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References

  • Amman, G.D. (1972) Mountain pine beetle brood production in relation to thickness of lodgepole pine phloem. Journal of Economic Entomology, 65, 138140.
  • Amman, G.D. (1973) Population changes of the mountain pine beetle in relation to elevation. Environmental Entomology, 2, 541547.
  • Amman, G.D., McGregor, M.D., Cahill, D.B. & Klein, W.H. (1977) Guidelines for reducing losses of lodgepole pine to the mountain pine beetle in unmanaged stands in the Rocky Mountains. U.S. Department of Agriculture, Forest Service, Intermountain Forest and Range Experiment Station, General Technical Report, INT-36, 19 pp.
  • Aukema, B.H., Carroll, A.L., Zhu, J., Raffa, K.F., Sickley, T. & Taylor, S.W. (2006) Landscape level analysis of mountain pine beetle in British Columbia, Canada: spatiotemporal development and spatial synchrony within the present outbreak. Ecography, 29, 427441.
  • Berryman, A.A., Dennis, B., Raffa, K.F. & Stenseth, N.C. (1985) Evolution of optimal group attack, with particular reference to bark beetles (Coleoptera: Scolytidae). Ecology, 66, 898903.
  • Björklund, N. & Lindgren, B.S. (2009) Diameter of lodgepole pine and mortality caused by the mountain pine beetle: factors that influence the relationship and their applicability for susceptibility rating. Canadian Journal of Forest Research, 39, 908916.
  • Björklund, N., Lindgren, B.S., Shore, T.L. & Cudmore, T. (2009) Can predicted mountain pine beetle net production be used to improve stand prioritization for management? Forest Ecology and Management, 257, 233237.
  • Cabrera, H. (1978) Phloem structure and development in lodgepole pine. Theory and Practice of Mountain Pine Beetle Management in Lodgepole Pine Forests (eds D.L.Kibbee, A.A.Berryman, G.D.Amman & R.W.Stark), pp. 5463. Forest, Wildlife & Range Experiment Station, University of Idaho, Moscow, ID.
  • Carroll, A.L., Taylor, S., Régniere, J. & Safranyik, L. (2004) Effects of climate change on range expansion by the mountain pine beetle in British Columbia. Mountain Pine Beetle Symposium: Challenges and Solutions (eds T.L.Shore, J.E.Brooks & J.E.Stone), pp. 223232. Natural Resources Canada, Canadian Forest Service, Pacific Forestry Centre, Victoria, BC.
  • Clark, E. (2008) Terpene composition of lodgepole and jack pine and its relationship to the success of the mountain pine beetle. MSc Thesis, University of Northern British Columbia, Prince George, BC.
  • Coupé, R., Stewart, A.C. & Wikeem, B.M. (1991) Engelmann Spruce-Subalpine Fir Zone. Ecosystems of British Columbia (eds D.Meidinger & J.Pojar), pp. 223236. Crown Publications, Victoria, BC.
  • Franceschi, V.R., Krokene, P., Christiansen, E. & Krekling, T. (2005) Anatomical and chemical defenses of conifer bark against bark beetles and other pests. New Phytologist, 167, 353375.
  • Furniss, R.L. & Carolin, V.M. (1977) Western Forest Insects. USDA Forest Service Misc. Publ. No. 1339, US Government Printing Office, Washington, DC.
  • Ghandi, K.J.K. & Herms, D.A. (2010) Direct and indirect effects of alien insect herbivores on ecological processes and interactions in forest of eastern North America. Biological Invasions, 12, 389405.
  • Hanski, I., Erälahti, C., Kankare, M., Ovaskainen, O. & Sirén, H. (2004) Variation in migration propensity among individuals maintained by landscape structure. Ecology Letters, 7, 958966.
  • Hemingway, R.W., McGraw, G.W. & Barras, S.J. (1977) Polyphenols in Ceratocystis minor infected Pinus taeda: fungal metabolites, phloem and xylem phenols. Journal of Agricultural and Food Chemistry, 25, 717722.
  • Herms, D.A. & Mattson, W.J. (1992) The dilemma of plants: to grow or defend. Quarterly Review of Biology, 67, 283335.
  • Hopkins, A.D. (1919) The bioclimatic law as applied to entomological research and farm practice. Science Monographs, 8, 496513.
  • Hughes, L. (2000) Biological consequences of global warming: is the signal already apparent? Trends in Ecology and Evolution, 15, 5661.
  • Hughes, C.L., Hill, J.K. & Dytham, C. (2003) Evolutionary trade-offs between reproduction and dispersal in populations at expanding range boundaries. Proceedings of the Royal Society B: Biological Sciences (Suppl.), 269, S147S150.
  • IPCC (2007) Climate Change 2007: Synthesis Report. Contribution of Working Groups I, II and III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (eds Core Writing Team, R.K.Pachauri & A.Reisinger). IPCC, Geneva, Switzerland, 104 pp.
  • Jepsen, J.U., Hagen, S.B., Ims, R.A. & Yoccoz, N.G. (2008) Climate change and outbreaks of the geometrids Operophtera brumata and Epirrita autumnata in subarctic birch forest: evidence of a recent outbreak range expansion. Journal of Animal Ecology, 77, 257264.
  • Krcmar-Nozic, E., Wilson, B. & Arthur, L. (2000) The potential impacts of exotic forest pests in North America: a synthesis of research. Natural Resources Canada, Canadian Forest Service, Information Report BC-X-387, Pacific Forestry Centre, Victoria, BC, 33 pp.
  • Kurz, W.A., Dymond, C.C., Stinson, G., Rampley, G.J., Neilson, E.T., Carroll, A.L., Ebata, T. & Safranyik, L. (2008) Mountain pine beetle and forest carbon: feedback to climate change. Nature, 454, 987990.
  • Liebhold, A.M., MacDonald, W.L., Bergdahl, D. & Mastro, V.C. (1995) Invasion by exotic forest pests: a threat to forest ecosystems. Forest Science, 41, 149.
  • Logan, J.A. & Powell, J.A. (2001) Ghost forests, global warming, and the mountain pine beetle (Coleoptera: Scolytidae). American Naturalist, 47, 160172.
  • Meidinger, D. & Pojar, J. (eds) (1991) Ecosystems of British Columbia, BC. Ministry of Forests, Victoria, BC. Special Report No. 6. 330 pp. Crown Publications, Victoria, BC.
  • Meidinger, D., Pojar, J. & Harper, W.L. (1991) Sub-Boreal Spruce Zone. Ecosystems of British Columbia (eds D.Meidinger & J.Pojar), pp. 209221. B.C. Ministry of Forests, Victoria, BC. Special Report No. 6, Crown Publications, Victoria, BC.
  • Niemelä, P. & Mattson, W.J. (1996) Invasion of North American forests by European phytophagous insects. BioScience, 46, 741753.
  • Poland, T. & McCullough, D. (2006) Emerald ash borer: invasion of the urban forest and the threat to North America’s ash resource. Journal of Forestry, 104, 118124.
  • Raffa, K.F. & Berryman, A.A. (1983) The role of host plant resistance in the colonization behavior and ecology of bark beetles (Coleoptera: Scolytidae). Ecological Monographs, 53, 2749.
  • Raffa, K.F. & Berryman, A.A. (1987) Interacting selective pressures in conifer-bark beetle systems: a basis for reciprocal adaptations? American Naturalist, 129, 234262.
  • Raffa, K.F., Aukema, B.H., Bentz, B.J., Carroll, A.L., Hicke, J.A., Turner, M.G. & Romme, W.H. (2008) Cross-scale drivers of natural disturbances prone to anthropogenic amplification: the dynamics of bark beetle eruptions. BioScience, 58, 501517.
  • Raupp, M.J., Shrewsbury, P.M. & Herms, D.A. (2010) Ecology of herbivorous arthropods in urban landscapes. Annual Review of Entomology, 55, 1938.
  • Régnière, J. (1996) A generalized approach to landscape-wide seasonal forecasting with temperature-driven simulation models. Environmental Entomology, 25, 869881.
  • Reid, R.W. (1963) Biology of the mountain pine beetle, Dendroctonus monticolae Hopkins, in the East Kootenay region of British Columbia III. Interaction between the beetle and its host, with emphasis on brood mortality and survival. The Canadian Entomologist, 95, 225238.
  • Rosenzweig, C., Casassa, G., Karoly, D.J., Imeson, A., Liu, C., Menzel, A., Rawlins, S., Root, T.L., Seguin, B. & Tryjanowski, P. (2007) Assessment of observed changes and responses in natural and managed systems. Climate Change 2007: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (eds M.L.Parry, O.F.Canziani, J.P.Palutikof, P.J.Van Der Linden & C.E.Hanson), pp. 79131. Cambridge University Press, Cambridge, UK.
  • Safranyik, L. (1968) Development of a technique for sampling mountain pine beetle populations in lodgepole pine. PhD Thesis. University of British Columbia, Vancouver, BC.
  • Safranyik, L. (1978) Effects of climate and weather on mountain pine beetle populations. Theory and Practice of Mountain Pine Beetle Management in Lodgepole Pine Forests (eds D.L.Kibbee, A.A.Berryman, G.D.Amman & R.W.Stark), pp. 7784. Forest, Wildlife & Range Experiment Station, University of Idaho, Moscow, ID.
  • Safranyik, L. (1988a) Mountain pine beetle: biology overview. Symposium on the Management of Lodgepole Pine to Minimize Losses to the Mountain Pine Beetle (ed G.D.Amman), pp. 913. Intermountain Research Station, USDA Forest Service, Kalispell, MT.
  • Safranyik, L. (1988b) Estimating attack and brood totals and densities of the mountain pine beetle in individual lodgepole pine trees. The Canadian Entomologist, 120, 323331.
  • Safranyik, L. & Carroll, A.L. (2006) The biology and epidemiology of the mountain pine beetle in lodgepole pine forests. The Mountain Pine Beetle: a Synthesis of its Biology and Management in Lodgepole Pine (eds L.Safranyik & B.Wilson), pp. 366. Natural Resources Canada, Canadian Forest Service, Pacific Forestry Centre, Victoria, BC.
  • Safranyik, L., Shrimpton, D.M. & Whitney, H.S. (1975) An interpretation of the interaction between lodgepole pine, the mountain pine beetle and its associated blue stain fungi in western Canada. Management of Lodgepole Pine Ecosystems (ed D.M.Baumgartner), pp. 406428. Washington State University Cooperative Extension Service, Pullman, WA.
  • Schaefer, P.W. (2005) Foreign exploration for emerald ash borer and its natural enemies. Proceedings of the Emerald Ash Borer Research and Technology Development Meeting (eds V.C.Mastro & R.Reardon), pp. 6768. US Department of Agriculture, Forest Service, Morgantown, WV.
  • Simmons, A.D. & Thomas, C.D. (2004) Changes in dispersal during species’ range expansions. American Naturalist, 164, 378395.
  • Struble, G.R. & Johnson, P.C. (1955) The mountain pine beetle. U.S. Department of Agriculture, Forest Service. Forest Pest Leaflet, 2, 4.
  • Sturgeon, K.B. (1979) Monoterpene variation in ponderosa pine xylem resin related to western pine beetle predation. Evolution, 33, 803814.
  • Sturgeon, K.B. & Mitton, J.B. (1982) Evolution of bark beetle communities. Bark Beetles in North American Conifers (eds J. B.Mitton & K. B.Sturgeon), pp. 350384. University of Texas Press, Austin, TX.
  • Taylor, S.W., Carroll, A.L., Alfaro, R.I. & Safranyik, L. (2006) Forest, climate and mountain pine beetle outbreak dynamics in western Canada. The Mountain Pine: A Synthesis of Biology, Management, and Impacts on Lodgepole Pine (eds L.Safranyik & W.R.Wilson), pp. 6794. Natural Resources Canada, Canadian Forest Service, Pacific Forestry Centre, Victoria, BC.
  • Thomas, J.A., Rose, R.J., Clarke, R.T., Thomas, C.D. & Webb, N.R. (1999) Intraspecific variation in habitat availability among ectothermic animals near their climatic limits and their centres of range. Functional Ecology, 13(Suppl. 1), 5564.
  • Williams, A.M. & Liebhold, A.M. (2002) Climate change and the outbreak ranges of two North American bark beetles. Agricultural and Forest Entomology, 4, 8799.
  • Wood, S.L. (1963) A revision of the bark beetle genus Dendroctonus Erichson (Coleoptera: Scolytidae). Great Basin Naturalist, 13, 1117.
  • Wood, C.S. & Unger, L. (1996) Mountain pine beetle: a history of outbreaks in pine forests in British Columbia, 1910 to 1995. Victoria, BC, 61 pp.
  • Yanchuk, A.D., Murphy, J.C. & Wallin, K.F. (2008) Evaluation of genetic variation of attack and resistance in lodgepole pine in the early stages of a mountain pine beetle outbreak. Tree Genetics & Genomes, 4, 171180.