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Presence of water-soluble materials on cotton terminals as related to bollwoxm (Lepidoptera: Noctuidae) resistance

Published online by Cambridge University Press:  27 March 2009

H. L. Bhardwaj ,
J. B. Weaver  and
R. F. Severson
H. L. Bhardwaj
Affiliation:
Department of Agronomy, University of Georgia, Athens, Georgia 30602, U.S.A.
J. B. Weaver
Affiliation:
Department of Agronomy, University of Georgia, Athens, Georgia 30602, U.S.A.
R. F. Severson
Affiliation:
USDA-ARS, Russell Research Laboratory, Athens, Georgia 30605, U.S.A.
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Extract

Bollworms (Heliothis zea Boddie and H. virescens F.) are serious cotton pests. During 1980, the cotton crop in U.S.A. suffered an 8·73% loss due to insect pests; 3·07% of this loss was due to the damage caused by bollworms. This 8·73% loss in cotton production occurred despite control measures adopted by cotton growers at an average cost of $36.27 per acre (Anon. 1981). Four plant characteristics impart varying degrees of host-plant resistance against bollworms in cotton (Maxwell, 1977). The bollworm moths exhibit an oviposition nonpreference towards glabrous and nectarless cottons. Presence of high gossypol and ‘X-factors’ in plant parts detrimentally affects the growth and survival of bollworm larvae. The ‘X-factors’ are unknown chemical substances that impart host-plant resistance against bollworms in cotton. This resistance was shown to be heritable by Lukefahr et al. (1974).

Type
Short Notes
Information
The Journal of Agricultural Science , Volume 109 , Issue 1 , August 1987 , pp. 193 - 195
Copyright
Copyright © Cambridge University Press 1987

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References

Anon. (1981). 34th Annual Conference Report on Cotton Insect Research and Control. United States Department of Agriculture, A106.28/2.981.Google Scholar
Bhardwaj, H. L. & Weaver, J. B. Jr, (1983). Bollworm resistance in red leaf cotton. In Proceedings of Belturide Cotton Production and Research Conference, San Antonio, Texas, 2–6 01 1983 (ed. Brown, J. M.), pp. 117119. Memphis, Tennessee, U.S.A.: National Cotton Council.Google Scholar
Culp, T. W., Taft, H. M. & Hopkins, A. R. (1977). Reaction of several cotton cultivars to cotton insects in South Carolina. In Proceedings of Beltwide Cotton Production and Research Conference, Atlanta, Georgia, 10–12 01 1977 (ed. Brown, J. M.), p. 97. Memphis, Tennessee, U.S.A.: National Cotton Council.Google Scholar
Jenkins, J. N., Parrott, W. L. & McCarty, J. C Jr, (1983). Breeding cotton for resistance to Heliothis virescens. In Proceedings of Beltwide Cotton Production and Research Conference. San Antonio, Texas, 2–6 01 1983 (ed. Brown, J. M.), p. 70. Memphis, Tennessee, U.S.A.: National Cotton Council.Google Scholar
Johnson, A. W. & Severson, R. F. (1984). Leaf chemistry of tobacco budworm resistant tobacco. Journal of Agricultural Entomology 1, 2332.Google Scholar
Lukefahr, M. J., Shaver, T. N., Cruhm, D. B. & Houghtaling, J. E. (1974). Location, transfer and recovery of a Heliothis growth inhibition factor present in three Oossypium hirsutum race stocks. In Proceedings of Beltwide Cotton Production and Research Conference, Dallas, Texas, 7–9 01 1974 (ed. Brown, J. M.), pp. 9395. Memphis, Tennessee, U.S.A.: National Cotton Council.Google Scholar
Maxwell, F. G. (1977). Plant resistance to cotton insects. Entomological Society of America Bulletin 23, 199203.CrossRefGoogle Scholar
Stone, T. B., Thompson, A. C. & Pitre, H. N. (1985). Analysis of lipids in cotton extrafloral nectar. Journal of Entomological Science 20, 422428.CrossRefGoogle Scholar