Stimulation of tree defenses by Ophiostomatoid fungi can explain attack success of bark beetles on conifers (original) (raw)
References
Anderbrandt O., Schlyter F., and Lofqvist J., 1988. Dynamics of tree attack in the bark beetle Ips typographus under semi-epidemic conditions. In: T.L. Payne and H. Saarenmaa (Eds.), Integrated control of Scolytid bark beetle, Blacksburg: Virginia Polytech Institute State University, pp. 35–51. Google Scholar
Aukema B.H., Werner R.A., Haberkern K.E., Illman B.L., Clayton M.K., and Raffa K.F., 2005. Quantifying sources of variation in the frequency of fungi associated with spruce beetles: Implications for hypothesis testing and sampling methodology in bark beetle-symbiont relationships. For. Ecol. Manage., 10, 187–202. Article Google Scholar
Ayres M.P., Wilkens R.T., Ruel J.J., Lombardero M.J., and Vallery E., 2000. Nitrogen budgets of phloem-feeding bark beetles with and without symbiotic fungi (Coleoptera: Scolytidae). Ecology 81: 2198–2210. Article Google Scholar
Barras S.J., 1970. Antagonism between Dendroctonus frontalis and the fungus Ceratocystis minor. Ann. Entomol. Soc. Am. 63: 1187–1190. Google Scholar
Basham H.G., 1970. Wilt of loblolly pine inoculated with blue-stain fungi of the genus Ceratocystis. Phytopathology 60: 750–754. Article Google Scholar
Ben Jamaa M.L., Lieutier F., Yart A., Jerraya A., and Khouja M.L., 2007. Phytopathogenic fungi associated with the bark beetles Tomicus piniperda and Orthotomicus erosus in Tunisia; study of the virulence of some isolates. For. Pathol. 37: 51–63. Google Scholar
Berryman A.A., 1972. Resistance of conifers to invasion by bark beetlefungus associations. BioScience 22: 298–602. Article Google Scholar
Berryman A.A., 1976. Theoretical explanation of mountain pine betle dynamics in lodgepole pine forests. Environ. Entomol. 5: 1225–1233. Google Scholar
Berryman A.A., 1982. Population dynamics of bark beetles. In: J.B. Mitton and K.B. Sturgeon (Eds.), Bark beetles in North American conifers, Austin, Univ. Texas, pp. 264–314. Google Scholar
Bleiker K.P. and Six D.L., 2007. Dietary benefits of fungal associates to an eruptive herbivore: potential implications of multiple associates on host population dynamics. Environ. Entomol. 36: 1384–1396. ArticlePubMedCAS Google Scholar
Bleiker K.P. and Six D.L., 2009. Competition and coexistence in a multipartner mutualism: interactions between two fungal symbionts of the mountain pine beetle in beetle-attacked trees. Microb. Ecol. 57: 191–202. ArticlePubMedCAS Google Scholar
Bois E. and Lieutier F. 1997. Phenolic response of Scots pine clones to inoculation with Leptographium wingfieldii, a fungus associated with Tomicus piniperda. Plant Physiol.Biochem. 35: 819–825. CAS Google Scholar
Bridges J.R., 1983. Mycangial fungi of Dendroctonus frontalis (Coleoptera: Scolytidae) and their relationship to beetle population trends. Environ. Entomol. 12: 858–861. Google Scholar
Bridges J.R., Nettleton W.A., and Conner M.D., 1985. Southern pine beetle (Coleoptera: Scolytidae) infestations without the blue-stain fungus, Ceratocystis minor. J. Econ. Entomol. 78: 325–27. Google Scholar
Brignolas F., Lieutier F., Sauvard D., Yart A., Drouet A., and Claudot A.-C., 1995. Changes in soluble phenol content of Norway spruce (Picea abies Karst.) phloem in response to wounding and inoculation with Ophiostoma polonicum. Eur. J. For. Pathol. 25: 253–65. Article Google Scholar
Brignolas F., Lieutier F., Sauvard D., Christiansen E., and Berryman A.A., 1998. Phenolic predictors for Norway spruce resistance to the bark beetle Ips typographus (Coleoptera: Scolytidae) and an associated fungus, Ceratocystis polonica. Can. J. For. Res., 28: 720–28. CAS Google Scholar
Cardoza Y.J., Klepzig K.D., and Raffa K.F., 2006. Bacteria in oral secretions of an endophytic insect inhibit antagonistic fungi. Ecol. Entomol. 31: 636–645. Article Google Scholar
Cardoza Y.J., Moser J.C., Klepzig K.D., and Raffa K.F., 2008 Multipartite symbioses among fungi, mites, nematodes, and the spruce beetle, Dendroctonus rufipennis. Environ. Entomol. 37: 956–963. ArticlePubMed Google Scholar
Chararas C., 1962. Scolytides des conifères. Lechevalier Ed., Paris, 556p.
Christiansen E., 1985a. Ceratocystis polonica inoculated in Norway spruce: Blue-staining in relation to inoculum density, resinosis and tree growth. Eur. J. For. Pathol. 15: 160–167. Article Google Scholar
Christiansen E., 1985b. Ips/Ceratocystis infection of Norway spruce: what is a deadly dosage? Z. Angew. Entomol. 99: 6–11. Article Google Scholar
Christiansen E. and Glosli A.M., 1996. Mild drought enhances the resistance of Norway spruce to a bark beetle-transmitted blue-stain fungus. In: W.J. Mattson, P. Niemela, and M. Rousi (Eds.), Dynamics of forest herbivory: Quest for pattern and principle, USDA For. Serv. Gen. Tech. Rep. NC-183, pp. 192–99.
Christiansen E., Waring R.H., and Berryman A.A., 1987. Resistance of conifers to bark beetle attacks: searching for general relationships. For. Ecol. Manage. 22: 89–106. Article Google Scholar
Colineau B. and Lieutier F., 1994. Production of Ophiostoma-free adults of Ips sexdentatus Boern. (Coleoptera: Scolytidae) and comparison with naturally contaminated adults. Can. Entomol. 126: 103–10. Article Google Scholar
Cook S.P. and Hain F.P., 1987. Four parameters of the wound response of loblolly and shortleaf pines to inoculations with the blue-staining fungus associated with the southern pine beetle. Can. J. Bot. 65: 2403–2409. Article Google Scholar
Cook S.P., Hain F.P., and Nappen P.B., 1986. Seasonality of hypersensitive response by loblolly and shortleaf pine to inoculation with a fungal associate of the southern pine beetle (Coleoptera: Scolytidae). J. Entomol. Sci. 21: 283–285. Google Scholar
Coulson R.N., 1979, Poulation dynamics of bark beetles. Annu. Rev. Entomol. 24: 417–447. Article Google Scholar
Croisé L. and Lieutier F., 1993, Effect of drought on the induced defence reaction of Scots pine to bark beetle associated fungi. Ann. Sci. for. 50: 91–97. Article Google Scholar
Croisé L., Lieutier F., and Dreyer E., 1998a. Scots pine responses to number and density of inoculation points with Leptographium wingfieldii Morelet, a bark beetle-associated fungus. Ann. Sci. For. 55: 497–506. Article Google Scholar
Croisé L., Dreyer E., and Lieutier F., 1998b, Effects of drought stress and severe prunning on the reaction zone induced by single inoculations with a bark beetle associated fungus (Ophiostoma ips) in the phloem of young Scots pines. Can. J. For. Res. 28: 1814–1824. Article Google Scholar
Delorme L. and Lieutier F., 1990. Monoterpene composition of the preformed and induced resins of Scots pine, and their effect on bark beetles and associated fungi. Eur. J. For. Pathol. 20: 304–16. Article Google Scholar
Dymerski A.D., Anhold J.A., and Munson A.S., 2001. Spruce beetle (Dendroctonus rufipennis) outbreaks in Engelmann spruce (Picea engelmanni) in central Utah, 1986–1998. West. N. Am. Nat., 61: 19–24. Google Scholar
Eckhardt L.G., Goyer R.A., Klepzig K.D., and Jones J.P., 2004. Interactions of Hylastes species (Coleoptera: Scolytidae) with Leptographium species associated with loblolly pine decline. J. Econ. Entomol. 97: 468–474. ArticlePubMed Google Scholar
Filip G.M., Christiansen E., and Parks C., 1989. Secondary resin production increases with vigor of Abies grandis inoculated with Trichosporium symbioticum in Northeastern Oregon. USDA FS, PNW-RN 489, 1–10.
Franceschi V.R., Krokene P., Christiansen E., and Krekling T., 2005. Anatomical and chemical defenses of conifers against bark beetles and other pests. New Phytol. 167: 353–376. ArticlePubMedCAS Google Scholar
Francke-Grosmann H., 1963. Some new aspects in forest entomology. Annu. Rev. Entomol. 8: 415–438. Article Google Scholar
Francke-Grosmann H., 1967. Ectosymbiosis in wood-inhabiting insects. In: S.M. Henry (Ed.), Symbiosis, Vol. 2, Academic Press, New York, London. Google Scholar
Furniss R.L. and Carolin V.M., 1977. Western Forest Insects. USDA For. Serv. Misc. Publ. N∘ 1339, 654 p.
Grégoire J.C. and Evans H.F., 2004. Damage and control of BAWBILT organisms, an overview. In: F. Lieutier, K.R. Day, A. Battisti, J.C. Grégoire, and H.J. Evans (Eds.), Bark and wood boring insects in living trees in Europe, a synthesis, Kluwer Acad. Publ., Dordrecht, pp. 19–37. Chapter Google Scholar
Guérard N., Dreyer E., and Lieutier F., 2000. Interactions between Scots pine, Ips acuminatus (Gyll.) and Ophiostoma brunneo-ciliatum (Math.): estimation of critical thresholds of attack and inoculation densities and effect on hydraulic properties of the stem. Ann. For. Sci. 57: 681–690. Article Google Scholar
Harding S., 1989. The influence of mutualistic blue-stain fungi on bark beetle population dynamics. Ph.D thesis, Royal Veterinary and Agricultural University Copenhagen.
Harrington T.C., 1993a. Diseases of conifers caused by species of Ophiostoma and Leptographium. In: M.J. Wingfield, K.A. Seifert, and J.F. Webber (Eds.), Ophiostoma and Ceratocystis: Taxonomy, Ecology and Pathogenicity, APS Press, St Paul, Minnesota, pp. 161–172. Google Scholar
Harrington T.C., 1993b. Biology and taxonomy of fungi associated with bark beetles. In: T.D. Schowalter and G.M. Filip (Eds.), BeetlePathogen Interactions in Conifer Forests, New York: Academic Press, pp. 37–58. Google Scholar
Harrington T.C., 2005. Ecology and evolution of mycetophagous bark beetles and their fungal partners. In: F.E. Vega and M. Blackwell (Eds.), Insect-fungal associations, ecology and evolution, Oxford University Press, pp. 257–289.
Harrington T.C. and Cobb F.W. Jr., 1983. Pathogenicity of Leptographium and Verticicladiella spp. Isolated from roots of western North American conifers. Phytopathology 73: 596–599. Article Google Scholar
Harrington T.C. and Wingfield M.J., 1998. The Ceratocystis species on conifers. Can. J. Bot. 76: 1446–57 Google Scholar
Hetrick L.A., 1949. Some overlooked relationships of southern pine beetle. J. Econ. Entomol. 42: 466–469. Google Scholar
Highley L. and Tattar T.A., 1985. Leptographium terebrantis and black turpentine beetles associated with blue stain and mortality of black and Scots pine on Cape Cod, Massachussets. Plant Dis. 69: 528–530. Article Google Scholar
Hobson K.R., Parmeter J.R. Jr., and Wood D.L. 1994. The role of fungi vectored by Dendroctonus brevicomis Leconte (Coleoptera: Scolytidae) in occlusion of ponderosa pine xylem. Can. Entomol. 126: 277–282. Article Google Scholar
Hofstetter R.W., Cronin J.T., Klepzig K.D., Moser J.C., and Ayres M.P., 2006. Antagonisms, mutualisms and commensalisms affect outbreak dynamics of the southern pine beetle. Oecologia, 147: 679–691. ArticlePubMed Google Scholar
Hofstetter R.W., Dempsey T.D., Klepzig K.D., and Ayres M.P., 2007. Temperature-dependent effects on mutualistic, antagonistic, and commensalistic interactions among insects, fungi and mites. Community Ecol. 8: 47–56. Article Google Scholar
Horntvedt R., Christiansen E., Solheim H., and Wang, S., 1983. Artificial inoculation with Ips typographus-associated blue-stain fungi can kill healthy Norway spruce trees. Medd. fra Norsk. Skogforsk. 38: 1–20. Google Scholar
Jacobs K. and Wingfield M.J., 2001. Leptographium species, Insect associates and Agents of Blue Stain, APS Press, St Paul, Minnesota, 207 p. Google Scholar
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. For. Pathol. 35: 37–55. Google Scholar
Kelley S.T. and Farrell B.D., 1998. Is specialization a dead end? The phylogeny and host use in Dendroctonus bark beetles (Scolytidae). Evolution 52: 1731–1743. ArticleCAS Google Scholar
Kim J-J., Plattner A., Lim Y.W., and Breuil C., 2008. Comparison of two methods to asses the virulence of the mountain pine beetle associate, Grosmannia clavigera, to Pinus contorta. Scand. J. For. Res. 23: 98–104. Article Google Scholar
Kirisits T., 1998. Pathogenicity of three blue-stain fungi associated with the bark beetle Ips typographus to Norway spruce in Austria. Österr. Z. Pilzk. 7: 191–201. Google Scholar
Kirisits T., 1999. Report on a strain of the pathogenic blue-stain fungus Ceratocystis polonica with low virulence. Osterr. Z. Piltz. 8: 157–167. Google Scholar
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. Dissertation thesis, Universität für Bodenkultur Wien.
Kirisits T., 2004. Fungal associates of European bark beetles with special emphasis on the Ophiostomatoid fungi. In: F. Lieutier, K.R. Day, A. Battisti, J.C. Grégoire, and H.F. Evans (Eds.), Bark and wood boring insects in living trees in Europe, a synthesis, Kluwer, Dordrecht, pp. 181–235. Chapter Google Scholar
Kirisits T., Grubelnik R., and Führer E., 2000. Die ökologische Bedeutung von Bläuepilzen für rindenbrütende Borkenkäfer. In: F. Müller (Ed.), Mariabrunner Waldbautage 1999 — Umbau sekundärer Nadelwälder, Vienna, Schriftenreihe der Forstlichen Bundesversuchsanstalt Wien, FBVA-Berichte, 111, pp. 117–137. Google Scholar
Klepzig K.D. and Six D.L., 2004. Bark beetle-fungal symbiosis: context dependency in complex associations. Symbiosis 37: 189–205. Google Scholar
Klepzig K.D., Raffa K.F., and Smalley E.B., 1991. Association of an insect-fungal complex with red pine decline in Wisconsin. For. Sci. 37: 1119–1139. Google Scholar
Klepzig K.D., Smalley E.B., and Raffa K.F., 1995. Dendroctonus valens and Hylastes porculus (Coleoptera: Scolytidae): vectors of pathogenic fungi (Ophiostomatales) associated with red pine decline disease. Great Lakes Entomol. 28: 81–87. Google Scholar
Klepzig K.D., Moser J.C., Lombardero M.J., Ayres M.P., Hofstetter R.W., and Walkinshaw C.J., 2001a. Mutualism and antagonism: ecological interactions among bark beetles, mites and fungi. In: M.J. Jeger and N.J. Spence (Eds.), Biotic interactions in plant-pathogen associations, CAB International, pp. 237–267.
Klepzig K.D., Moser J.C., Lombardero F.J., Hofstetter R.W., and Ayres M.P., 2001b. Symbiosis and competition: complex interactions among beetles, fungi and mites. Symbiosis 30: 83–96. Google Scholar
Knizek M. and Beaver R., 2004. Taxonomy and systematic of bark and ambrosia beetles. In: F. Lieutier, K.R. Day, A. Battisti, J.C. Grégoire, and H.J. Evans (Eds.), Bark and wood boring insects in living trees in Europe, a synthesis, Kluwer Acad. Publ., Dordrecht, pp. 41–54. Chapter Google Scholar
Krokene P. 1996. The role of blue-stain fungi in tree-killing by bark beetles. Thesis, University of Oslo.
Krokene P. and Solheim H., 1997. Growth of four bark-beetle-associated blue-stain fungi in relation to the induced wound response in Norway spruce. Can. J. Bot. 75: 618–625. Article Google Scholar
Krokene P. and Solheim H., 1998. Pathogenicity of four blue-stain fungi associated with aggressive and nonaggressive bark beetles. Phytopathology 88: 39–44 ArticlePubMedCAS Google Scholar
Krokene P. and Solheim H., 1999. What do low density inoculations with fungus tell us about fungal virulence and tree resistance? In: Lieutier F. Mattson W.J., and Wagner M.R. (Eds.), Physiology and genetics of tree-phytophage interactions, INRA Editions, Versailles, pp. 353–362. Google Scholar
Långström B. and Hellqvist C., 1988. Scots pine resistance against Tomicus piniperda as related to tree vitality and attack density. In: Payne T.L. and Saarenmaa H. (Eds.), Integrated control of scolytid bark beetles, Virginia Polytech. Inst. St. Univ., Blacksburg, pp. 121–133. Google Scholar
Långström B. and Hellqvist C., 1993. Scots pine susceptibility to attack by Tomicus piniperda (L) as related to pruning date and attack density. Ann. Sci. For. 50: 101–117. Article Google Scholar
Långström B., Hellqvist C., Ericsson A., and Gref D., 1992. Induced defense reaction in Scots pine following stem attacks by Tomicus piniperda L. Ecography 15: 318–327. Article Google Scholar
Långström B., Solheim H., Hellqvist C., and 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. Eur. J. For. Pathol. 23: 400–415. Article Google Scholar
Lee S., Kim J.-J., and Breuil C., 2006. Diversity of fungi associated with mountain pine beetle, Dendroctonus ponderosae, and infested lodgepole pines in British Columbia. Mountain Pine beetle Research Initiative Working Paper 2006–06, 20 p.
Lévieux J., Cassier P., Guillaumin D., and Roques A., 1991. Structures implicated in the transportation of pathogenic fungi by the European bark beetle, Ips sexdentatus Boerner: Ultrastructure of a mycangium. Can. Entomol. 123: 245–54. Article Google Scholar
Lieutier F., 1992. Les réactions de défense des conifères et stratégies d’attaque de quelques Scolytides européens. Mém. Soc. Roy. belge Entomol. 35: 529–539. Google Scholar
Lieutier F., 1995. Associated fungi, induced reaction and attack strategy of Tomicus piniperda (Coleoptera: Scolytidae) in Scots pine. In: F.P. Hain, S.M. Salom, W.F. Ravlin, T.L. Payne, and K.F. Raffa (Eds.), Behavior, Population Dynamics and Control of Forest Insects, Proceedings International Union Forestry Research Organizations Joint Conference, February 1994 Maui, Hawaï, pp. 139–153.
Lieutier F., 2002. Mechanisms of resistance in conifers and bark beetle attack strategies. In: M.R. Wagner, K.M. Clancy, F. Lieutier, and T.D. Paine (Eds.), Mechanisms and deployment of resistance in trees to insects, Kluwer, Dordrecht, pp. 31–75. Chapter Google Scholar
Lieutier F., 2004. Host resistance to bark beetles and its variations. In: F. Lieutier, K. Day, A. Battisti, J.C. Grégoire, and H. Evans (Eds.), Bark and wood boring insects in living trees in Europe, A synthesis, Kluwer, Dordrecht, pp. 135–180. Chapter Google Scholar
Lieutier F., Yart A., Garcia J., Poupinel B., and Lévieux J., 1988. Do fungi influence the establishment of bark beetles in Scots pine? In: W.J. Mattson, J. Lévieux, and C. Bernard-Dagan (Eds.), Mechanisms of woody plant defenses against insects: search for pattern, Springer, New York, pp. 321–334. Google Scholar
Lieutier F., Cheniclet C., and Garcia J., 1989a. Comparison of the defense reactions of Pinus pinaster and Pinus sylvestris to attacks by two bark beetles (Coleoptera: Scolytidae) and their associated fungi. Environ. Entomol. 18: 228–234. Google Scholar
Lieutier F., Yart A., Garcia J., Ham M.C., Morelet M., and Lévieux J., 1989b. Champignons phytopathogènes associés à deux Coléoptères Scolytidae du pin sylvestre (Pinus sylvestris L.) et étude préliminaire de leur agressivité envers l’hôte. Ann. Sci. For. 46: 201–216. Article Google Scholar
Lieutier F., Yart A., Garcia J., and Ham M-C., 1990. Cinétique de croissance des champignons associés à Ips sexdentatus Boern. et à Tomicus piniperda L. (Coleoptera: Scolytidae) et des réactions de défense des pins sylvestres (Pinus sylvestris L.) inoculés. Agronomie 10: 243–56. Article Google Scholar
Lieutier F., Yart A., Jay-Allemand C., and Delorme L. 1991a. Preliminary investigations on phenolics as a response of Scots pine phloem to attacks by bark beetles and associated fungi. Eur. J. For. Pathol. 21: 354–354. Article Google Scholar
Lieutier F., Garcia J., Yart A., Vouland G., Pettinetti M., and Morelet M., 1991b. Ophiostomatales (Ascomycetes) associées à Ips acuminatus (Coleoptera: Scolytidae) sur le pin sylvestre (Pinus sylvestris) dans le Sud-Est de la France, et comparaison avec Ips sexdentatus Boern. Agronomie 11: 807–817. Article Google Scholar
Lieutier F., Vouland G., Pettinetti M., Garcia J., Romary P., and Yart A., 1992. Defence reactions of Norway spruce (Picea abies Karst.) to artificial insertion of Dendroctonus micans Kug. (Coleoptera: Scolytidae). J. Appl. Entomol. 114: 174–186. Article Google Scholar
Lieutier F., Garcia J., Yart A., and Romary P., 1995. Wound reaction of Scots pine (Pinus sylvestris L.) to attacks by Tomicus piniperda L. and Ips sexdentatus Boern. (Coleoptera: Scolytidae). J. Appl. Entomol. 119: 591–600. Article Google Scholar
Lieutier F., Sauvard D., Brignolas F., Picron V., Yart A., Bastien C., and Jay-Allemand C., 1996. Changes in phenolic metabolites of Scots pine phloem induced by Ophiostoma brunneo-ciliatum, a barkbeetle-associated fungus. Eur. J. For. Pathol., 26, 145–158. Article Google Scholar
Lieutier F., Yart A., Ye H., Sauvard D., and Gallois V., 2004. Betweenisolate variations in the performances of Leptographium wingfieldii Morelet, a fungus associated with the bark beetle Tomicus piniperda L.Ann. For. Sci. 61: 45–53. Article Google Scholar
Lieutier F., Ghaioule D., and Yart A., 2005. Virulence and possible role of fungi associated with the bark beetles Tomicus piniperda L., and Orthotomicus erosus Woll. in Morocco. In: F. Lieutier and D. Ghaioule (Eds.), Entomological research in Mediterranean ecosystems, INRA Ed., Versailles, pp. 195–208. Google Scholar
Mathiesen A., 1950. Über einige mit Borkenkäfern assoziierte Bläuepilze in Schweden. Oikos 2: 275–308. Article Google Scholar
Mathiesen-Käärik A., 1953. Eine Übersicht über die gewöhnlichsten mit Borkenkäfern assoziierten Bläuepilze in Schweden und einige für Schweden neue Bläuepilze. Meddel. Frå. Stat. Skogforsk. Inst. 43: 1–74. Google Scholar
Mathre D.E., 1964a. Survey of Ceratocystis spp. associated with bark beetles in California. Contrib. Boyce Thomp. Inst. 22: 353–361. Google Scholar
Mathre D.E., 1964b. Pathogenicity of Ceratocystis ips and Ceratocystis minor to Pinus ponderosa. Contrib. Boyce Thomp. Inst. 22: 363–388. Google Scholar
Neal T.A. and Ross D.W., 1999. Pathogenicity to western larch (Larix occidentalis) of two fungi, Ophiostoma pseudotsugae and Leptographium abietinum, associated with the Douglas fir beetle (Coleoptera: Scolytidae). Agric. For. Entomol. 1: 203–207. Article Google Scholar
Nebeker T.E., Hodges J.D., and Blanche C.A. 1993. Host Response to Bark Beetle and Pathogen Colonization. In. T.D. Schowalter and G.M. Filip (Eds.), Beetle Pathogen Interactions in Conifer Forests, Academic Press, San Diego, pp. 157–173. Google Scholar
Owen D.R., Lindahl K.Q., Wood D.L., and Parmeter J.R.Jr., 1987. Pathogenicity of fungi isolated from Dendroctonus valens, D. brevicomis and D. ponderosae to ponderosa pine seedlings. Phytopathology 77: 631–636. Article Google Scholar
Paine T.D. and Birch M.C., 1983. Acquisition and maintenance of mycangial fungi by Dendroctonus brevicomis LeConte (Coleoptera: Scolytidae). Environ. Entomol. 12: 1384–1386. Google Scholar
Paine T.D. and Stephen F.M., 1987. Fungi associated with the southern pine beetle: avoidance of induced defense response in loblolly pine. Oecologia 74: 377–379. Article Google Scholar
Paine T.D., Raffa K.F., and Harrington T.C., 1997. Interactions among Scolytid bark beetles, their associated fungi, and live host conifers. Annu. Rev. Entomol. 42: 179–206. ArticlePubMedCAS Google Scholar
Parmeter J.R., Slaughter G.W., Chen M.M., and Wood D.L., 1992. Rate and depth of sapwood occlusion following inoculation of ponderosa pine with bluestain fungi. For. Sci. 38: 34–44. Google Scholar
Payne T.L., 1980. Life History & Habits. In: R.C. Thatcher, J.L. Searcy, J.E. Coster, and G.D. Hertel (Eds.), The southern pine beetle, USDA For. Serv. Sci. Educ. Admin. Tech. Bull. N∘ 1631, pp. 7–28.
Plattner A., Kim J-J., DiGiustini S., and Breuil C., 2008. Variation in pathogenicity of a mountain pine beetle-associated fungus, Grosmannia clavigera, on young lodgepole pine in British Columbia. Can J. Plant Pathol. 30: 1–10. Article Google Scholar
Raffa K.F., 1991. Induced defensive reactions in conifer-bark beetle systems. In: D.W. Tallamy and M.J. Raupp (Eds.), Phytochemical induction by herbivore, Wiley and Sons, pp. 245–276.
Raffa K.F., 2001. Mixed messages across multiple trophic levels: the ecology of bark beetle chemical communication systems. Chemoecology 11: 49–65. ArticleCAS Google Scholar
Raffa K.F. and Berryman A.A., 1982a. Accumulation of monoterpenes and associated volatiles following fungal inoculation of grant fir with a fungus transmitted by the fir engraver Scolytus ventralis (Coleoptera: Scolytidae). Can. Entomol. 114: 797–810. ArticleCAS Google Scholar
Raffa K.F. and Berryman A.A., 1982b. Gustatory cues in the orientation of Dendroctonus ponderosae (Coleoptera: Scolytidae) to host trees. Can. Entomol. 114: 97–104. ArticleCAS Google Scholar
Raffa K.F. and Berryman A.A., 1983a. The role of host plant resistance in the colonization behavior and ecology of bark beetles (Coleoptera: Scolytidae). Ecol. Monog. 53: 27–49. Article Google Scholar
Raffa K.F. and Berryman A.A., 1983b. Physiological aspects of lodgepole pine wound responses to a fungal symbiont of the mountain pine beetle, Dendroctonus ponderosae (Coleoptera: Scolytidae). Can. Entomol. 115: 723–34. Article Google Scholar
Raffa K.F. and Klepzig K.D., 1992. Tree defense mechanisms against fungi associated with insects. In: R.A. Blanchette and A.R. Biggs (Eds.), Defense Mechanisms of Woody Plants Against Fungi, Springer, New York, pp. 354–389. Google Scholar
Raffa K.F. and Smalley E.B., 1988. Response of red and Jack pines to inoculation with microbial associates of the pine engraver, Ips pini (Coleoptera: Scolytidae). Can. J. For. Res. 18: 581–586. Article Google Scholar
Raffa K.F., Phillips T.W., and Salom S.M., 1993. Strategies and mechanisms of host colonization by bark beetles. In: Schowalter T.D. and Filip G.M. (Eds.), Beetle-pathogen interactions in conifer forests, Academic Press, San Diego, pp. 103–128. Google Scholar
Rane K.K. and Tattar T.A., 1987. Pathogenicity of blue stain fungi associated with Dendroctonus terebrans. Plant Dis. 71: 879–883. Article Google Scholar
Redfern D.B., Stoakley J.T., Steele H., and Minter D.W., 1987. Dieback and death of larch caused by Ceratocystis laricicola sp. nov. following attack by Ips cembrae. Plant Pathol. 36: 467–80. Article Google Scholar
Reid R.W., Whitney H.S., and Watson J.A., 1967. Reactions of lodgepole pine to attack by Dendroctonus ponderosae Hopkins and blue stain fungi. Can. J. Bot. 45: 115–126. Google Scholar
Rennerfelt E., 1950. Über den Zusammenhang zwischen dem Verblauen des Holzes und den Insekten. Oikos 2: 120–37 Article Google Scholar
Reynolds K.M., 1992. Relations between activity of Dendroctonus rufipennis Kirby on Lutz spruce and blue stain associate with Leptographium abietinum (Peck) Wingfield. For. Ecol. Manage. 47: 71–86. Article Google Scholar
Rice A.V., Thormann M.N., and Langor D.W., 2007a. Mountain pine beetle associated blue-stain fungi cause lesions on jack pine, lodgepole pine, and lodgepole x jack pine hybrids in Alberta. Can. J. Bot. 85: 307–315. Article Google Scholar
Rice A.V., Thormann M.N., and Langor D.W., 2007b. Virulence of, and interactions among, mountain pine beetle associated blue-stain fungi on two pine species and their hybrids in Alberta. Can. J. Bot. 85: 316–323. Article Google Scholar
Rice A.V., Thormann M.N., and Langor D.W., 2008. Mountain pine beetle-associated blue-stain fungi are differentially adapted to boreal temperatures. For. Pathol. 38: 113–123. Google Scholar
Ross D.W. and Solheim H., 1997. Pathogenicity to Douglas fir of Ophiostoma pseudotsugae and Leptographium abietinum, fungi associated with the Douglas fir beetle. Can. J. For. Res. 27: 39–43. Article Google Scholar
Ross D.W., Fenn P., and Stephen F.M., 1992. Growth of southern pine beetle associated fungi in relation to the induced wound response in loblolly pine. Can. J. for. Res. 22: 1851–1859. Article Google Scholar
Russel C.E. and Berryman A.A., 1976. Host resistance to the fir engraver. 1. Monoterpene composition of Abies grandis pitch blisters and fungus-infested wounds. Can. J. Bot. 54: 14–18. Article Google Scholar
Safranyik L., Shrimpton D.M., and Whitney H.S., 1975. An Interpretation of the Interaction Between Lodgepole Pine, the Mounain Pine Beetle and its Associated Blue Stain Fungi in Western Canada. In: D. Baumgartner (Ed.), Management of Lodgepole Pine Ecosystems, Pullman: Wash. State Univ. Coop. Ext. Serv., pp. 406–428. Google Scholar
Sallé A., Monclus R., Yart A., Garcia J., Romary P., and Lieutier F., 2005. Fungal flora associated with Ips typographus: Frequency, virulence and ability to stimulate the host defence reaction in relation to insect population levels. Can. J. For. Res. 35: 365–373. Article Google Scholar
Sallé A., Ye H., Yart A., and Lieutier F., 2008. Pinus yunnanensis resistance to a bark beetle associated fungus is increased during a natural water stress. Tree Physiol. 28: 679–687. PubMed Google Scholar
Siemaszko W., 1939. Zepoly grzybów towarzyszacych kornikom polskim [Fungi associated with bark-beetles in Poland]. Planta Polonica 7: 1–54 + plates. Google Scholar
Six D.L., 2003. Bark beetle-fungus symbiosis. In: T. Miller and K. Kourtzis (Eds.), Insect symbiosis, CRC Press, pp. 97–114.
Six D.L. and Bentz B.J., 2003. Fungi associated with the North American spruce beetle, Dendroctonus rufipennis. Can. J. For. Res. 33: 1815–1820. Article Google Scholar
Six D.L. and Bentz B.J., 2007. Temperature determines symbiont abundance in a multipartite bark beetle-fungus ectosymbiosis. Microb. Ecol. 54: 112–118. ArticlePubMedCAS Google Scholar
Six D.L. and Klepzig K.D., 2004. Dendroctonus bark beetles as model systems for studies on symbiosis. Symbiosis 37: 207–232. Google Scholar
Six D.L. and Paine T.D., 1997. Ophiostoma clavigerum is the mycangial fungus of the Jeffrey pine beetle, Dendroctonus jeffreyi. Mycologia 89: 858–866. Article Google Scholar
Six D.L. and Paine T.D., 1998. Effects of mycangial fungi and host tree species on progeny survival and emergence of Dendroctonus ponderosae (Coleoptera: Scolytidae). Environ. Entomol. 27: 1393–1401. Google Scholar
Six D.L. and Paine T.D., 1999. Phylogenetic comparison of ascomycete mycangial fungi and Dendroctonus bark beetles (Coleoptera: Scolytidae). Ann. Entomol. Soc. Am. 91: 159–166. Google Scholar
Solheim H., 1986. Species of Ophiostomataceae isolated from Picea abies infested by the bark beetle Ips typographus. Nord. J. Bot. 6: 199–207 Article Google Scholar
Solheim H., 1988. Pathogenicity of some Ips typographus associated blue-stain fungi to Norway spruce. Medd. fra Norsk. Inst. Skogforsk. 40: 1–11. Google Scholar
Solheim H., 1991. Oxygen deficiency and spruce resin inhibition of growth of fungi associated with Ips typographus. Mycol. Res. 95: 1387–1392. Article Google Scholar
Solheim H., 1992a. The early stages of fungal invasion in Norway spruce infested by the bark beetle Ips typographus. Can. J. Bot. 70: 1–5. Article Google Scholar
Solheim H., 1992b. Fungal succession in sapwood of Norway spruce infested by the bark beetle Ips typographus. Eur. J. For. Pathol. 22: 136–48. Article Google Scholar
Solheim H., 1993a. Ecological aspects of fungi associated with the spruce bark beetle Ips typographus in Norway. In: Wingfield M.J., Seifert K.A., and Webber J.F. (Eds.), Ceratocystis and Ophiostoma: taxonomy, ecology and pathogenicity, APS Press, St Paul, Minnesota, pp. 235–242. Google Scholar
Solheim H., 1993b. Fungi associated with the spruce bark beetle Ips typographus in an endemic area in Norway. Scand. J. For. Res. 8: 118–122. Article Google Scholar
Solheim H. and Krokene P., 1998a. Growth and virulence of mountain pine beetle associated blue-stain fungi, Ophiostoma clavigerum and Ophiostoma montium. Can. J. Bot. 76: 561–566. Google Scholar
Solheim H. and Krokene P., 1998b. Growth and virulence of Ceratocystis rufipenni and three blue-stain fungi isolated from the Douglas-fir beetle. Can. J. Bot. 76: 1763–1769. Google Scholar
Solheim H. and Långström B., 1991. Blue stain fungi associated with Tomicus piniperda in Sweden and preliminary observation on their pathogenicity. Ann. Sci. For. 48: 149–156. Article Google Scholar
Solheim H. and Safranyik L., 1997. Pathogenicity to Sitka spruce of Ceratocystis rufipenni and Leptographium abietinum, blue-stain fungi associated with the spruce bark beetle. Can. J. For. Res. 27: 1336–1341. Article Google Scholar
Solheim H., Långström B., and Hellqvist C., 1993. Pathogenicity of the blue stain fungi Leptographium wingfieldii and Ophiostoma minus to Scots pine: effect of tree pruning and inoculum density. Can J. For. Res. 23: 1438–1443. Article Google Scholar
Solheim H., Krokene P., and 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 Pathol. 50: 111–16. Article Google Scholar
Stephen F.M., Berisford C.W., Dahlsten D.L., Fenn P., and Moser J.C., 1993. Invertebrate and microbial associates. In: Schowalter T. and Filip G. (Eds.), Beetle-pathogen interactions in conifer forests, Academic, San Diego, pp. 129–153. Google Scholar
Uzunovic A. and Webber J.F., 1998. Comparison of blue stain fungi grown in vitro and in freshly cut pine billets. Eur. J. For. Pathol. 28: 323–334. Article Google Scholar
Viiri H., 1997. Fungal associates of the spruce bark beetle Ips typographus L. (Col., Scolytidae) in relation to different trapping methods. J. Appl. Entomol. 121: 529–33. Article Google Scholar
Viiri H. and Lieutier F., 2004. Ophiostomatoid fungi associated with the spruce bark beetle, Ips typographus, in post-epidemic areas in France. Ann. For. Sci. 61: 215–219. Article Google Scholar
Wallin K.F. and Raffa K.H., 2001. Effects of folivory on subcortical plant defenses: can defense theories predict interguild processes? Ecology 82: 1387–1400. Article Google Scholar
Waring R.H. and Pitman G.B., 1983. Physiological stress in lodgepole pine as a precursor for mountain pine beetle attack. Z. Angew. Entomol. 96: 265–270. Article Google Scholar
Whitney H.S., 1982. Relationships between bark beetles and symbiotic organisms. In: Mitton J.B. and Sturgeon K.B. (Eds.), Bark beetles in North American conifers, Austin, Univ. Texas Press, pp. 183–211. Google Scholar
Whitney H.S. and Cobb F.W., 1972. Non-staining fungi associated with the bark beetle Dendroctonus brevicomis (Coleoptera: Scolytidae) on Pinus ponderosa. Can. J. Bot. 50: 1943–1945. Article Google Scholar
Whitney H.S. and Farris S.H., 1970. Maxillary mycangium in the mountain pine beetle. Science 167: 54–55. ArticlePubMedCAS Google Scholar
Wingfield M.J., 1983. Association of Verticicladiella procera and Leptographium terebrantis with insects in the lake states. Can. J. For. Res. 13: 1238–1245. Article Google Scholar
Wingfield M.J., Seifert K.A., and Webber J.F., 1993. Ceratocystis and Ophiostoma: taxonomy, ecology, and pathogenicity, APS Press, 293 p.
Wong B.E. and Berryman A.A., 1977. Host resistance to the fir engraver beetle. 3. Lesion development and containment of infection by resistant Abies grandis inoculated with Trichosporium symbioticum. Can. J. Bot. 55: 2358–2365. Article Google Scholar
Wood D.L., 1982. The role of pheromones, kairomones, and allomones in the host selection and behavior of bark beetles. Annu. Rev. Entomol. 27: 411–446. ArticleCAS Google Scholar
Wullschleger S.D., McLaughlin S.B., and Ayres M.P., 2004. High resolution analysis of stem increment and sap flow for loblolly pine trees attacked by southern pine beetle. Can. J. For. Res. 34: 2387–2393. Article Google Scholar
Yamaoka Y., Hiratsuka Y., and Maruyama P.J., 1995. The ability of Ophiostoma clavigerum to kill mature lodgepole pine trees. Eur. J. For. Pathol. 25: 401–404. Article Google Scholar