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SURVIVAL AND GROWTH OF THE ANOBIID BEETLE XYLETINUS PELTATUS (COLEOPTERA: ANOBIIDAE) ON VARIOUS WOODS

Published online by Cambridge University Press:  31 May 2012

Lonnie H. Williams  and
Joe K. Mauldin
Lonnie H. Williams
Affiliation:
Southern Forest Experiment Station, Forest Service, USDA, Gulfport, Mississippi 39503
Joe K. Mauldin
Affiliation:
Southern Forest Experiment Station, Forest Service, USDA, Gulfport, Mississippi 39503
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Abstract

Although wood species was a statistically significant influence on percentages of eggs that hatched and larvae that tunneled into wood, these percentages were > 85% on most woods tested. Of eight test woods, yellow-poplar sapwood was preferred for egg-laying and was best for larval survival and growth. Slash pine was also favorable for egg-laying, survival, and growth. Beetles laid more eggs on Douglas-fir plywood and sweetgum than on shortleaf pine, but larvae did not survive in the plywood, and tunneled extensively without appreciable growth in sweetgum; larvae survived and grew well in shortleaf pine. The beetle life cycle is at least 2 years in favorable woods and may be 3–5 years in unfavorable woods.

Résumé

Quoique l’essence végétale ait eu une influence statistiquement significative sur les pourcentages d’éclosion des œufs et des larves ayant foré une galerie, ces pourcentages étaient supérieurs à 85% pour la plupart des essences testées. Parmi les huit essences testées, l’aubier du tulipier était préféré pour la ponte et s’avérait le meilleur pour la survie et la croissance. Pinus elliotti était aussi favorable pour la ponte, la survie et la croissance. Les scolytes ont pondu plus d’œufs sur du contreplaqué de pin Douglas ou sur le liquidambar que sur Pinus echinata, mais les larves n’ont pas survécu sur le contreplaqué et ont foré abondamment dans le liquidambar sans croissance notable; les larves ont montré une survie et une croissance élevées sur Pinus echinata. Le cycle vital dure au moins 2 ans dans du bois convenable et pourrait atteindre 3–5 ans sur des essences peu convenables.

Type
Articles
Information
The Canadian Entomologist , Volume 113 , Issue 7 , July 1981 , pp. 651 - 657
Copyright
Copyright © Entomological Society of Canada 1981

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References

Bletchly, J. D. 1956. III. The work of the Entomology section with particular reference to the common furniture beetle, Anobium punctatum Deg. Proc. Linn. Soc. Lond. 1956: 111115.Google Scholar
Bletchly, J. D. 1966. Aspects of the habits and nutrition of the Anobiidae with special reference to Anobium punctatum. pp. 371381in Holz und Organismen, Heft 1. Int. Symp. Berlin-Dahlem 1965.Google Scholar
Bletchly, J. D. 1969. Seasonal differences in nitrogen content of Scots pine (Pinus sylvestris) sapwood and their effects on the development of the larvae of the common furniture beetle (Anobium punctatum De G.). J. Inst. Wood Sci. 22(4): 4347.Google Scholar
Bletchly, J. D. and Farmer, R. H.. 1959. Some investigations into the susceptibility of Corsican and Scots pines and of European oak to attack by the common furniture beetle, Anobium punctatum Deg. (Col. Anobiidae). J. Inst. Wood Sci. 26(3): 220.Google Scholar
Bletchly, J. D. and Taylor, Jean M.. 1964. Investigations on the susceptibility of home-grown sitka spruce (Picea sitchensis) to attack by the common furniture beetle (Anobium punctatum Deg.). J. Inst. Wood Sci. 27(12): 2943.Google Scholar
Casimir, J. M. 1955. The common furniture beetle. Australian For. 19: 2634.CrossRefGoogle Scholar
Mauldin, J. K. and Smythe, R. V.. 1973. Protein-bound amino acid content of normally and abnormally faunated Formosan termites, Coptotermes formosanus. J. Insect Physiol. 19: 19551960.CrossRefGoogle Scholar
Moore, H. B. 1970. Incubation time of eggs of Xyletinus peltatus (Coleoptera: Anobiidae) under constant temperatures and humidities. Ann. ent. Soc. Am. 63: 617618.CrossRefGoogle Scholar
Williams, L. H. 1972. Roller cages for study of wood-products insects in building crawl spaces. J. econ. Ent. 65: 613615.CrossRefGoogle Scholar
Williams, L. H. 1973. Identifying wood-destroying beetles. Pest Control 41(5): 30, 32, 34, 36, 38, 40.Google Scholar
Williams, L. H. 1977. Responses of Xyletinus peltatus ((Harris) Coleoptera: Anobiidae) larvae to favorable and unfavorable temperatures. Mater. Org. 12(1): 5967.Google Scholar
Williams, L. H. and Mauldin, J. K.. 1974. Anobiid beetle, Xyletinus peltatus (Coleoptera: Anobiidae), oviposition on various woods. Can. Ent. 106: 949955.CrossRefGoogle Scholar
Williams, L. H. and Smythe, R. V.. 1978. Wood-destroying beetle treatment incidence in Arkansas and Georgia during 1962 and 1967 with estimated losses caused by beetles for 11 southern states during 1970. U.S. Dep. Agric. For. Serv. Res. Pap. SO-143.Google Scholar