Hostname: page-component-76fb5796d-x4r87 Total loading time: 0 Render date: 2024-04-27T16:57:03.928Z Has data issue: false hasContentIssue false
  • English
  • Français

PRIMARY ATTRACTION OF IPS LATIDENS (LECONTE) AND HYLASTES GRACILIS LECONTE (COLEOPTERA: SCOLYTIDAE) TO HIGH-GIRDLED LODGEPOLE PINE, PINUS CONTORTA VAR. LATIFOLIA ENGELMANN

Published online by Cambridge University Press:  31 May 2012

D.R. Miller ,
J.L. Madden  and
J.H. Borden
D.R. Miller
Affiliation:
Centre for Pest Management, Department of Biological Sciences, Simon Fraser University, Burnaby, British Columbia, Canada V5A 1S6
J.L. Madden
Affiliation:
Faculty of Agricultural Science, University of Tasmania, Hobart, Tasmania, Australia
J.H. Borden
Affiliation:
Centre for Pest Management, Department of Biological Sciences, Simon Fraser University, Burnaby, British Columbia, Canada V5A 1S6
Get access Rights & Permissions [Opens in a new window]

Abstract

In the absence of secondary attraction, 2 species of Scolytidae, Ips latidens (LeConte) and Hylastes gracilis LeConte, showed significant preference while in flight for high-girdled over non-girdled lodgepole pines, Pinus contorta var. latifolia Engelmann. In contrast, beetles in 2 genera of Elateridae, Ampedus and Ctenicera, showed significant preference for non-girdled over high-girdled lodgepole pines. Beetles in 12 other families, as well as other scolytids and elaterids, did not show any significant preference or aversion to high-girdled trees. This is the first clear demonstration of primary attraction for a North American Ips species and the second for an Hylastes species.

Résumé

En l’absence d’attraction secondaire, 2 espèces de Scolytidae, Ips latidens (LeConte) et Hylastes gracilis LeConte ont montré une préférence significative, en vol, pour des pins Pinus contorta var. latifolia Engelmann ceinturés haut plutôt que non ceinturés. A l’inverse, des coléoptères représentant 2 genres d’Elateridae, Ampedus et Ctenicera, ont montré une préférence significative pour des pins non ceinturés plutôt que ceinturés haut. Des coléoptères représentant 12 autres familles ainsi que d’autres scolytidés et élatéridés n’ont pas montré de préférence ou d’aversion pour les pins ceinturés haut. Il s’agit de la première démonstration d’attraction primaire chez une espèce nord-américaine d’Ips, et de la seconde pour une espèce d’Hylastes.

Type
Articles
Information
The Canadian Entomologist , Volume 118 , Issue 2 , February 1986 , pp. 85 - 88
Copyright
Copyright © Entomological Society of Canada 1986

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Atkins, M.D. 1966. Behavioural variation among scolytids in relation to their habitat. Can. Ent. 98: 285288.CrossRefGoogle Scholar
Bauer, J., and Vité, J.P.. 1975. Host selection by Trypodendron lineatum. Naturwiss. 62: 539.CrossRefGoogle Scholar
Birch, M.C. 1984. Aggregation in bark beetles. pp. 331–353 in Bell, W.J., and Carde, R.T. (Eds.), Chemical Ecology of Insects. Chapman and Hall Ltd. 524 pp.Google Scholar
Borden, J.H. 1982. Aggregation pheromones. pp. 74–139 in Mitton, J.B., and Sturgeon, K.B. (Eds.), Bark Beetles in North American Conifers. A System for the Study of Evolutionary Biology. Univ. Texas Press, Austin. 527 pp.Google Scholar
Cade, S.B., Hrutfiord, B.F., and Gara, R.I.. 1970. Identification of a primary attractant for Gnathotrichus sulcatus isolated from western hemlock logs. J. econ. Ent. 63: 10141015.CrossRefGoogle Scholar
Madden, J.L. 1968. Physiological aspects of host tree favourability for the woodwasp, Sirex noctilio F. Proc. ecol. Soc. Australia 3: 147149.Google Scholar
Madden, J.L. 1977. Physiological reactions of Pinus radiata to attack by woodwasp Sirex noctilio F. (Hymenoptera: Siricidae). Bull. ent. Res. 67: 405425.CrossRefGoogle Scholar
Miller, D.R., and Borden, J.H.. 1985. Life history and biology of Ips latidens (LeConte) (Coleoptera: Scolytidae). Can. Ent. 117: 859871.CrossRefGoogle Scholar
Moeck, H.A. 1970. Ethanol as the primary attractant for the ambrosia beetle Trypodendron lineatum (Coleoptera: Scolytidae). Can. Ent. 102: 985995.CrossRefGoogle Scholar
Moeck, H.A. 1971. Field test of ethanol as a scolytid attractant. Can. Dept. Fish. For. Bi-mon. Res. Notes 27: 1112.Google Scholar
Moeck, H.A., Wood, D.L., and Lindahl, K.Q. Jr., 1981. Host selection behavior of bark beetles (Coleoptera: Scolytidae) attacking Pinus ponderosa, with special emphasis on the western pine beetle, Dendroctonus brevicomis. J. Chem. Ecol. 7: 4983.CrossRefGoogle Scholar
Nijholt, W.W., and Schönherr, J.. 1976. Chemical response behavior of scolytids in West Germany and western Canada. Environ. Can. For. Serv. Bi-mon. Res. Notes 32: 3132.Google Scholar
Sokal, R.R., and Rohlf, F.J.. 1981. Biometry. The principles and practice of statistics in biological research (2nd ed.). W.H. Freeman and Company, San Francisco. 859 pp.Google Scholar
Werner, R.A. 1972. Aggregation behaviour of the beetle Ips grandicollis in response to host-produced attractants. J. Insect Physiol. 18: 423437.CrossRefGoogle Scholar
Wood, D.L. 1982. The role of pheromones, kairomones, and allomones in the host selection and colonization behavior of bark beetles. Annu. Rev. Ent. 27: 411446.CrossRefGoogle Scholar