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References
Aghayeva, D.N., Wingfield, M.J., De Beer, W.Z. & Kirisits, T.2004. Two new Ophiostomaspecies with Sporothrixanamorphs from Austria and Azerbaijan. Mycologia, in press.
Bakshi, B.K. 1950. Fungi associated with ambrosia beetles in GreatBritain. Transactions of the British Mycological Society, 33,111-20.
Bakshi, B.K. 1951. Studies on four species of Ceratocystis, with a discussion on fungi causing sap-stain in Britain. Mycological Paper, 35, 1-16.
Ballard, R.G., Walsh, M.A. & Cole, W.E. 1982. Blue-stain fungiin xylem of lodgepole pine: a light-microscope study on extent of hyphal distribution. Canadian Journal of Botany, 60, 2334-41.
Ballard, R.G., Walsh, M.A. & Cole, W.E. 1984. The penetration and growth of blue-stain fungi in the sapwood of lodgepole pine attacked by mountain pine beetle. Canadian Journal of Botany, 62,1724-29.
Barras, S.J. 1970. Antagonism between Dendroctonus frontalisand the fungus Ceratocystis minorAnnals of the Entomological Society of America, 63, 1187-90.
Barras, S.J. 1973. Reduction of progeny and development in the southern pine beetle following removal of symbiotic fungi. Canadian Entomologist, 105, 1295-99.
Batra, L.R. 1963a. Ecology of ambrosia fungi and their dissemination by beetles. Transactions of the Kansas Academy of Science, 66, 213-36.
Batra, L.R. 1963b. Contributions to our knowledge of ambrosia fungi II. Endomycopsis fasciculate nom. nov. American Journal of Botany, 50, 481-87.
Batra, L.R. 1967. Ambrosia fungi: A taxonomic revision, and nutritional studies of some species. Mycologia, 59, 976-1017.
Beaver, R.A. 1989. Insect – Fungus Relationships in the Bark andAmbrosia Beetles. In. Insect-Fungus Interactions. 14th Symposium of the Royal Entomological Society of London incollaboration with the British Mycological Society, N. Wilding, N.M. Collins, P. M. Hammond, J.F. Webber (Eds.). London: AcademicPress.
Berryman, A.A. 1972. Resistance of conifers to invasion by bark beetle-fungus associations. BioScience, 22, 598-602.
Berryman, A.A. 1989. Adaptive Pathways in Scolytid-Fungus associations. In. Insect-Fungus Interactions. 14th Symposiumof the Royal Entomological Society of London in collaboration with the British Mycological Society, N. Wilding, N.M. Collins, P. M.Hammond, J.F. Webber (Eds.). London: Academic Press.
Bramble, W.C. & Holst E.C. 1940. Fungi associated with Dendroctonus frontalis in killing shortleaf pines and their effect on conduction. Phytopathology, 30, 881-99.
Brasier, C.M. 1990. China and the origin of Dutch elm disease: an appraisal. Plant Pathology, 39, 5-16.
Brasier, C.M. 1991. Ophiostoma novo-ulmisp. nov., causative agent of current Dutch elm disease pandemics. Mycopathologia, 115,151-61.
Brasier, C.M. 2000. Intercontinental spread and continuing evolution of the Dutch elm disease pathogens. In. The Elms –Breeding and Conservation, C.P. Dunn (Ed.). Dordrecht: Kluwer.
Brasier, C.M. & Kirk, S.A. 1993. Sibling species within Ophiostoma piceae. Mycological Research, 97, 811-16.
Bridges, J.R. & Moser, J.C. 1983. Role of two mites intransmission of the blue-stain fungus, Ceratocystis minor. Ecological Entomology, 8, 9-12.
Bridges, J.R. & Moser, J.C. 1986. Relationship of phoreticmites (Acari: Tarsonemidae) to the blue staining fungus, Ceratocystis minor, in trees infested by southern pine beetle (Coleoptera: Scolytidae). Environonmental Entomology, 15, 951-53.
Bridges, J.R., Marler, Ja .E. & McSparrin, B.H. 1984. Aquantitative study of the yeasts associated with laboratory-rearedDendroctonus frontalis Zimm. (Coleopt., Scolytidae). Zeitschrift für Angewandte Entomologie, 97, 261-67.
Butin, H. 1996. Tree Diseases and Disorders. Causes, Biology and Control in Forest and Amenity treesOxford: Oxford University Press.
Butin, H. & Zimmermann, G. 1972. Zwei neue holzverfärbendeCeratocystis-Arten in Buchenholz (Fagus sylvaticaL.). Phytopathologische Zeitschrift, 74, 281-87.
Callaham, R.Z. & Shifrine, M. 1960. The yeasts associated with bark beetles. Forest Science, 6, 146-154.
Cassar, S. & Blackwell, M. 1996. Convergent origins of ambrosia fungi. Mycologia, 88, 596-601.
Christiansen, E. 1985. Ceratocystis polonica inoculated in Norway spruce: Blue-staining in relation to inoculum density, resinosis and tree growth. European Journal of Forest Pathology, 15, 160-67.
Christiansen, E. & Bakke, A. 1988. The Spruce Bark Beetle of Eurasia. In. Dynamics of Forest Insect Populations: Pattern, Causes, Implications, A.A. Berryman (Ed.). New York, London: Plenum Press.
Christiansen, E. & Solheim, H. 1990. The bark beetle-associated blue-stain fungus Ophiostoma polonicum can kill various spruces and Douglas fir. European Journal of Forest Pathology, 20, 436-46.
Christiansen, E., Waring, R.H. & Berryman, A.A. 1987. Resistance of conifers to bark beetle attack: searching for general relationships. Forest Ecology and Management, 22, 89-106.
Colineau, B. & Lieutier, F., 1994. Production of Ophiostoma-free adults of Ips sexdentatusBoern.(Coleoptera: Scolytidae) and comparison with naturally contaminated adults. Canadian Entomologist, 126, 103-10.
Croisé, L., Lieutier, F. & Dreyer, E. 1998. Scots pine responses to number and density of inoculation points with Leptographium wingfieldii Morelet, a bark beetle-associated fungus. Annales des Sciences Forestières, 55,497-506.
Davidson, R.W., Francke-Grosmann, H. & Käärik, A. 1967. A restudy of Ceratocystis penicillata and report of two American species of this genus from Europe. Mycologia, 59, 928-32.
De Hoog, G.S. & Scheffer, R.J. 1984. CeratocystisversusOphiostoma: a reappraisal. Mycologia, 76, 292-99.
Dowding, P. 1969. The dispersal and survival of spores of fungi causing bluestain in pine. Transactions of the British Mycological Society, 52, 125-37.
Dowding, P. 1973. Effects of felling time and insecticide treatment on the interrelationships of fungi and arthropods inpine logs. Oikos, 24, 422-29.
Farris, S.H. 1963. Ambrosia fungus storage in two species of Gnathotrichus Eichhoff (Coleoptera: Scolytidae). Canadian Entomologist, 95, 257-59.
Fox, J.W., Wood, D.L., Akers, R. P. & Parmeter, J.R. jr. 1993. Survival and development of Ips paraconfususLanier (Coleoptera: Scolytidae) reared axenically and with tree-pathogenic fungi vectored by cohabiting Dendroctonusspecies. Canadian Entomologist, 125, 1157-67
Francke-Grosmann, H. 1952. Über die Ambrosiazucht der beiden Kiefernborkenkäfer Myelophilus minorHtg. und IpsacuminatusGyll. Meddelanden från Statens Skogforskningsinstitutut, 41, 1-52.
Francke-Grosmann, H. 1956a. Hautdrüsen als Träger der Pilzsymbiose bei Ambrosiakäfern. Zeitschrift für Morphologie und Ökologie der Tiere, 45, 275-308.
Francke-Grosmann, H. 1956b. Grundlagen der Symbiose beipilzzüchtenden Holzinsekten. Verhandlungen der Deutschen Zoologischen Gesellschaft Hamburg (Leipzig), 112-118.
Francke-Grosmann, H. 1958. Über die Ambrosiazucht derholzbrütenden Ipiden im Hinblick auf das System. Verhandlungender Deutschen Gesellschaft für Angewandte Entomologie, 14, 139-44.
Francke-Grosmann, H. 1963a. Some new aspects in forest entomology. Annual Review of Entomology, 8, 415-38.
Francke-Grosmann, H. 1963b. Zur Übertragung der Pilzflora beidem Borkenkäfer Ips acuminatus. Zeitschrift für Angewandte Entomologie, 52, 355-61.
Francke-Grosmann, H. 1966. Über Symbiosen vonxylo-mycetophagen und phloeophagen Scolytoidae mit holzbewohnenden Pilzen. Material und Organismen, Beiheft 1, 503-22.
Francke-Grosmann, H. 1967. Ectosymbiosis in Wood-Inhabiting Insects. In. SymbiosisVolume 2, S.M. Henry (Ed.). Academic, New York, London: Academic Press.
Francke-Grosmann, H. 1975. Zur epizoischen und endozoischenÜbertragung der symbiontischen Pilze des AmbrosiakäfersXyleborus saxeseni(Coleoptera: Scolytidae). Entomologia Germania, 1, 279-92.
Furniss, M.M., Solheim, H. & Christiansen, E. 1990. Transmission of blue-stain fungi by Ips typographus (Coleoptera: Scolytidae) in Norway spruce. Annals of the Entomological Society of America, 83, 712-16.
Gebhardt, H., Kirschner, R. & Oberwinkler, F. 2002. A new Ophiostoma species isolated from the ambrosia beetle Xyleborus dryographus (Coleoptera: Scolytidae). Mycological Progress, 1, 377-82.
Gibbs, J.N. 1993. The biology of ophiostomatoid fungi causing sapstain in trees and freshly cut logs. In. Ophiostoma and Ceratocystis: Taxonomy, Ecology and Pathogenicity, M.J. Wingfield, K.A. Seifert, J.F. Webber (Eds.). St. Paul, Minnesota: APS Press.
Gibbs, J.N. & Inman, A. 1991. The pine shoot beetle Tomicus piniperdaas a vector of blue-stain fungi to windblown pine. Forestry, 64, 139-249.
Graham, K. 1967. Fungal-insect mutualism in trees and timber. Annual Review of Entomology, 12, 105-26.
Gregoire, J.C. 1988. The Greater European Spruce Beetle. In. Dynamics of Forest Insect Populations: Pattern, Causes, Implications, A.A. Berryman (Ed.). New York, London: Plenum Press.
Grosmann, H. 1931. Beiträge zur Kenntnis der Lebensgemeinschaft zwischen Borkenkäfern und Pilzen. Zeitschrift für Parasitenkunde, 3, 56-102.
Grosmann, H. 1932. Über die systematischen Beziehungen der Gattung LeptographiumLagerberg et Melin zur Gattung Ceratostomella Sacc. nebst einigen Bemerkungen über Scopularia venusta Preuss und Hanttzschia phycomyces Awd. Hedwigia 72, 180-98.
Grubelnik, R. 1998. Untersuchungen über die Zusammensetzungder Mycoflora von Ips typographus auf ausgewähltenWald-Standorten in Österreich unter besonderer Berücksichtigung der pathogenen Art Ceratocystispolonica. Diplomarbeit, Universität für Bodenkultur Wien.
Guérard, N., Dreyer, E. & Lieutier, F. 2000. Interactions between Scots pine, Ips acuminatus (Gyll.) and Ophiostoma brunneo-ciliatum (Math.): estimation of the critical thresholds of attack and inoculation densities and effects onhydraulic properties of the stem. Annales des Sciences Forestières, 57, 681-90.
Hanssen, H.-P. 1993. Volatile metabolites produced by species ofOphiostoma and Ceratocystis. In. Ophiostoma andCeratocystis: Taxonomy, Ecology and Pathogenicity, M.J. Wingfield, K.A. Seifert, J.F. Webber (Eds.). St. Paul, Minnesota: APS Press.
Harding, S. 1985. Plantepatologiske aspekter ved barkbilleangrep på nåletræ - med særlig henblik på Ipstypographus/rödgran. Hovedopgave, Den Kongelige Veterinaer-og Landbohoeskole , Koebenhavn.
Harding, S. 1989. The influence of mutualistic blue-stain fungi onbark beetle population dynamics. Ph.D thesis, Royal Veterinary and Agricultural University Copenhagen.
Harding, S. 1995. Fungal associates of Ips typographus L. in Denmark – occurrence, frequency and pathogenicity. In. Barkbeetles, blue-stain fungi, and conifer defence systems, E.Christiansen (Ed.). Proceedings from a symposium held at the Norwegian Forest Research Institute (NISK), 31 July - 2 August,1995, Ås, Norway. Aktuelt fra Skogforsk, 6, 36.
Harrington, T.C. 1981. Cycloheximide sensitivity as a taxonomic charakter in Ceratocystis. Mycologia, 73, 1123-29.
Harrington, T.C. 1987. Nenw combinations in Ophiostoma ofCeratocystis species with Leptographiumanamorphs. Mycotaxon, 28, 39-43.
Harrington, T.C. 1993a. Diseases of conifers caused by species ofOphiostomaand Leptographium. In. Ophiostoma and Ceratocystis: Taxonomy, Ecology and Pathogenicity, M.J. Wingfield, K.A. Seifert, J.F. Webber (Eds.). St. Paul, Minnesota: APS Press.
Harrington, T.C. 1993b. Biology and taxonomy of fungi associated with bark beetles. In. Beetle-Pathogen Interactions in Conifer Forests, T.D. Schowalter, G.M. Filip (Eds.). New York: Academic Press.
Harrington, T.C. & Wingfield, M.J. 1998. The Ceratocystisspecies on conifers. Canadian Journal of Botany, 76, 1446-57.
Harrington, T.C., McNew, D., Steimel, J., Hofstra D. & Farrell R. 2001. Phylogeny and taxonomy of the Ophiostoma piceaecomplex and the Dutch elm disease fungi. Mycologia, 93, 111-36.
Harrington , T.C., Pashenova, N.V., McNew, D.L., Steimel, J. &Konstantinov, M.Yu. 2002. Species delimitation and host specialization of Ceratocystis laricicolaand C.polonica to larch and spruce. Plant Disease, 86, 418-22.
Hartig, T. 1844. Ambrosia des Bostrichus dispar. AllgemeineForst- und Jagdzeitung, 13,73.
Hartig, T. 1872a. Der Fichtensplintkäfer Bostrychus(Xyloterus) lineatus. Allgemeine Forst- und Jagdzeitung, 48, 181-83.
Hartig, T. 1872b. Der Buchensplintkäfer Bostrychusdomesticus. Allgemeine Forst- und Jagdzeitung, 48, 183-84.
Hartig, R. 1878. Die Zersetzungserscheinungen des Holzes der Nadelbäume und der Eiche in forstlicher, botanischer undchemischer Richtung.Berlin: Julius Springer.
Hausner, G., Reid, J. & Klassen, G.R. 1993a. Ceratocystiopsis: a reappraisal based on molecular criteria. Mycological Research, 97, 625-33.
Hausner, G., Reid, J. & Klassen, G.R. 1993b. On the subdivision of Ceratocystis s.l., based on partial ribosomal DNA sequences. Canadian Journal of Botany, 71, 52-63.
Horntvedt, R., Horntvedt, R., Christiansen, E., Solheim, H. &Wang, S. 1983. Artificial inoculation with Ips typographus-associated blue-stain fungi can kill healthy Norway spruce trees. Meddelelser fra Norsk institutt for skogforskning, 38, 1-20.
Hunt, J. 1956. Taxonomy of the genus Ceratocystis. Lloydia, 19, 1-58.
Jacobs, K. & Wingfield, M.J. 2001. Leptographiumspecies: Tree Pathogens, Insect Associates, and Agents of Blue-stain. St. Paul, Minnesota: APS Press.
Jacobs, K., & Kirisits, T. 2003. Ophiostoma kryptumsp.nov. from Larix deciduaand Picea abies in Europe, similar to O. minus. Mycological Research, 107, 1231-42.
Jacobs, K., Wingfield, M.J., Uzunovic, A. & Frisullo, S. 2001a. Three new Leptographiumspecies from pine. Mycological Research, 105, 490-99.
Jacobs, K., Wingfield M.J., Coetsee, C., Kirisits, T. & Wingfield, B.D. 2001b. Leptographium guttulatumsp. nov., a new species from spruce and pine in Europe. Mycologia, 93, 380-88.
Jacobs, K., Seifert, K.A., Harrison, K.J. & Kirisits, T. 2003a. Identity and phylogenetic relationships of ophiostomatoid fungi associated with invasive and native Tetropiumspp.(Coleoptera: Cerambycidae) in Atlantic Canada. Canadian Journal of Botany, 81, 316-29.
Jacobs, K., Kirisits, T. & Wingfield, M.J. 2003b. Taxonomicre-evaluation of three related species of Graphium, based onmorphology, ecology and phylogeny. Mycologia, 95, 714-27.
Jankowiak, R. 2004. Fungi associated with Ips typographus on Picea abies in Poland. I: Fungi associated with Ips typographus in relation to a different health condition of trees. Forest Pathology, accepted.
Jones, K. G. & Blackwell, M. 1998. Phylogentic analyses of ambrosial species in the genus Raffaeleabased on 18S rDNA sequences. Mycological Research, 102, 661-65.
Juzwik, J. & French, D.W. 1983. Ceratocystis fagacearumand C. piceae on the surfaces of free-flying and fungus-mat-inhabiting nitidulids. Phytopathology, 73, 1164-68.
Kile, G.A. 1993. Plant diseases caused by species of Ceratocystis sensu strictoand ChalaraIn. Ophiostoma and Ceratocystis: Taxonomy, Ecology and Pathogenicity, M.J.Wingfield, K.A. Seifert, J.F. Webber (Eds.). St.Paul, Minnesota: APS Press.
Kirisits, T. 1996. Untersuchungen über die Vergesellschaftungvon Bläuepilzen (Ceratocystis/Ophiostoma spp.) mitden rindenbrütenden Fichtenborkenkäfern Ipstypographus Pityogenes chalcographus und Hylurgopsglabratus in Österreich. Diplomarbeit, Universität für Bodenkultur Wien.
Kirisits, T. 1998. Pathogenicity of three blue-stain fungi associated with the bark beetle Ips typographus to Norway spruce in Austria. Österreichische Zeitschrift für Pilzkunde, 7, 191-201.
Kirisits, T. 2001. Studies on the association of ophiostomatoid fungi with bark beetles in Austria with special emphasis on Ips typographus and Ips cembraeand their associated fungiCeratocystis polonica and Ceratocystis laricicola. Dissertation, Universität für Bodenkultur Wien.
Kirisits, T. & Anglberger, H. 1999. Report on a strain of the pathogenic blue-stain fungus Ceratocystis polonicawith low virulence. Österreichische Zeitschrift für Pilzkunde, 8,157-67.
Kirisits, T. & Offenthaler, I. 2002. Xylem sap flow of Norway spruce after inoculation with the blue-stain fungus Ceratocystis polonica. Plant Pathology, 51, 359-64.
Kirisits, T., Grubelnik, R. & Führer E. 2000. Dieökologische Bedeutung von Bläuepilzen fürrindenbrütende Borkenkäfer. [The ecological role of blue-stain fungi for phloem-feeding bark beetles]. In. Mariabrunner Waldbautage 1999 – Umbau sekundärer Nadelwälder, F. Müller (Ed.). Vienna: Schriftenreihe der Forstlichen Bundesversuchsanstalt Wien, FBVA-Berichte, 111,117-37.
Kirschner, R. 1998. Diversität mit Borkenkäfernassoziierter filamentöser Mikropilze. Dissertation, Eberhard-Karls-Universität Tübingen.
Kirschner, R. 2001. Diversity of filamentous fungi in bark beetlegalleries in central Europe. In. Trichomycetes and otherfungal groups. Robert W. Lichtwardt Commemoration Volume, J.K.Misra, B.W. Horn (Eds.). Enfield, Plymouth: Science Publishers, Inc.
Kirschner, R. & Oberwinkler, F. 1999. A new Ophiostomaspecies associated with bark beetles infesting Norway spruce . Canadian Journal of Botany, 77, 247-52.
Kotýnkovà-Sychrová, E. 1966. Mykoflòra chodebkurovcu v Ceskoslovensku [The mycoflora of bark-beetle galleriesin Czechoslovakia]. Ceska Mykologie, 20, 45-53.
Kowalski, T. 1991. Oak decline: I. Fungi associated with various disease symptoms on overground portions of middle-agged and oldoak (Quercus robur L.). European Journal of Forest Pathology 21, 136-51.
Kowalski, T. & Butin, H. 1989. Taxonomie bekannter und neuerCeratocystis-Arten an Eiche (Quercus robur L.). Phytophathologische Zeitschrift, 124, 236-48.
Klepzig, K.D. 1998. Competition between a biological control fungus, Ophiostoma piliferum, and symbionts of the southern pine beetle. Mycologia, 90, 69-75.
Klepzig K.D. & Wilkins, R.T. 1997. Competitive interactions among symbiotic fungi of the southern pine beetle. Applied and Environmental Micobiology, 63, 621-27.
Klepzig, K.D., Moser, J.C., Lombadero, M.J., Ayres, M.P.,Hofstetter, R.W. & Walkinshaw, C.J. 2001a. Mutualism andantagonism: Ecological interactions among bark betles, mites, and fungi. In. Biotic interactions in plant-pathogen associations, M.J. Jeger, N.J. Spence (Eds.). New York: CABI Publishing.
Klepzig, K.D., Moser, J.C., Lombadero, F.J., Hofstetter, R.W. &Ayres, M.P. 2001b. Symbiosis and competition: complex interactions among beetles, fungi and mites. Symbiosis, 30, 83-96.
Krokene, P. 1996. The role of blue-stain fungi in tree-killing bybark beetles. Dr. scient. Thesis, University of Oslo.
Krokene, P.& Solheim, H. 1996. Fungal associates of five bark beetlesspecies colonizing Norway spruce. Canadian Journal of Forest Research, 26, 2115-22.
Krokene, P. & Solheim, H. 1998. Pathogenicity of fourblue-stain fungi associated with aggressive and nonaggressive bark beetles. Phytopathology, 88, 39-44.
Krokene, P. & Solheim, H. 2001. Loss of pathogenicity in theblue-stain fungus Ceratocystis polonica. Plant Pathology, 50,497-502.
Käärik, A. 1975. Succession of microorganisms during wooddecay. In. Biological transformation of wood by microorganisms, W Liese (Ed.). Proceedings of the Sessions on Wood Products Pathology at the 2nd International Congress of Plant Pathology, September 10-12, 1973, Minneapolis/USA. Berlin, Heidelberg. New York: Springer-Verlag
Lagerberg, T., Lundberg, G. & Melin, E. 1927. Biological andpractical researches into blueing in pine and spruce. Skogsvårdsföreningens Tidskrift, 25, 145-272, 561-739.
Leufvén, A., Bergström, G. & Falsen, E. 1984. Interconversion of verbenols and verbe none by identified yeastsisolated from the spruce bark beetle Ips typographus. Journal of Chemical Ecology, 10, 1349-61.
Leufvén, A. & Nehls, L. 1986. Quantification of different yeasts associated with the bark beetle, Ips typographus, during its attack on a spruce tree. Microbial Ecology, 12, 237-43.
Lévieux, J., Lieutier, F., Moser, J.C. & Perry, T.J. 1989. Transportation of phytopathogenic fungi by the bark beetle Ips sexdentatusBoerner and associated mites. Zeitschrift für Angewandte Entomologie, 108, 1-11.
Lévieux, J., Cassier, P., Guillaumin, D. & Roques, A. 1991. Structures implicated in the transportation of pathogenic fungi by the European bark beetle, Ips sexdentatus Boerner: Ultrastructure of a mycangium. Canadian Entomologist, 123, 245-54.
Liese, W. & Schmid, R. 1961. Licht- undelektronenmikroskopische Untersuchungen über das Wachstum vonBläuepilzen in Kiefern- und Fichtenholz. Holz als Roh- undWerkstoff, 19, 329-37.
Lieutier, F. 1993. Induced defense reaction of conifers to bark beetles and their associated Ophiostomaspecies. In. Ophiostoma and Ceratocystis: Taxonomy, Ecology and Pathogenicity,M.J. Wingfield, K.A. Seifert, J.F. Webber (Eds.). St.Paul, Minnesota: APS Press.
Lieutier, F. 2002. Mechanisms of resistance in conifers and barkbeetle attack strategies. In Mechanisms and Deployment of Resistance in Trees to Insects, M.R. Wagner, K.M. Clancy, F.Lieutier, T.D. Paine (Eds.). Dordrecht: Kluwer.
Lieutier, F., Cheniclet, C. & Garcia, J. 1989a. Comparison of the defense reactions of Pinus pinasterand Pinussylvestristo attacks by two bark beetles (Coleoptera:Scolytidae) and their associated fungi. Environmental Entomology,18, 228-34.
Lieutier, F., Yart, A., Garcia, J., Ham, M.C., Morelet, M. &Lévieux, J. 1989b. Champignons phytopathogènes associés á deux coléoptères scolytidae du pinsylvestre (Pinus sylvestris) et étude préliminairede leur agressivité envers l’hote. Annales des SciencesForestières, 46, 201-16.
Lieutier, F., Garcia, J., Yart, A., Vouland, G., Pettinetti, M.& Morelet, M., 1991. Ophiostomatales (Ascomycétes) associées à Ips acuminatus Gyll. (Coleoptera:Scolytidae) sur le pin sylvestre (Pinus sylvestrisL.) dansle Sud-Est de la France et compararaison avec Ips sexdentatusBoern. Agronomie, 11, 807-17.
Lieutier, F., Vouland, G., Pettinetti, M., Garcia, J., Romary, P.& Yart, A. 1992. Defence reactions of Norway spruce (Piceaabies Karst.) to artificial insertion of Dendroctonus micansKug. (Col., Scolytidae). Zeitschrift für Angewandte Entomologie, 114, 174-86.
Lieutier, F., Yart, A., Ye, H., Sauvard, D., & Gallois, V.2004. Variation in growth and virulence of Leptographium wingfieldii, a fungus associated with the bark beetle Tomicus piniperdaL. Annals of Forest Science, in press.
Lin, S. 2003. Untersuchungen über den Ophiostoma piceae-Artenkomplex in Österreich. Diplomarbeit, Universität für Bodenkultur Wien.
MacCallum, B.D. 1922. Some wood-staining fungi. Transactions of the British Mycological Society, 7, 231-36.
Malloch, D. & Blackwell, M. 1993. Dispersal biology of the ophiostomatoid fungi. In. Ophiostoma and Ceratocystis: Taxonomy, Ecology and Pathogenicity, M.J. Wingfield, K.A. Seifert, J.F. Webber (Eds.). St. Paul, Minnesota: APS Press.
Marin, M. 2004. Phylogenetic and molecular population biologystudies on Ceratocystisspp. associated with conifer and coffee diseases. Ph.D thesis, University of Pretoria.
Mathiesen, A. 1950. Über einige mit Borkenkäfern assoziierte Bläuepilze in Schweden. Oikos, 2, 275-308.
Mathiesen, A. 1951. Einige neue Ophiostoma-Arten in Schweden. Svensk Botanisk Tidskrift, 45, 203-32.
Mathiesen-Käärik, A., 1953. Eine Übersicht überdie gewöhnlichsten mit Borkenkäfern assoziierten Bläuepilze in Schweden und einige für Schweden neueBläuepilze. Meddelanden från Statens Skogforskningsinstitutut, 43, 1-74.
Minter, D.W., Kirk, P.M. & Sutton, B.C. 1982: Holoblasticphialides. Transactions of the British Mycological Society, 79,75-93.
Minter, D.W., Kirk, P.M. & Sutton, B. C. 1983. Thallicphialides. Transactions of the British Mycological Society, 80,39-66.
Moser, J.C. 1985. Use of sporothecae by phoretic Tarsonemusmites to transport ascospores of coniferous bluestain fungi. Transactions of the Brisish Mycological Society, 84, 750-53
Moser, J.C., Perry, T.J. & Solheim, H. 1989. Ascospores hyperphoretic on mites associated with Ips typographus. Mycological Research, 93, 513-17.
Moser, J.C. 1997. Phoretic mites and their hyperphoretic fungi associated with flying Ips typographus japonicus Niijima (Col., Scolytidae) in Japan. Journal of Applied Entomology 121,425-28.
Morelet, M. 1995. II. Travaux scientifiques. Notes de mycologieappliquée. Annales de la Societé des Sciences Naturelleset. d’Archéologie de Toulon et du Var, 47, 89-94.
Münch, E., 1907. Die Blaufäule des Nadelholzes. I-II.Naturwissenschaftliche Zeitschrift für Land- und Forstwirtschaft, 5, 531-73.
Münch, E. 1908. Die Blaufäule des Nadelholzes. III-IV.Naturwissenschaftliche Zeitschrift für Land- und Forstwirtschaft, 6, 32-47, 297-323.
Nelson, R.M. 1934. Effect of bluestain fungi on southern pines attacked by bark beetles. Phytopathologische Zeitschrift, 7, 327-53.
Nelson, R.M. & Beal, J.A. 1929. Experiments with bluestain fungi in southern pines. Phytopathology, 19, 1101-06.
Norris, D.M. 1979. The mutualistic fungi of Xyleborusbeetles. In: Insect-Fungus Symbiosis, L.R. Batra (Ed.). Montclair, NJ: Allanheld, Osmun & Co.
Okada, G., Seifert, K.A., Takematsu, A., Yamaoka, Y., Miyazaki, S.& Tubaki, K. 1998. A molecular phylogenetic reappraisal of theGraphium complex based on 18S rDNA sequences. Canadian Journal of Botany, 76, 1495-1506.
Okada, G., Jacobs, K., Kirisits, T., Louis-Seize, G.W., SeifertK.A., Sugita, T., Takematsu, A. & Wingfield, M.J. 2000. Epitypification of Graphium penicillioides Corda, with comments on the phylogeny and taxonomy of Graphium-like synnematous fungi. Studies in Mycology, 45, 169-88.
Paine, T.D., Raffa K.F., & Harrington T.C. 1997. Interactions among scolytid bark beetles, their associated fungi, and live host conifers. Annual Review of Entomology, 42, 179-206.
Paulin-Mahady, A.E., Harrington, T.C. & McNew, D. 2002. Phylogenetic and taxonomic evaluation of Chalara Chalaropsis, and Thielaviopsisanamorphs associated withCeratocystis. Mycologia, 94, 62-72.
Pfeffer, A. 1995. Zentral- und westpalearktische Borken- und Kernkäfer (Coleoptera: Scolytidae, Platypodidae). Basel, Schweiz: Pro Entomologia, c/o Naturhistorisches Museum Basel.
Pignal, M.C., Chararas, C. & Bourgeay-Causse, M. 1988. Yeastsfrom Ips sexdentatus(Scolytidae). Mycopathology, 103,43-48.
Piou, D., Lieutier, F. & Yart, A. 1989. Observations symptomatologiques er rôles possibles d’Ophiostoma minusHedgc. (ascomycète: Ophiostomatales) et de Tomicuspiniperda L. (Coleoptera: Scolytidae) dans le dépperissementdu pin sylvestre en forêt d’Orléans. Annales des Sciences Forestières, 46, 39-53.
Postner, M. 1974. Scolytidae (Ipidae), Borkenkäfer. In. Die Forstschädlinge Europas, Band 2., W. Schwencke (Ed.). Hamburg, Berlin: Paul Parey Verlag.
Raffa, K.F. & Klepzig, K.D. 1992. Tree Defense Mechanisms Against Fungi Associated with Insects. In. Defense Machanisms of Woody Plants Against Fungi, R.A. Blanchette, A.R. Biggs(Eds.). New York, Berlin, Heidelberg: Springer.
Redfern, D.B., Stoakley, J.T., Steele, H. & Minter, D.W. 1987. Dieback and death of larch caused by Ceratocystis laricicolasp. nov. following attack byIps cembrae. Plant Pathology,36, 467-80.
Redfern, D.B. 1989. The roles of the bark beetle Ipscembrae, the woodwasp Urocerus gigas and associated fungi in dieback and death of larches. In. Insect-FungusInteractions. 14th Symposium of the Royal Entomological Society of London in collaboration with the British Mycological Society, N. Wilding, N.M. Collins, P. M. Hammond, J.F. Webber (Eds.). London: Academic Press.
Rennerfelt, E. 1950. Über den Zusammenhang zwischen demVerblauen des Holzes und den Insekten. Oikos, 2, 120-37.
Rollins, F., Jones, K.G., Krokene, P., Solheim, H. & Blackwell,M. 2001. Phylogeny of asexual fungi associated with bark and ambrosia beetles. Mycologia, 93, 991-96.
Roux, J., Wingfield, M.J., Bouillett, J.-P., Wingfield, B.D. &Alfenas, A.C. 2000. A serious new wilt disease of Eucalyptuscaused by Ceratocystis fimbriata in Central Africa. European Journal of Forest Pathology, 30, 175-84.
Salle, A., Yart, A., Garcia, J., Romary, P. & Lieutier, F.2003. Fungi associated with Ips typographus (L.) in France:Virulence and diversity in relation to bark beetle populationlevels. In. Book of Abstracts of a meeting of IUFRO working party S7.03.05 (Integrated Control of Scolytid Bark Beetles). Blodgett Forest Research Station, George town, California, September 29 –October 2, 2003.
Schedl, K. 1964. Biologie des gehöckerten Eichenholzbohrers,Xyleborus monographus Fab. (Scolytidae, Coleoptera). Zeitschrift für Angewandte Entomologie, 53, 411-28.
Scheffer, T.C. 1986. O2 requirements for growth and survival of wood-decaying and sapwood-staining fungi. Canadian Journal of Botany, 64, 1957-63.
Schmidberger, J. 1836. Naturgeschichte des ApfelborkenkäfersApate dispar. Beiträge zur Obstbaumzucht und zurNaturgeschichte der den Obstbäumen schädlichen Insekten,4, 213-30
Schwerdtfeger, F. 1981. Die Waldkrankheiten. 4. Auflage. Hamburg, Berlin: Paul Parey Verlag.
Seifert, K.A. 1993. Sapstain of commercial lumber by species ofOphiostoma and Ceratocystis. In. Ophiostoma and Ceratocystis: Taxonomy, Ecology and Pathogenicity, M.J. Wingfield, K.A. Seifert, J.F. Webber (Eds.). St. Paul, Minnesota: APS Press.
Siemaszko, W. 1939. Zepoly grzybòw towarzyszacych kornikompolskim [Fungi associated with bark-beetles in Poland]. Plantapolonica, 7, 1-54.
Simsek, Z. 1994. Die Entwicklung eines halbsynthetischen Brut- undNährmediums für Fichtenborkenkäfer (IpstypographusL. und Pityogenes chalcographusL.). Dissertation, Universität für Bodenkultur Wien.
Simsek, Z. & Führer, E. 1993. KünstlichesNähr- und Brutmedium für Ips typographus L. (Col.,Scolytidae). Journal of Applied Entomology, 116, 432-39.
Six, D.L. 2003. Bark Beetle-Fungus Symbioses. In. Insect Symbiosis. Contemporary Topics in Entomology Series, K.Bourtzis, T.A. Miller (Eds.). Boca Raton, London, New York,Washington D.C.: CRC Press.
Solheim, H. 1986. Species of Ophiostomataceae isolated from Picea abiesinfested by the bark beetle Ips typographus. Nordic Journal of Botany, 6, 199-207.
Solheim, H. 1988. Pathogenicity of some Ips typographus associated blue-stain fungi to Norway spruce. Meddelelser fraNorsk institutt for skogforskning, 40, 1-11.
Solheim, H. 1991. Oxygen deficiency and spruce resin inhibition of growth of fungi associated with Ips typographus. Mycological Research, 95, 1387-92.
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 spruceinfested by the bark beetle Ips typographus. European Journal of Forest Pathology, 22, 136-48.
Solheim, H. 1993. Fungi associated with the spruce bark beetleIps typographus in an endemic area in Norway. Scandinavian Journal of Forest Research, 8, 118-22.
Solheim, H. & Långström, B. 1991. Blue-stain fungi associated with Tomicus piniperda in Sweden and preliminary observations on their pathogenicity. Annales des Sciences Forestières, 48, 149-56.
Solheim, H. & Safranyik L. 1997. Pathogenicity to Sitka spruce of Ceratocystis rufipenni and Leptographium abietinum, blue-stain fungi associated with the spruce bark beetle. Canadian Journal of Forest Research, 27, 1336-41.
Solheim, H., Långström, B. & Hellqvist, C. 1993. Pathogenicity of the blue-stain fungi Leptographium wingfieldiiand Ophiostoma minus to Scots pine: effect of tree pruning and inoculum density. Canadian Journal of Forest Research, 23, 1438-43.
Solheim, H., Krokene, P. & Långström, B. 2001. Effects of growth and virulence of associated blue-stain fungi on hostcolonization behaviour of the pine shoot beetles Tomicusminor and T. piniperda. Plant Pathology, 50, 111-16.
Spatafora, J.W. & Blackwell, M. 1994. The polyphyletic origins of ohiostomatoid fungi. Mycological Research, 98, 1-9.
Stauffer, C., Kirisits, T., Nussbaumer, C., Pavlin, R. &Wingfield, M.J. 2001. Phylogenetic relationships between the European and Asian eight spined larch bark beetle populations (Coleoptera, Scolytidae) inferred from DNA sequences and fungalassociates. European Journal of Entomology, 98, 99-105.
Strongman, D.B. 1986. A method for rearing Dendroctonusponderosae Hopk. (Coleoptera: Scolytidae) from eggs to pupae on host tissue with or without a fungal complement. The Canadian Entomologist, 118, 1309-11.
Upadhyay, H.P., 1981. A monograph of Ceratocystis and Ceratocystiopsis. Athens: The University of Georgia Press.
Upadhyay, H.P. & Kendrick, W.B., 1975. Prodromus for a revision of Ceratocystis (Microascales, Ascomycetes) and its conidialstate. Mycologia, 67, 798-805.
Valkama, H. 1995. Does Ips duplicatus transport sapwoodstaining fungi? In. Bark beetles, blue-stain fungi, andconifer defence systems, E. Christiansen (Ed.). Proceedings froma symposium held at the Norwegian Forest Research Institute(NISK), 31 July - 2 August, 1995, Ås, Norway. Aktuelt fraSkogforsk, 6, 44-45.
Van Wyk, P.W.J. & Wingfield M.J. 1990. Ascospore development inCeratocystis lato(Fungi): a review. Bothalia, 20, 141-45.
Van Wyk, P.W.J., Wingfield, M.J. & Van Wyk, P. S. 1993. Ultrastructure of centrum and ascospore development in selectedCeratocystis and Ophiostomaspecies. In. Ophiostoma and Ceratocystis: Taxonomy, Ecology and Pathogenicity, M.J. Wingfield, K.A. Seifert, J.F. Webber (Eds.). St. Paul, Minnesota: APS Press.
Viiri H. 1997. Fungal associates of the spruce bark beetle Ips typographus L. (Col., Scolytidae) in relation to different trapping methods. Journal of Applied Entomology, 121, 529-33.
Viiri, H. & Weissenberg, K. von 1995. Ophiostomablue-staining fungi associated with Ips typographus in Finland. Aktuelt fra Skogforsk, 4 1995, 58-60.
Viiri, H. & Lieutier, F. 2003. Ophiostomatoid fungi associated with the spruce bark beetle, Ips typographus, in post-epidemic areas in France. Annals of Forest Science, in press.
Webber, J.F. 1990. Relative effectiveness of Scolytusscolytus S. multistriatusand S. kirschias vectors of Dutch elm disease. European Journal of Forest Pathology, 20,184-92.
Webber, J.F. 2000. Insect Vector Behaviour and the Evolution of Dutch Elm Disease. In. The Elms – Breeding and Conservation, C.P. Dunn (Ed.). Dordrecht: Kluwer.
Webber J.F. & Brasier C.M. 1984. The transmission of Dutch elmdisease: a study of the processes involved. In. Invertebrate-microbial interactions. Joint symposium of the British Mycological Society and the British Ecological Societyheld at the University of Exter, September 1982, J.M. Anderson, A.D.M. Rayner, D.W.H. Walton (Eds.). Cambridge: Cambridge University Press.
Webber J.F. & Gibbs J.N. 1989. Insect Dissemination of Fungal Pathogens of Trees. In. Insect-Fungus Interactions. 14th Symposium of the Royal Entomological Society of London incollaboration with the British Mycological Society, N. Wilding, N.M. Collins, P. M. Hammond, J.F. Webber (Eds.). London: Academic Press.
Whitney, H.S. 1971. Association of Dendroctonus ponderosae(Coleoptera: Scolytidae) with blue stain fungi and yeasts during brood development in lodgepole pine. Canadian Entomologist 103,1495-1503.
Whitney, H.S. 1982. Relationships between bark beetles andsymbiotic organisms. In. Bark Beetles in North AmericanConifers, J.B. Mitton, K.B. Sturgeon (Eds.). Austin: Universityof Texas Press.
Whitney, H.S., Bandoni, R.J. & Oberwinkler, F. 1987. Entomocorticium dendroctinigen. et sp. nov. (Basidiomycotina), a possible nutritional symbiote of the mountain pine beetle in lodgepole pine in British Columbia. Canadian Journal of Botany,65, 95-102.
Wingfield, M.J. 1993. Problems in delineating the genus Ceratocystiopsis. In. Ophiostoma and Ceratocystis: Taxonomy,Ecology and Pathogenicity, M.J. Wingfield, K.A. Seifert, J.F.Webber (Eds.). St.Paul, Minnesota: APS Press.
Wingfield, M.J. & Gibbs, JN. 1991. Leptographiumand Graphiumspecies associated with pine-infesting bark beetles in England. Mycological Research, 95, 1257-60.
Wingfield, M., Seifert, K. A. & Webber, J. F. (Eds.) 1993. Ophiostoma and Ceratocystis: Taxonomy, Ecology and Pathogenicity. St. Paul, Minnesota: APS Press.
Wingfield, M.J., Harrington, T.C. & Solheim, H., 1995. Doconifer bark beetles require fungi to kill trees? In. Barkbeetles, blue-stain fungi, and conifer defence systems, E.Christiansen (Ed.). Proceedings from a symposium held at the Norwegian Forest Research Institute (NISK), 31 July - 2 August,1995, Ås, Norway. Aktuelt fra Skogforsk, 6, 6.
Wingfield, M.J., Harrington, T.C. & Solheim, H. 1997. Two new species in the Ceratocystis coerulescenscomplex from conifers in western North America. Canadian Journal of Botany, 75,827-34.
Wood, S.L. 1982. The bark and ambrosia beetles of North and Central America (Coleoptera: Scolytidae), a taxonomic monograph. Great Basin Naturalist Memoirs, 6, 1-1359.
Wood, S.L. & Bright, D.E., 1992. A catalog of Scolytodae and Platypodidae (Coleoptera), Part 2: Taxonomic Index. Great BasinNaturalist Memoirs, 13, 1-1553.
Yamaoka, Y., Wingfield, M.J., Takahashi, I. & Solheim, H. 1997. Ophiostomatoid fungi associated with the spruce bark beetle Ips typographus f. japonicusin Japan. Mycological Research, 101, 1215-27.
Yamaoka, Y., Wingfield, M.J., Ohsawa, M. & Kuroda, Y. 1998. Ophiostomatoid fungi associated with Ips cembraein Japanand their pathogenicity to Japanese larch. Mycoscience, 39,267-378.
Yamaoka, Y., Takahashi, I. & Iguchi, K. 2000. Virulence of ophiostomatoid fungi associated with the spruce bark beetle Ips typographus f. japonicus in Yezo spruce. Journal ofForest Research, 5, 87-94.
Yearian, W.C., Gouger, R.J. & Wilkinson, R.C. 1972. Effecets of the bluestain fungus Ceratocystis ips on development of Ipsbark beetles in pine bolts. Annals of the Entomological Society of America, 65, 481-87.
Zhou, X.D., De Beer, Z.W., Harrington, T.C., McNew, D., Kirisits,T. & Wingfield, M.J. 2004. Ophiostoma geleiformis andphylogeny of species in the O. galeiformis. complex.Mycologia, accepted.
Zimmermann, G. 1973. Vergleichende ökologisch-physiologische Untersuchungen an Ambrosiapilzen, Assoziierten Bläuepilzen undLuftbläuepilzen. Dissertation, Georg-August-UniversitätGöttingen.
Zimmermann, G. & Butin, H. 1973. Untersuchungen über Hitze-und Trockenresistenz holzbewohnender Pilze. Flora, 162, 393-419.
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Kirisits, T. (2007). Fungal Associates of European Bark Beetles With Special Emphasis on the Ophiostomatoid Fungi. In: Lieutier, F., Day, K.R., Battisti, A., Grégoire, JC., Evans, H.F. (eds) Bark and Wood Boring Insects in Living Trees in Europe, a Synthesis. Springer, Dordrecht. https://doi.org/10.1007/978-1-4020-2241-8_10
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