Fungi Associated With Hylobius Abietis and Other Weevils

• Alauzet, C. 1972. Étude de la localisation des pontes de Pissodes notatus(Coléoptère, Curculionide) sur pin maritime en présence de Cronartium flaccidum (Basidio-, Phragmobasidiomycète, Urédinale, Cronartiacée). Bulletin de la Société d’Histoire Naturelle de Toulouse, 108, 341–348.

  Google Scholar 

• Alexander, S.A., Horner, W.E., & Lewis, K.J. 1988. Leptographium procerumas a Pathogen of Pines. In. Leptographium Root Diseases on Conifers, T.C. Harrington, F.W. Jr. Cobb (Eds.). St. Paul, Minnesota: APS Press.

  Google Scholar 

• Beaver, R.A. 1989. Insect-Fungus Relationship in the Bark and Ambrosia Beetles. In. Insect-Fungus Interactions, N. Wilding, N.M. Collins, P.M. Hammond, J.F. Webber (Eds.). London: Academic Press.

  Google Scholar 

• Berryman, A.A. 1989. Adaptive Pathways in Scolytid–Fungus Associations. In. Insect-Fungus Interactions, N. Wilding, N.M. Collins, P.M. Hammond, J.F. Webber (Eds.). London: Academic Press.

  Google Scholar 

• Bright, D.E. 1993. Systematics of Bark Beetles. In. Beetle-Pathogen Interactions in Conifer Forests T.D. Schowalter, G.M. Filip (Eds.). San Diego: Academic Press.

  Google Scholar 

• Cerezke, H.F. 1994. Warren rootcollar weevil, Hylobius warreni Wood (Coleoptera: Curculionidae), in Canada: Ecology, behaviour, damage relationships, and management. The Canadian Entomologist, 126, 1383–1442.

  Article  Google Scholar 

• Dušin, N.G. 1979. K voprosu o rasprostranenii kornevoi gubki nekotorymi nasekomymi stvolovoi gruppy. [The spreading of Heterobasidion annosum by insects living in the stem of pines]. Zaśtšita lesa, 4, 24–26.

  Google Scholar 

• Ehnström, B., & Axelsson, R. 2002. Insekts gnag i bark och ved. Uppsala: SLU ArtDatabanken.

  Google Scholar 

• Erbilgin, N., & Raffa, K.F. 2002. Association of declining red pine stands with reduced populations of bark beetle predators, seasonal increases in root colonizing insects, and incidence of root pathogens. Forest Ecology Management, 164, 221–36.

  Article  Google Scholar 

• Goheen, D.J., & Cobb, F.W. Jr. 1978. Occurrence of Verticicladiella wagenerii and its perfect state, Ceratocystis wagenerisp. nov., in insect galleries. Phytopathology, 68, 1192–1195.

  Article  Google Scholar 

• Hallaksela, A.-M. 1977. Kuusen kantojen mikrobilajisto. [Microbial flora isolated from Norway spruce stumps]. Acta Forestalia Fennica, 158, 1–48.

  Google Scholar 

• Halambek, M. 1976. Dieback of eastern white pine (Pinus strobus L.) in cultures. Poljoprivredna znanstvena smotra - Agriculturae Conspectus Scientificus, 39, 495–98.

  Google Scholar 

• Hamelin, R. 1996. Genetic diversity between and within cankers of the white pine blister rust. Phytopathology, 86, 875–79.

  Article  Google Scholar 

• Hansen, E.M., Goheen, D.J., Hessburg, P.F., Witcosky, J.J., & Schowalter, T.D. 1988. Biology and Management of Black-Stain Root Disease in Douglas-fir. In. Leptographium Root Diseases on Conifers, T.C. Harrington, F.W. Jr. Cobb (Eds.). St. Paul, Minnesota: APS Press.

  Google Scholar 

• Harrington, T.C. 1988. Leptographium Species, Their Distributions, Hosts and Insect Vectors. In. Leptographium Root Diseases on Conifers, T.C. Harrington, F.W. Jr Cobb (Eds.). St. Paul, Minnesota: APS Press.

  Google Scholar 

• Harrington, T.C., & Cobb, F.W. Jr. 1983. Pathogenicity of Leptographium and Verticicladiella spp. isolated from roots of Western North American conifers. Phytopathology, 73, 596–99.

  Google Scholar 

• Harrington, T.C., & Cobb, F.W. Jr. 1986. Varieties of Verticicladiella wageneri. Mycologia, 78, 562–67.

  Article  Google Scholar 

• Harrington, T.C., Cobb, F.W. Jr, & Lownsbery, J.W. 1985. Activity of Hylastes nigrinus, a vector of Verticicladiella wageneri, in thinned stands of Douglas-fir. Canadian Journal of Forest Research, 15, 519–23.

  Google Scholar 

• Harrington, T.C., Reinhart, C., Thornburgh, D.A., & Cobb, F.W. Jr. 1983. Association of black-stain root disease with precommercial thinning of Douglas-fir. Forest Science, 29, 12–14.

  Google Scholar 

• Hessburg, P.F., & Hansen, E.M. 1986. Mechanisms of intertree transmission of Ceratocystis wageneriin young Douglas-fir. Canadian Journal of Forest Research, 16, 1250–54.

  Article  Google Scholar 

• Hunt, R.S. 1985. Experimental evidence of heterothallism in Cronartium ribicola. Canadian Journal of Botany, 63, 1086–88.

  Google Scholar 

• Hunter, M.D. 2001. Out of sight, out of mind: the impacts of root-feeding insects in natural and managed systems. Agricultural and Forest Entomology, 3, 3–9.

  Article  Google Scholar 

• Jacobs, K., & Wingfield, M.J. 2001. Leptographium species, Tree pathogens, Insect Associates and Agents of Blue-Stain. St. Paul, Minnesota: APS Press.

  Google Scholar 

• Jacobs, K., Wingfield, M.J., Uzunovic, A., & Frisullo, S. 2001. Three new species of Leptographiumfrom pine. Mycological Research, 105, 490–99.

  Article  Google Scholar 

• Jørgensen, E., & Beier Petersen, B. 1951. Angreb af Fomes annosus (Fr.) Cke, og Hylesinus piniperda L. på Pinus silvestris i Djurslands plantager. Dansk Skovforenings Tidsskrift, 9, 453–79.

  Google Scholar 

• Kadlec, Z., Starý, P., & Zumr, V. 1992. Field evidence for the large pine weevil, Hylobius abietis as a vector of Heterobasidion annosum. European Journal of Forest Pathology, 22, 316–18.

  Article  Google Scholar 

• Kangas, E. 1934. Tutkimuksia Punkaharjun männiköiden hyönteistuhoista. Metsätieteellisen tutkimuslaitoksen julkaisuja, 19, 1–68. Kangas, E. 1938. Zur Biologie und Verbreitung der Pissodes-Arten (Col., Curculionidae) Finnlands. Annales Entomologici Fennici, 4, 73–98.

  Google Scholar 

• Kendrick, W.B. 1962. The Leptographium complex, VerticicladiellaHughes. Canadian Journal of Botany, 40, 771–97.

  Google Scholar 

• Klepzig, K.D., Raffa, K.F., & Smalley, E.B. 1991. Association of an insect-fungal complex with Red Pine Decline in Wisconsin. Forest Science, 37, 1119–39.

  Google Scholar 

• Kudela, M. 1974. Pissodes Germar. In. Die Forstschädlinge Europas. 2. Band. W. Schwenke (Ed.). München.

  Google Scholar 

• Lackner, A.L., & Alexander, S.A. 1982. Occurrence and pathogenicity of Verticicladiella procerain Christmas tree plantations in Virginia. Plant Disease, 66, 211–12.

  Google Scholar 

• Laine, L. 1977. Juurikääpä puuvartisilla kasveilla Suomessa ja sen leviäminen hyönteisten välityksellä. Helsingin yliopiston kasvitieteen laitoksen julkaisuja 3.

  Google Scholar 

• Leach, J.G. 1940. Insect Transmission of Plant Diseases. New York & London: McGraw Hill Book Company.

  Google Scholar 

• Lévieux, J., Piou, D., Cassier, P., André, M., & Guillaumin, D. 1994a. Association of phytopathogenic fungi for the Scots pine (Pinus sylvestris L.) with the European pine weevil Hylobius abietis(L.) (Col. Curculionidae). The Canadian Entomologist, 126, 929–36.

  Article  Google Scholar 

• Lévieux, J., Monestier, C., & Cassier, P. 1994b. The fir weevil Pissodes piceae Ill. (Coleopt. Curculionidae) life cycle in Central France. A possible vector of phytopathogenic fungi. Bulletin de la Societe Zoologique de France, 119, 5–14.

  Google Scholar 

• Lewis, K.J., & Alexander, S.A. 1986. Insects associated with the transmission of Verticicladiella proceraCanadian Journal of Forest Research, 16, 1330–33.

  Article  Google Scholar 

• Lewis, K.J., Alexander, S.A., & Horner, W.E. 1987. Distribution and efficacy of propagules of Verticicladiella procerain soil. Phytopathology, 77, 552–56.

  Google Scholar 

• Livingston, W.H., & Wingfield, M.J. 1982. First report of Verticicladiella proceraon pines in Minnesota. Plant Disease, 66, 260–61.

  Article  Google Scholar 

• Löyttyniemi, K., & Uusvaara, O. 1977. Insect attack on pine and spruce sawlogs felled during the growing season. Communicationes Instituti Forestalia Fenniae, 89, 1–48.

  Google Scholar 

• Mathiesen, A. 1951. Einige neue Ophiostoma-arten inSchweden. Svensk Botanisk Tidskrift, 45, 203–32.

  Google Scholar 

• Mathiesen-Käärik, A. 1953. Eine Übersicht über die gewöhnlichsten mit Borkenkäfern assoziierten Bläuepilze in Schweden und einige für Schweden neue Bläuepilze. Meddelanden från Statens skogsforskningsinstitut, 43, 1–74.

  Google Scholar 

• Mathiesen-Käärik, A. 1960. Studies on the ecology, taxonomy and physiology of Swedish insect-associated blue stain fungi, especially the genus Ceratocystis. Oikos, 11, 1–25.

  Article  Google Scholar 

• Morelet, M. 1986. Les Verticicladiellades pins en liaison avec les phénomènes de dépérissement. Bulletin OEPP/EPPO Bulletin, 16, 473–77.

  Google Scholar 

• Nevill, R.J., & Alexander, S.A. 1992a. Pathogenicity of three fungal associates of Hylobius palesand Pissodes nemorensis(Coleoptera: Curculionidae) to eastern white pine. Canadian Journal of Forest Research, 22, 1438–40.

  Google Scholar 

• Nevill, R.J., & Alexander, S.A. 1992b. Root- and stem-colonizing insects recovered from eastern white pines with procerum root disease. Canadian Journal of Forest Research, 22, 1712–16.

  Google Scholar 

• Nevill, R.J., & Alexander, S.A. 1992c. Transmission of Leptographium procerum to eastern white pine by Hylobius palesand Pissodes nemorensis(Coleoptera: Curculionidae). Plant Disease, 76, 307–10.

  Article  Google Scholar 

• Nuorteva, M., & Laine, L. 1968. Über die Möglichkeiten der Insekten als Überträger des Wurzelschwamms (Fomes annosus (Fr.) Cooke). Annales Entomologici Fennici, 34, 113–35.

  Google Scholar 

• Nuorteva, M., & Laine, L. 1972. Lebensfähige Diasporen des Wurzelschwamms (Fomes annosus (Fr.) Cooke) in den Exkrementen von Hylobius abietisL. (Col., Curculionidae). Annales Entomologici Fennici, 38, 119–21.

  Google Scholar 

• Owen, D.R., Lindahl, K.Q. Jr, Wood, D.L. & Parmeter, J.R. Jr. 1987. Pathogenicity of fungi isolated from Dendroctonus valens D. brevicomis, and D. ponderosaeto ponderosa pine seedlings. Phytopathology, 77, 631–36.

  Google Scholar 

• Pappinen, A., & von Weissenberg, K. 1994a. Association of the pine-top weevil with Endocronartium pinion Scots pine. European Journal of Forest Pathology, 24, 249–57.

  Article  Google Scholar 

• Pappinen, A., & von Weissenberg, K. 1994b. The ability of the pine-top weevil to carry spores and infect Scots pine with Endocronartium pini. European Journal of Forest Pathology, 24, 258–63.

  Article  Google Scholar 

• Pappinen, A., & von Weissenberg, K. 1996. Weevil feeding OrgName Scots pine affects germination of Endocronartium pini. European Journal of Forest Pathology, 26, 225–34.

  Article  Google Scholar 

• Piou, D. 1993. Rôle d‘Hylobius abietis (L) (Col, Curculionidae) dans le transport de Leptographium (Kendr) Wingf et son inoculation au pin sylvestre. Annales des Sciences Forestières, 50, 297–308.

  Google Scholar 

• Raffa, K.F., & Klepzig, K.D. 1996. Effects of root inhabiting insect-fungal complexes on aspects of tree resistance to bark beetles. In. Dynamics of Forest Herbivory: Quest for Pattern and Principle, W.J. Mattson, P. Niemelä, M. Rousi (Eds.). USDA Forest Service. General Technical Report NC-183.

  Google Scholar 

• Raffa, K.F., & Smalley, E.B. 1988. Host resistance to invasion by lower stem and root infesting insects of pine: response to controlled inoculations with the fungal associate Leptographium terebrantisCanadian Journal of Forest Research, 18, 675–81.

  Google Scholar 

• von Sydow, F. 1993. Fungi occurring in the roots and basal parts of one- and two-year-old spruce and pine stumps. Scandinavian Journal of Forest Research, 8, 174–84.

  Google Scholar 

• Webber, J.F., & Gibbs, J.N. 1989. Insect Dissemination of Fungal Pathogens of Trees. In. Insect-Fungus Interactions N. Wilding, N.M. Collins, P.M. Hammond, J.F. Webber (Eds.). London: Academic Press.

  Google Scholar 

• Whitney, R.D. 1961. Root wounds and associated root rots of white spruce. Forestry Chronicle, 37, 401–11.

  Google Scholar 

• Whitney, H.S. 1982. Relationships between Bark Beetles and Symbiotic Organisms. In. Bark Beetles in North American Conifers. A System for the study of Evolutionary Biology. J.B. Mitton, K.B. Sturgeon (Eds.). Austin: University of Texas Press.

  Google Scholar 

• Wingfield, M.J. 1983. Association of Verticicladiella procera and Leptographium terrebrantis with insects in the Lake States. Canadian Journal of Forest Research, 13, 1238–45.

  Article  Google Scholar 

• Wingfield, M.J. 1986. Pathogenicity of Leptographium procerum and L. terebrantison Pinus strobesseedlings and established trees. European Journal of Forest Pathology, 16, 299–308.

  Article  Google Scholar 

• Witcosky, J.J. 1989. Root Beetles, Stand Disturbance, and Management of Black-Stain Root Disease in Plantations of Douglas-fir. In. Insects Affecting Reforestation: Biology and Damage, R.I. Alfaro, S.G. Glover (Eds.).Victoria: Forestry Canada.

  Google Scholar 

• Witcosky, J.J., & Hansen, E.M. 1985. Root-colonizing insects recovered from Douglas-fir in various stages of decline due to black-stain root disease. Phytopathology, 75, 399–402.

  Google Scholar 

• Witcosky, J.J., Schowalter, T.D., & Hansen, E.M. 1986a. Hylastes nigrinus (Coleoptera: Scolytidae), Pissodes fasciatus, and Steremnius carinatus(Coleoptera: Curculionidae) as vectors of black-stain root disease of Douglas-fir. Environmental Entomology, s15, 1090–95.

  Google Scholar 

• Witcosky, J.J., Schowalter, T.D., & Hansen, E.M. 1986b. The influence of time of precommercial thinning on the colonization of Douglas-fir by three species of root-colonizing insects. Canadian Journal of Forest Research, 16, 745–49.

  Google Scholar 

• Zambino, P.J., & Harrington, T.C. 1989. Isozyme variation within and among host-specialized varieties of Leptographium wageneri. Mycologia, 81, 122–33.

  Article  Google Scholar 

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