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LIGHTNING IN THE ECOLOGY OF THE SOUTHERN PINE BEETLE, DENDROCTONUS FRONTALIS (COLEOPTERA: SCOLYTIDAE)

Published online by Cambridge University Press:  31 May 2012

J. D. Hodges  and
L. S. Pickard
J. D. Hodges
Affiliation:
Southern Forest Experiment Station, USDA Forest Service, Pineville, Louisiana
L. S. Pickard
Affiliation:
Southern Forest Experiment Station, USDA Forest Service, Pineville, Louisiana
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Abstract

Loblolly pine trees struck by lightning offer a favorable attack and brood environment for the southern pine and Ips beetles. In central Louisiana lightning strikes reduced oleoresin exudation pressure, oleoresin flow, and relative water content of inner-bark tissue and resulted in a decrease in sucrose and an increase in reducing-sugar content of inner bark. Interspecific competition was much greater in struck trees than nonstruck trees. Among struck trees, those with highest carbohydrate levels produced the most numerous broods of the southern pine beetle.

Type
Articles
Information
The Canadian Entomologist , Volume 103 , Issue 1 , January 1971 , pp. 44 - 51
Copyright
Copyright © Entomological Society of Canada 1971

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References

Anderson, N. H., and Anderson, D. B.. 1968. Ips bark beetle attacks and brood development on a lightning-struck pine in relation to its physiological decline. Fla Ent. 51(1): 2330.CrossRefGoogle Scholar
Barras, S. J., and Hodges, J. D.. 1969. Carbohydrates of inner bark of Pinus taeda as affected by Dendroctonus frontalis and associated microorganisms. Can. Ent. 101: 489493.CrossRefGoogle Scholar
Beal, J. A., and Massey, C. L.. 1945. Bark beetles and ambrosia beetles (Colepotera: Scolytoidae): with special reference to species occurring in North Carolina. Duke Univ. Sch. For. Bull. 10, 173 pp.Google Scholar
Goeden, R. D., and Norris, D. M. Jr. 1964. Attraction of Scolytus quadrispinosus (Coleoptera: Scolytidae) to Carya spp. for oviposition. Ann. ent. Soc. Am. 57: 141146.CrossRefGoogle Scholar
Goeden, R. D., 1965. The behavior of Scolytus quadrispinosus (Coleoptera: Scolytidae) during the dispersal flight as related to its host specificities. Ann. ent. Soc. Am. 58: 249252.CrossRefGoogle Scholar
Hetrick, L. A. 1949 a. Some overlooked relationships of southern pine beetle. J. econ. Ent. 42: 466469.CrossRefGoogle Scholar
Hetrick, L. A. 1949 b. Susceptibility of pine trees to bark beetle attack. Arborist's News 14: 149151.Google Scholar
Hodges, J. D., Barras, S. J., and Mauldin, J. K.. 1968. Amino acids in inner bark of loblolly pine, as affected by the southern pine beetle and associated microorganisms. Can. J. Bot. 46: 14671472.CrossRefGoogle Scholar
Hodges, J. D., and Lorio, P. L. Jr. 1968. Measurement of oleoresin exudation pressure in loblolly pine. Forest Sci. 14: 7576.Google Scholar
Hopkins, A. D. 1909. Practical information on the scolytid beetles of North American forests. I: Barkbeetles of the genus Dendroctonus. U.S. Dep. Agric. Bur. Ent. Bull. 83, 169 pp.Google Scholar
Johnson, P. C. 1966. Attractiveness of lightning-struck ponderosa pine trees to Dendroctonus brevicomis (Coleoptera: Scolytidae). Ann. ent. Soc. Am. 59: 615.CrossRefGoogle Scholar
Knull, J. W. 1934. The southern pine beetle in Pennsylvania (Dendroctonus frontalis Zimm.). J. econ. Ent. 27: 716718.CrossRefGoogle Scholar
Nelson, N. 1944. A photometric adaptation of the Somogyi method for determination of glucose. J. biol. Chem. 153: 375380.CrossRefGoogle Scholar
Rosen, H. 1957. A modified ninhydrin colorimetric analysis for amino acids. Arch. Biochem. Biophys. 67: 1015.CrossRefGoogle ScholarPubMed
Smith, D., Paulsen, G. M., and Raguse, G. A.. 1964. Extraction of total available carbohydrates from grass and legume tissue. Plant Physiol. 39: 960962.CrossRefGoogle ScholarPubMed
St. George, R. A. 1930. Drought affected and injured pines attractive to bark beetles. J. econ. Ent. 23: 825828.CrossRefGoogle Scholar
Thatcher, R. C. 1960. Bark beetles affecting southern pines: a review of current knowledge. U.S. Dep. Agric. Sth. Forest Exp. Stn Occas. Pap. 180, 25 pp.Google Scholar
Thatcher, R. C., and Pickard, L. S.. 1964. Seasonal variations in activity of the southern pine beetle in east Texas. J. econ. Ent. 57: 840842.CrossRefGoogle Scholar
Vité, J. P., Gara, R. I., and von Scheller, H. D.. 1964. Field observations on the response to attractant of bark beetles infesting southern pines. Contr. Boyce Thompson Inst. Pl. Res. 22: 461470.Google Scholar
Weatherley, P. E. 1950. Studies in the water relations of the cotton plant. I: The field measurement of water deficits in leaves. New Phytol. 49: 8197.CrossRefGoogle Scholar