., Davis, C. N., Gibb, E. A., & Hopkin, A. A. (2005). Fungi vectored by the introduced bark beetle Tomicus piniperda in Ontario, Canada, and comments on the taxonomy of Leptographium lundbergii, Leptographium terebrantis, Leptographium truncatum, and Leptographium wingfieldii. Botany, 83, 1222-237.
  Hofstetter, R. W., Cronin, J. T., Klepzig, K. D., Moser, J. C., & Ayres, M. P. (2006). Antagonisms, mutualisms and commensalisms affect outbreak dynamics of the southern pine beetle. Oecologia, 147, 679-91.CrossRef PubMed
  Hutchison, L. J., & Reid, J. (1988). Taxonomy of some potential wood-staining fungi from New Zealand 1. Ophiostomataceae. New Zealand Journal of Botany, 26, 63-1.CrossRef
  Hutner, S. H., Provasoli, L., Schatz, A., & Haskins, C. P. (1950). Some approaches to the study of the role of metals in the metabolism of microorganisms. Proceedings of the American Philosophical Society, 94, 152-70.
  Jacobs, K., & Wingfield, M. J. (2001). Leptog
• 作者单位：Mally Dori-Bachash (1)
  Liat Avrahami-Moyal (1)
  Alex Protasov (2)
  Zvi Mendel (2)
  Stanley Freeman (1)
  
  1. Department of Plant Pathology and Weed Research, The Volcani Center, Bet Dagan, 50250, Israel
  2. Department of Entomology, Agriculture Research Organization, The Volcani Center, Bet Dagan, 50250, Israel
  
• 刊物类别：Biomedical and Life Sciences
• 刊物主题：Life Sciences
  Plant Pathology
  Plant Sciences
  Ecology
  
• 出版者：Springer Netherlands
• ISSN：1573-8469

文摘

Fungi associated with the bark beetles Orthotomicus erosus, Tomicus destruens and Pityogenes calcaratus were sampled in various pine forests throughout Israel. Three ophiostomatoid fungi, Ophiostoma ips, Graphilbum rectangulosporium and Leptographium wingfieldii, and a fourth non-ophiostomatoid fungus, Geosmithia sp. 24, were identified by using morphological characteristics and molecular genetic analyses. O. ips, the most common fungus, was mainly isolated from O. erosus. The least common fungus, G. rectangulosporium, was frequently isolated from all three studied scolytids, while L. wingfieldii was almost exclusively associated with T. destruens. The fourth fungus, Geosmithia sp. 24, was isolated from both O. erosus and P. calcaratus. This is the first time that an association between O. erosus and a Geosmithia sp. has been reported. Our findings also suggest that Geosmithia sp. 24 can be separated into two distinct sub-groups by molecular analyses. Pathogenicity was demonstrated only for L. wingfieldii, both on Aleppo and brutia pine, exclusively under controlled conditions (25?±- °C) but not at elevated temperatures. Keywords Ophiostoma Graphilbum Leptographium Geosmithia Bark beetle Pine