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SCOLYTIDS (COLEOPTERA) ON SNOWFIELDS ABOVE TIMBERLINE IN OREGON AND WASHINGTON

Published online by Cambridge University Press:  31 May 2012

Abstract

Scolytids were collected from snowfields above timberline in Oregon and Washington. The most productive location was Collier Glacier on Middle Sister Mountain, Ore., where 334 specimens representing 20 species were collected on 4 August 1968. Collections from seven mountains comprised 476 specimens, 12 genera, and 26 species. Hylastes nigrinus (Mann.) made up 63% of the specimens collected. The collections demonstrated that bark beetles had been dispersed vertically and horizontally thousands of feet from the nearest possible source. Phloeosinus chamberlini Blkm. was found 15 miles from the closest known host tree. Behavioral and meteorological factors involved in the dispersal of scolytids to snowfields are known only circumstantially. Certain species are thought to fly skyward initially. Some individuals presumably are carried aloft by warm updrafts and their fallout occurs when the air becomes too cool for flight.

Type
Articles
Copyright
Copyright © Entomological Society of Canada 1972

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References

Atkins, M. D. 1961. A study of the flight of the Douglas-fir beetle, Dendroctonus pseudotsugae Hopk. (Coleoptera: Scolytidae). III. Flight capacity. Can. Ent. 93: 467474.CrossRefGoogle Scholar
Atkins, M. D. 1969. Lipid loss with flight in the Douglas-fir beetle. Can. Ent. 101: 164165.CrossRefGoogle Scholar
Chapman, J. A. 1954. Observations on snow insects in western Montana. Can. Ent. 86: 357363.CrossRefGoogle Scholar
Chapman, J. A. 1966. The effect of attack by the ambrosia beetle Trypodendron lineatum (Olivier) on log attractiveness. Can. Ent. 98: 5059.Google Scholar
Chapman, J. A. 1966. Analysis of factors influencing arrival of scolytid beetles at sources of attractive odors. 18th Ann. Meeting, Ent. Soc. Canada, Saskatoon, Sask., Canada, Aug. 26–28, 1968. (Unpub.)Google Scholar
Collins, C. W. and Baker, W. L.. 1934. Exploring the upper air for wind-borne gypsy moth larvae. J. econ. Ent. 27: 320327.Google Scholar
Edwards, J. G. 1956. Entomology above timberline. Mazama Club Ann. (Portland, Ore.) 38(13): 1317.Google Scholar
Edwards, J. S. 1970. Insect fallout on the Gulkana Glacier, Alaska Range. Can. Ent. 102: 11691170.Google Scholar
Elton, C. S. 1925. The dispersal of insects to Spitsbergen. Trans. ent. Soc. Lond. 1925: 289299.Google Scholar
Glick, P. A. 1939. The distribution of insects, spiders, and mites in the air. U.S. Dep. Agric. Tech. Bull. 673. 150 p.Google Scholar
Hardy, A. C. and Milne, P. S.. 1938. Studies in the distribution of insects by aerial currents. Experiments in aerial tow-netting from kites. J. Anim. Ecol. 7: 199229.CrossRefGoogle Scholar
Henson, W. R. 1966. The analysis of dispersal mechanisms in Conophthorus coniperda Sz. Biometeorology II. 3rd int. Biometeorol. Congr. Proc. (Pau, S. France) 1–7 Sept. 1963. p. 541549.Google Scholar
Johnson, C. G. 1951. The study of wind-borne insect populations in relation to terrestrial ecology, flight periodicity and the estimation of aerial populations. Scient. Progr. 39: 4162.Google Scholar
Johnson, C. G., Taylor, L. R., and Southwood, T. R. E.. 1962. High altitude migration of Oscinella frit L. (Diptera: Chloropidae). J. Anim. Ecol. 31: 373383.CrossRefGoogle Scholar
Kaisila, J. 1952. Insects from arctic mountain snows. Suom. hyönt. Aikak. (Ann. ent. fenn.) 18: 825.Google Scholar
Smith, H. W. and Furniss, M. M.. 1966. An automatically recording insect flight mill. Can. Ent. 98: 249252.CrossRefGoogle Scholar
Southwood, T. R. E., Jepson, W. F., and van Emden, H. F.. 1961. Studies on the behavior of Oscinella frit L. (Diptera) adults of the panicle generation. Ent. exp. appl. 4: 196210.Google Scholar
Taylor, L. R. 1960. The distribution of insects at low levels in the air. J. Anim. Ecol. 29: 4563.Google Scholar
Terrell, T. T. The flights or dissemination of forest insects. 1933. U.S. Bur. Entomol. and Plant Quar., Coeur d'Alene, Ida. Typed report (unpub.). 14 p. + 3 figs. Mar. 3, 1934.Google Scholar
Van Dyke, E. C. 1919. A few observations on the tendency of insects to collect on ridges and mountain snowfields. Ent. News 30: 241244.Google Scholar
Wellington, W. G. 1945. Conditions governing the distribution of insects in the free atmosphere. Can. Ent. 77: 7–15, 21–28, 44–49, 6974.CrossRefGoogle Scholar