The early stages of fungal succession in Pinus sylvestris phloem and sapwood infested by Tomicus piniperda

• Autorzy: Jankowiak R , Kurek M.
• Języki publikacji: EN

Abstrakty

EN

Fungal invasion of Scots pine phloem and sapwood was investigated during a period of 15 weeks following attack by the pine shoot beetle, Tomicus piniperda (L.). The study was conducted in Mielec-Mościska, where the pine trees were heavily damaged by shot-feeding of T. piniperda. In order to determine the species richness and occurrence frequency of fungi associated with T. piniperda in temporal succession, living and trap trees infested by T. piniperda were used. Results revealed great diversity of fungi associated with T. piniperda, including 3758 cultures and 57 fungi species. The most important groups of fungi were the blue-stain fungi and molds, including mainly Penicillium, Trichoderma and Mucor genera. Among ophiostomatoid fungi, Ophiostoma minus and O. piceae were the dominant species. Occasionally isolated species were Leptographium lundbergii, L. procerum, L. wingfieldii, Graphium pycnocephalum and Graphium sp. ‘W’. Molds and pathogenic O. minus were the first invaders of both phloem and sapwood, however molds were more frequently isolated from phloem and sapwood at a depth of 5 mm. Ophiostoma piceae and L. lundbergii followed O. minus in the sapwood invasion. These species were successively replaced by L. wingfieldii, L. procerum and Graphium species in the later stages of fungal invasion in pine sapwood.

Słowa kluczowe

EN

Scotch pine; Pinus sylvestris; fungal succession; early stage; phloem; sapwood; fungal invasion; pine shoot beetle; Tomicus piniperda; pine tree; ophiostomatoid fungi

• Wydawca: -
• Czasopismo: Dendrobiology
• Rocznik: 2006
• Tom: 56
• Opis fizyczny: p.27-36,fig.,ref.

Twórcy

autor

Jankowiak R

• Agriculture University of Krakow, Al.29 Listopada 46, 31-425 Krakow, Poland

autor

Kurek M.

Bibliografia

• Camargo J.A. 1993. Must dominance increase with the number of subordinate species in competitive interactions? Journal of Theoretical Biology 161: 537–542.
• Chaverri P., Samuels G.J. 2003. Hypocrea/Trichoderma (Ascomycota, Hypocreales, Hypocreaceae): species with green ascospores. Studies in Mycology 48: 1–118.
• Gibbs J.N., Inman A. 1991. The pine shoot beetle Tomicus piniperda as a vector of blue stain fungi to windblown pine. Forestry 64: 239–249.
• Hermanides-Nijhof E. J.1977. Aureobasidium and allied genera. Studies in Mycology 15: 141–177.
• Jacobs K., Wingfield M.J. 2001. Leptographium species: Tree pathogens, insect associates and agents of blue-stain. St. Paul, Minnesota.
• Jankowiak R. 2005. Fungi associated with Ips typographus on Picea abies in Southern Poland and their succession into the phloem and sapwood of beetle-infested trees and logs. Forest Pathology 35: 37–55.
• Jankowiak R. 2006a. Fungi associated with Tomicus piniperda in Poland and assessing their virulence using Scots pine seedlings. Annals of Forest Science 63: 801–808.
• Jankowiak R. 2006b. Mycobiota associated with Hylurgops palliatus (Gyll.) on Pinus sylvestris L. in Poland. Acta Societatis Botanicorum Poloniae 75: (in press).
• Kirisits T. 2001. Studies on the association of ophiostomatoid fungi with bark beetles in Austria with special emphasis on Ips typographus and Ips cembrae and their associated fungi Ceratocystis polonica and Ceratocystis laricicola, Ph.D. thesis, Universität für Bodenkultur Wien, Vienna.
• Kirisits T. 2004. Fungal associates of European bark beetles with special emphasis on the ophiostomatoid fungi. In: Bark and wood boring insects in living trees in Europe, A Synthesis. Lieutier F., Day K.R., Battisti A., Grégoire J.C., Evans H. (eds.). Dordrecht, Kluwer: 185–223.
• Kirisits T., Offenthaler I. 2002. Xylem sap flow of Norway spruce after inoculation with the blue-stain fungus Ceratocystis polonica. Plant Pathology 51: 359–364.
• Kirschner R. 2001. Diversity of filamentous fungi in bark beetle galleries in central Europe. In: Trichomycetes and other fungal groups. Misra J.K., Horn B.W. (eds.). Robert W. Lichtwardt Commemoration Volume, Enfield, Plymouth, Science Publishers, Inc., : 175–196.
• Kowalski T., Kehr R.D. 1996. Fungal endophytes of living branch bases in several European tree species. In: Endophytic fungi in grasses and woody plants; systematics, ecology, and evolution. Redlin S.C., Carris L.M. (eds.). St. Paul, Minnesota: 67–86.
• Kowalski T., Stańczykiewicz A. 2000. Communities of endophytic fungi in twigs and needles of Pinus sylvestris affected to a different degree by air pollution. Phytopathologia Polonica 19: 69–87.
• Krokene P., Solheim H. 1998. Pathogenicity of four blue-stain fungi associated with aggressive and nonaggressive bark beetles. Phytopathology 88: 39–44.
• Kwaśna H. 1987. Możliwość użycia saprofitycznych grzybów glebowych do ochrony siewek sosny zwyczajnej przed zgorzelą powodowana przez Fusarium oxysporum Schl. i Rhizoctonia solani Kühn. Roczniki Nauk Rolniczych. Ser. E 18: 115–119.
• Långström B., Solheim H., Hellqvist C., Gref R. 1993. Effects of pruning young Scots pines on host vigour and susceptibility to Leptographium wingfieldii and Ophiostoma minus, two blue-stain fungi associated with Tomicus piniperda. European Journal of Forest Pathology 23: 400–415.
• Lieutier F., Yart A., Garcia J., Ham M.C., Morelet M., Levieux J. 1989. Champignons phytopathogènes associès à deux colèoptères scolytidae du pin sylvestre (Pinus sylvestris L.) et etude prèliminaire de leur agressivitè envers I’hôte. Annales des Sciences Forestieres 46: 201–216.
• Masuya H., Kaneko S., Yamaoka Y. 1998. Blue stain fungi associated with Tomicus piniperda (Coleoptera: Scolytidae) on Japanese Red Pine. Journal of Forest Research 3: 213–219.
• Masuya H., Kaneko S., Yamaoka Y., Osawa M. 1999. Comparisons of ophiostomatoid fungi associated with Tomicus piniperda and T. minor in Japanese Red Pine. Journal of Forest Research 4: 131–135.
• Mathiesen A. 1950. Übe einige mit Borkenkäfern assoziierten Bläuepilze in Schweden. Oikos 2: 275–308.
• Mathiesen-Käärik A. 1953. Eine Übersicht über die gewöhnlichsten mit Borkenkäfern assoziierten Bläuepilze in Schweden und einige für Schweden neue Bläuepilze. Meddelanden från Statens Skogforskningsinstitutut 43: 1–74.
• Michalski J., Mazur A. 1999. Korniki. Praktyczny przewodnik dla leśników. Oficyna Edytorska Wydawnictwo Świat, Warszawa.
• Morelet M. 1988. Observations sur trios Deutèromycètes infèodès aux pins. Annales de la Societé des Sciences Naturelles et d’Archéologie de Toulon du Var 40: 41–45.
• Münch E. 1907. Die Blaufäule des Nadelholzes. I-II. Naturwissenschaftliche Zeitschrift für Land- und Forstwirtschaft 5: 531–573.
• Nevil R.J., Alexander S.A. 1992. Pathogenicity of three fungal associates of Hylobius pales and Pissodes nemorensis (Coleoptera: Curculonidae) to eastern white pine. Canadian Journal of Botany 22: 1438–1440.
• Piou D., Lieutier F. 1989. Observations symptomatologiques et roles possibles d’Ophiostoma minus Hedgc. (ascomycète: Ophiostomatales) et de Tomicus piniperda L. (Coleoptera: Scolytidae) dans le dèpèrissement du pin sylvestre en for t d’Orleans. Annales des Sciences Forestieres 46: 39–53.
• Rennerfelt E. 1950. Über den Zusammenhang zwischen dem Verblauen des Holzes und den Insekten. Oikos 2: 120–137.
• Seifert K.A. 1993. Sapstain of commercial lumber by species of Ophiostoma and Ceratocystis. In: Ceratocystis and Ophiostoma. Taxonomy, ecology and pathogenicity. Wingfield M.J., Seifert K.A., Webber J.F. (eds.). St. Paul, Minnesota, APS Press: 141–152.
• Seifert K. A., Okada G. 1993. Graphium anamorphs of Ophiostoma species and similar anamorphs of other ascomycetes. In: Ceratocystis and Ophiostoma. Taxonomy, ecology and pathogenicity. Wingfield M., J., Seifert K.A., Webber J.F. (eds.). St. Paul, Minnesota, APS Press: 27–42.
• Siemaszko W. 1939. Zespoły grzybów towarzyszących kornikom polskim. Planta polonica 7: 1–54.
• Simpson E.H. 1949. Measurement of species diversity. Nature 163: 688.
• Solheim H. 1992a. The early stages of fungal invasion in Norway spruce infested by the bark beetle Ips typographus. Canadian Journal of Botany 70: 1–5.
• Solheim H. 1992b. Fungal succession in sapwood of Norway spruce infested by bark beetle Ips typographus. European Journal of Forest Pathology 22: 136–148.
• Solheim H., Långström B. 1991. Blue-stain fungi associated with Tomicus piniperda in Sweden and preliminary observations on their pathogenicity. Annales des Sciences Forestieres 48: 149–156.
• Solheim H., Långström B., Hellqvist C. 1993. Pathogenicity of the blue-stain fungi Leptographium wingfieldii and Ophiostoma minus to Scots pine: effect of tree pruning and inoculum density. Canadian Journal of Forest Research 23: 1438–1443.
• Solheim H., Krokene P., Långström B. 2001. Effects of growth and virulence of associated blue-stain fungi on host colonization behaviour of the pine shoot beetles Tomicus minor and T. piniperda. Plant Pathology 50: 111–116.
• Tarociński E., Stolarski P. 1972. Wpływ okresów pozyskania i składowania sosnowego drewna tartacznego na stopień rozwoju i skład zespołów grzybów wywołujących siniznę. Zeszyty Naukowe SGGW, Leśnictwo 18: 161–173.
• Wang S. 1983. Transpiration stream velocity in Norway spruce trees attacked by bark beetles. Meddeleser fra Norsk Institutt for Skogforskning 38 (10): 1–8.
• Wells H.D., Bell D.K. 1979. Variable antagonistic reaction in vitro of Trichoderma harzianum against several pathogens. Phytopathology 69(9): 1048–1049.
• Wingfield M.J., Gibbs J.N. 1991. Leptographium and Graphium species associated with pine-infesting bark beetles in England. Mycological Research 95: 1257–1260.
• Yamaoka Y., Swanson R.H, Hiratsuka Y. 1990. Inoculation of lodgepole pine with four blue-stain fungi associated with mountain pine beetle, monitored by a heat pulse velocity (HPV) instrument. Canadian Journal of Forest Research 20: 31–36.
• Yamaoka Y., Takahashi I., Igutchi, K. 2000. Virulence of ophiostomatoid fungi associated with the spruce bark beetle Ips typographus f. japonicus in Yezo spruce. Journal of Forest Research 5: 87–94.
• Zabel R.A., Morrell J.J. 1992. Wood microbiology – decay and its prevention. Academic Press, New York.