Hostname: page-component-cd9895bd7-dk4vv Total loading time: 0 Render date: 2024-12-25T06:16:59.321Z Has data issue: false hasContentIssue false

THE ARRIVAL SEQUENCE OF THE ARTHROPOD COMPLEX FOLLOWING ATTACK BY DENDROCTONUS BREVICOMIS (COLEOPTERA: SCOLYTIDAE) IN PONDEROSA PINE1

Published online by Cambridge University Press:  31 May 2012

Frederick M. Stephen
Affiliation:
Division of Biological Control, Department of Entomological Sciences, University of California, Berkeley
Donald L. Dahlsten
Affiliation:
Division of Biological Control, Department of Entomological Sciences, University of California, Berkeley

Abstract

Continuous trapping on the bark surface of Dendroctonus brevicomis LeConte infested trees in the central Sierra Nevada mountains was undertaken with the objective of determining the spatial and temporal arrival patterns of the natural enemies and other insect associates of the western pine beetle. Over 100 species of D. brevicomis associates were collected and patterns of arrival were described for many of these. The main bark beetle predators were trapped during D. brevicomis mass arrival and shortly thereafter. Enoclerus lecontei, Temnochila chlorodia, and Aulonium longum, all predaceous beetles on D. brevicomis adults and larvae, were among the first species to arrive, as was Medetera aldrichii (Diptera), a larval predator. The bark beetle parasites Roptrocerus xylophagorum and Dinotiscus (=Cecidostiba) burkei (Hymenoptera) were well synchronized with the beetles’ life cycle as they arrived late in the beetles’ larval stages when suitable hosts were available.

Approximately twice as many associates were trapped in the first (spring) beetle generation as in the second (fall). Differences between species with regard to height distribution were common, and these often varied with seasonal beetle generation.

Calculations of changes in species diversity through time, of the associate complex trapped at the bark surface, were made for both the first and second beetle generation. Linear correlation analysis indicated a highly significant increase in species diversity occurred from the time of the beetles’ mass arrival until brood emergence. This increase may correspond to an increase in diversity of the structure of the subcortical community, as more insect species arrived and progressively modified the habitat of the newly killed tree.

Type
Articles
Copyright
Copyright © Entomological Society of Canada 1976

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

REFERENCES

Ashraf, M. and Berryman, A. A.. 1969. Biology of Scolytus ventralis (Coleoptera: Scolytidae) attacking Abies grandis in northern Idaho. Melanderia 2. 23 pp..Google Scholar
Ball, J. C. and Dahlsten, D. L.. 1973. Hymenopterous parasites of Ips paraconfusus (Coleoptera: Scolytidae) larvae and their contribution to mortality. I. Influence of host tree and tree diameter on parasitization. Can. Ent. 105: 14531464.CrossRefGoogle Scholar
Beaver, R. A. 1966. The biology and immature stages of two species of Medetera (Diptera: Dolichopodidae) associated with the bark beetle Scolytus scolytus (F.). Proc. R. ent. Soc. Lond. (A) 41(10–12): 145154.Google Scholar
Bedard, W. D., Tilden, P. E., Wood, D. L., Silverstein, R. M., Brownlee, R. G., and Rodin, J. O.. 1969. Western pine beetle: field response to its sex pheromone and a synergistic host terpene, myrcene. Science 164: 12841285.CrossRefGoogle Scholar
Berryman, A. A. 1970. Evaluation of insect predators of the western pine beetle, pp. 102–112. In Stark, R. W. and Dahlsten, D. L. (Eds.), Studies on the population dynamics of the western pine beetle, Dendroctonus brevicomis LeConte (Coleoptera: Scolytidae). Univ. Calif. Div. Agric. Sci., Berkeley. 174 pp.Google Scholar
Blackman, M. W. and Stage, H. H.. 1924. On the succession of insects living in the bark and wood of dying, dead and decaying hickory. N.Y. State Coll. Forestry, Tech. Publ. Syracuse Univ., No. 17. 240 pp.Google Scholar
Camors, F. B. Jr. and Payne, T. L.. 1972. Response of Heydenia unica (Hymenoptera: Pteromalidae) to Dendroctonus frontalis (Coleoptera: Scolytidae) pheromones and a host-tree terpene. Ann. ent. Soc. Am. 65: 3133.CrossRefGoogle Scholar
Camors, F. B. 1973. Sequence of arrival of entomophagous insects to trees infested with the southern pine beetle. Environ. Ent. 2: 267270.CrossRefGoogle Scholar
Chansler, J. F. 1967. Biology and life history of Dendroctonus adjunctus (Coleoptera: Scolytidae). Ann. ent. Soc. Am. 60: 760767.CrossRefGoogle Scholar
Cole, F. R. 1969. The flies of Western North America. Univ. of California Press, Berkeley. 693 pp.Google Scholar
Colinvaux, P. A. 1973. Introduction to ecology. Wiley, New York. 621 pp.Google Scholar
Dahlsten, D. L. 1970. Parasites, predators, and associated organisms reared from western pine beetle infested bark samples, pp. 75–79. In Stark, R. W. and Dahlsten, D. L. (Eds.), Studies on the population dynamics of the western pine beetle, Dendroctonus brevicomis LeConte (Coleoptera: Scolytidae). Univ. Calif. Div. Agric. Sci., Berkeley. 174 pp.Google Scholar
Dahlsten, D. L. and Bushing, R. W.. 1970. Insect parasites of the western pine beetle, pp. 113–118. In Stark, R. W. and Dahlsten, D. L. (Eds.), Studies on the population dynamics of the western pine beetle, Dendroctonus brevicomis LeConte (Coleoptera: Scolytidae). Univ. Calif. Div. Agric. Sci., Berkeley. 174 pp.Google Scholar
Dahlsten, D. L. and Stephen, F. M.. 1974. Natural enemies and insect associates of the mountain pine beetle, Dendroctonus ponderosae (Coleoptera: Scolytidae), in sugar pine. Can. Ent. 106: 12111217.CrossRefGoogle Scholar
DeLeon, D. 1934. An annotated list of the parasites, predators, and other associated fauna of the mountain pine beetle in western white pine and lodgepole pine. Can. Ent. 66: 5161.CrossRefGoogle Scholar
DeLeon, D. 1935. A study of Medetera aldrichii Wheeler (Diptera: Dolichopodidae), a predator of the mountain pine beetle (Dendroctonus monticolae Hopk., Coleoptera: Scolytidae). Entomologica am. 15(2): 5591.Google Scholar
DeMars, C. J. 1970. Frequency distributions, data transformation, and analysis of variations used in determination of optimum sample size and effort for broods of the western pine beetle, pp. 42–65. In Stark, R. W. and Dahlsten, D. L. (Eds.), Studies on the population dynamics of the western pine beetle, Dendroctonus brevicomis LeConte (Coleoptera: Scolytidae). Univ. Calif. Div. Agric. Sci., Berkeley. 174 pp.Google Scholar
Dudley, C. O. 1971. A sampling design for the eggs and first instar larval populations of the western pine beetle, Dendroctonus brevicomis (Coleoptera: Scolytidae). Can. Ent. 103: 12911313.CrossRefGoogle Scholar
Hackwell, G. A. 1973. Biology of Lasconotus subcostulatus (Coleoptera: Colydiidae) with special reference to feeding behavior. Ann. ent. Soc. Am. 66: 6265.CrossRefGoogle Scholar
Kovalev, V. G. 1972. Diptera of the genera Drapetis Mg. and Crossopalus Bigot (Empididae) of the European part of the USSR. Rev. Ent. USSR.: 173196.Google Scholar
MacArthur, R. H. 1972. Geographical ecology: Patterns in the distribution of species. Harper and Row, New York. 269 pp.Google Scholar
Miller, J. M. and Keen, F. P.. 1960. Biology and control of the western pine beetle. Misc. Publ. U.S. For. Ser., No. 800. 381 pp.Google Scholar
Moser, J. C., Thatcher, R. C., and Pickard, L. S.. 1971. Relative abundance of southern pine beetle associates in east Texas. Ann. ent. Soc. Am. 64: 7277.CrossRefGoogle Scholar
Overgaard, N. A. 1968. Insects associated with the southern pine beetle in Texas, Louisiana, and Mississippi. J. econ. Ent. 61: 11971201.CrossRefGoogle Scholar
Ryan, R. B. and Rudinsky, J. A.. 1962. Biology and habits of the Douglas-fir beetle parasite, Coeloides brunneri Viereck (Hymenoptera: Braconidae), in western Oregon. Can. Ent. 94: 748763.CrossRefGoogle Scholar
Savely, H. E. Jr. 1939. Ecological relations of certain animals in dead pine and oak logs. Ecol. Monogr. 9: 321385.CrossRefGoogle Scholar
Schmid, J. M. 1969. Laphria gilva (Diptera: Asilidae) a predator of Dendroctonus ponderosae in the Black Hills of South Dakota. Ann. ent. Soc. Am. 63: 12371241.CrossRefGoogle Scholar
Schmid, J. M. 1970. Medetera aldrichii (Diptera: Dolichopodidae) in the Black Hills. I. Emergence and behavior of adults. Can. Ent. 102: 705713.CrossRefGoogle Scholar
Shannon, C. E. and Weaver, W.. 1963. The mathematical theory of communication. Univ. of Illinois Press, Urbana. 117 pp.Google Scholar
Shelford, V. E. 1913. Animal communities in temperate America. Bull. Geogr. Soc. Chicago, No. 5. 362 pp.Google Scholar
Sokal, R. R. and Rohlf, F. J.. 1969. Biometry. Freeman, San Francisco. 776 pp.Google Scholar
Stark, R. W. and Dahlsten, D. L. (Eds.). 1970. Studies on the population dynamics of the western pine beetle, Dendroctonus brevicomis LeConte (Coleoptera: Scolytidae). Univ. Calif. Div. Agric. Sci., Berkeley. 174 pp.Google Scholar
Stephen, F. M. and Dahlsten, D. L.. 1976. The temporal and spatial arrival pattern of Dendroctonus brevicomis in ponderosa pine. Can. Ent. 108: 271282.CrossRefGoogle Scholar
Struble, G. R. 1930. The biology of certain Coleoptera associated with bark beetles in western yellow pine. Univ. Calif. Publs Ent. 5(6): 105134.Google Scholar
Struble, G. R. 1942. Biology of two native coleopterous predators on the mountain pine beetle in sugar pine. Pan-Pacif. Ent. 18: 97107.Google Scholar
Thompson, W. R. 1954. A catalogue of the parasites and predators of insect pests. Commonwealth Institute of Biological Control. Sec. 2, Part 3, pp. 191332.Google Scholar
Wilhm, J. L. 1972. Graphical and mathematical analyses of biotic communities in polluted streams. A. Rev. Ent. 17: 223252.CrossRefGoogle Scholar
Wood, D. L. 1972. Selection and colonization of ponderosa pine by bark beetles, pp. 101117. Insect-plant relationships. Symp. Roy. ent. Soc. Lond., No. 6.Google Scholar
Wood, D. L., Browne, L. E., Bedard, W. D., Tilden, P. E., Silverstein, R. M., and Rodin, J. O.. 1968. Response of Ips confusus to synthetic sex pheromones in nature. Science 159: 13731374.CrossRefGoogle ScholarPubMed