TY - JOUR
T1 - Assemblage of hymenoptera arriving at logs colonized by Ips pini (Coleoptera: Curculionidae: Scolytinae) and its microbial symbionts in Western Montana
AU - Boone, Celia K.
AU - Six, Diana L.
AU - Krauth, Steven J.
AU - Raffa, Kenneth F.
N1 - Funding Information:
The assistance of the staff of Lubrecht Experimental Forest, University of Montana, especially Hank Goetz and Frank Maus, is appreciated. Megan Phau, Cameron Paterson, Ted Benson (Department of Ecosystem and Conservation Science, University of Montana, Missoula), and Katie Kieler (Department of Entomology, University of Wisconsin–Madison) provided technical assistance. Species-level identifications were provided by Eric Grissel, United States Department of Agriculture (USDA) Research Entomologist, United States Museum of Natural History, Smithsonian Institution (Pteromalidae); John Luhman, Biological Control Scientist and Adjunct Assistant Professor, Department of Entomology, University of Minnesota (Braconidae); Michael W. Gates, USDA Systematic Entomology Research Scientist, Smithsonian Institution (Eulophidae); and Matt Yoder, Department of Entomology, Texas A & M University (Diapriidae). This work was supported by the USDA National Research Initiative (2003–3502–13528), the National Science Foundation (DEB0314215), McIntire– Stennis Funds, and the College of Agricultural and Life Sciences, University of Wisconsin– Madison.
Funding Information:
Note: If a species is not a parasitoid, the feeding guild is indicated. Treatments consisting of a log with I. pini and its natural complement of microorganisms, host plant, and blank control were used in 2002 and 2003; the remaining treatments consisting of microbial symbionts were used in 2003 only. Scolytidae has since been reclassified as Curculionidae: Scolytinae. aNumbers in parentheses denote references: 1, H.E. Evans. 1978. The Bethylidae of America north of Mexico. Memoirs of the American Entomological Institute No. 27. The American Entomological Institute. Ann Arbor, Michigan; 2, G.A.P. Gibson, J.T. Huber, and J.B. Woolley. 1997. Annotated keys to the genera of Nearctic Chalcidoidea (Hymenoptera). Research Press, National Research Council of Canada, Ottawa, Ontario; 3, H. Goulet. 1992. The genera and subgenera of the sawflies of Canada and Alaska. Hymenoptera: Symphyta. In The insects and arachnids of Canada. Part 20. Publication No. 1876, Agriculture Canada, Ottawa, Ontario; 4, L.S. Kimsey and R.M. Bohart. 1990. The chrysidid wasps of the world. Oxford University Press, Oxford, New York and Toronto; 5, K.V. Krombein, P.D. Hurd, D.R. Smith, and B.D. Burks. 1979. Catalogue of Hymenoptera in America north of Mexico. Smithsonian Institution Press, Washington, D.C.; 6, I. Masner and J.L. Garcia. 2002. The genera of Diapriinae (Hymenoptera: Diapriidae) in the New World. Bulletin No. 268, American Museum of Natural History, New York; 7, T.B. Mitchell. 1960. Bees of the eastern United States. Vol. I. Technical Bulletin No. 141, North Carolina Agricultural Experiment Station, with support from the National Science Foundation; 8, T.B. Mitchell. 1962. Bees of the eastern United States. Vol. II. Technical Bulletin No. 152, North Carolina Agricultural Experiment Station, with support from the National Science Foundation; 9, C.F.W. Musebeck. 1980. The Nearctic parasitic wasps of the genera Psilus Panzer and Coptura Say (Hymenoptera, Proctotrupoidea, Diapriidae). Technical Bulletin No. 1617, United States Department of Agriculture. pp. 1–71; 10, M. Olmi. 1984. A revision of the Dryinidae (Hymneoptera). Memoirs of the American Entomological Institute No. 37. Part 2. pp. 947–1913; 11, O. Peck. 1985. The taxonomy of the Nearctic species of Pediobus (Hymenoptera: Eulophidae), especially Canadian and Alaskan forms. The Canadian Entomologist, 117: 647–704; 12, D.R. Smith. 1989. The sawfly genus Arge (Hymenoptera: Argidae), in the Western Hemisphere. Transactions of the American Entomological Society, 115: 83–205; 13, R.A. Wharton, P.M. Marsh, and M.J. Sharkey. 1997. Manual of the New World genera of the family Braconidae (Hymenoptera). Special Publication of the International Society of Hymenopterists No. 1. Allen Press, Lawrence, Kansas; 14, J.B. Woolley. 1990. Signiphoridae. In World crop pests. Vol. 4B. Armored scale insects: their biology, natural enemies and control. Edited by D. Rose. Elsevier, Amsterdam, the Netherlands. pp. 167–176. bi.d., insufficient data for statistical analysis. *Significant treatment effect at P < 0.05.
PY - 2009
Y1 - 2009
N2 - Colonization of a tree by bark beetles and their symbionts creates a new habitat for a diverse assemblage of arthropods, including competing herbivores, xylophages, fungivores, saprophages, predators, and parasitoids. Understanding these assemblages is important for evaluating nontarget effects of various management tactics and for subsequently evaluating how changes in climate, the presence of invasive species, and altered forestry practices and land-use tenure may affect biodiversity. We characterized the assemblage of hymenopterans attracted to logs of ponderosa pine (Pinus ponderosa C. Lawson (Pinaceae)) colonized by the bark beetle Ips pini (Say) and its microbial symbionts. In one experiment, the composition and relative abundances of species arriving at hosts colonized by I. pini, and possible sources of attraction, were determined. Treatments consisted of a log containing I. pini with its natural complement of microorganisms, a log alone, and a blank control. A second experiment was carried out to determine whether or not Hymenoptera were attracted to microbial symbionts of I. pini. Treatments consisted of a blank control, a log alone, a log containing I. pini with its natural complement of microorganisms, either Ophiostoma ips, Burkholderia sp., or Pichia scolyti, and a log inoculated with a combination of these three microorganisms. Over 2 years, 5163 Hymenoptera were captured, of which over 98% were parasitoids. Braconidae, Platygastridae, Encyrtidae, Pteromalidae, and Ichneumonidae were the most abundant. Seven known species of bark beetle parasitoids (all Pteromalidae) were captured. However, parasitoids of Diptera, Lepidoptera, Hymenoptera, and non-wood-boring Coleoptera were also common. Nineteen species showed preferential attraction to host plants infested with I. pini and its complement of microorganisms, host plants inoculated with I. pini microbial symbionts, or host plants alone. Interestingly, many of these species were parasitoids of phytophagous, fungivorous, and saprophytic insects rather than of bark beetles themselves. These results suggest that a diverse assemblage of natural enemies that attack various feeding guilds within a common habitat exploit common olfactory cues.
AB - Colonization of a tree by bark beetles and their symbionts creates a new habitat for a diverse assemblage of arthropods, including competing herbivores, xylophages, fungivores, saprophages, predators, and parasitoids. Understanding these assemblages is important for evaluating nontarget effects of various management tactics and for subsequently evaluating how changes in climate, the presence of invasive species, and altered forestry practices and land-use tenure may affect biodiversity. We characterized the assemblage of hymenopterans attracted to logs of ponderosa pine (Pinus ponderosa C. Lawson (Pinaceae)) colonized by the bark beetle Ips pini (Say) and its microbial symbionts. In one experiment, the composition and relative abundances of species arriving at hosts colonized by I. pini, and possible sources of attraction, were determined. Treatments consisted of a log containing I. pini with its natural complement of microorganisms, a log alone, and a blank control. A second experiment was carried out to determine whether or not Hymenoptera were attracted to microbial symbionts of I. pini. Treatments consisted of a blank control, a log alone, a log containing I. pini with its natural complement of microorganisms, either Ophiostoma ips, Burkholderia sp., or Pichia scolyti, and a log inoculated with a combination of these three microorganisms. Over 2 years, 5163 Hymenoptera were captured, of which over 98% were parasitoids. Braconidae, Platygastridae, Encyrtidae, Pteromalidae, and Ichneumonidae were the most abundant. Seven known species of bark beetle parasitoids (all Pteromalidae) were captured. However, parasitoids of Diptera, Lepidoptera, Hymenoptera, and non-wood-boring Coleoptera were also common. Nineteen species showed preferential attraction to host plants infested with I. pini and its complement of microorganisms, host plants inoculated with I. pini microbial symbionts, or host plants alone. Interestingly, many of these species were parasitoids of phytophagous, fungivorous, and saprophytic insects rather than of bark beetles themselves. These results suggest that a diverse assemblage of natural enemies that attack various feeding guilds within a common habitat exploit common olfactory cues.
UR - http://www.scopus.com/inward/record.url?scp=77649252301&partnerID=8YFLogxK
U2 - 10.4039/n09-004
DO - 10.4039/n09-004
M3 - Article
AN - SCOPUS:77649252301
SN - 0008-347X
VL - 141
SP - 172
EP - 199
JO - Canadian Entomologist
JF - Canadian Entomologist
IS - 2
ER -