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Pupal diapause in Heliothis armigera (Hübner) (Lepidoptera: Noctuidae) in Botswana: its regulation by environmental factors

Published online by Cambridge University Press:  10 July 2009

R. E. Roome
R. E. Roome
Affiliation:
Centre for Overseas pest research, College House, Wrights lane, London W8 5SJ, UK.
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Abstract

Heliothis armigera (Hb.) has been shown to develop continuously in tropical areas but to become more dependent with increasing latitude on a pupal diapause to survive the winter. The changes that occur in pupal period under ambient conditions in Botswana were examined. Pupae formed in May were able to survive the winter period and produce adults in September. Laboratory work using artificial environments showed that this extended pupal period is not simply a response to low pupal temperatures but is induced by the low temperatures and short daylengths experienced by the larva. Pupae from larvae reared at 27° C and a 14-h daylength (non-diapause pupae) initiated adult development even at 13° C. Pupae from larvae reared at 18° C and a 9-h daylength (diapause pupae) had similar pupal periods to non-diapause pupae at 33 and 27° C. However, at 18 and 13° C, diapause pupae had much longer developmental periods than non-diapause pupae. More diapause pupae were produced at 18° C from larvae reared in a 12-h daylength than from those in 15- or 9-h daylengths. The variation and importance of this temperature-labile facultative diapause over the extensive geographical range of H. armigera is discussed.

Type
Original Articles
Information
Bulletin of Entomological Research , Volume 69 , Issue 1 , April 1979 , pp. 149 - 160
Copyright
Copyright © Cambridge University Press 1979

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References

Adkisson, P. L. & Roach, S. H. (1971). A mechanism for seasonal discrimination in the photoperiodic induction of pupal diapause in the bollworm Heliothis zea (Boddie), pp. 272280 in Meneker, M. (Ed.), Biochronometry.— Washington, D.C., National Academy of Sciences.Google Scholar
Adkisson, P. L., Roach, S. H. & Phillips, J. R. (1972). Diapause.—Southern Cooperative Series Bull. no. 169, 3341.Google Scholar
Andrewartha, H. G. & Birch, L. C. (1954). The distribution and abundance of animals.— 782 pp. Chicago, Univ. Press.Google Scholar
Benschoter, C. A. (1968). Diapause and development of Heliothis zea and Heliothis virescens in controlled environments.—Ann. ent. Soc. Am. 61, 953955.CrossRefGoogle Scholar
Benschoter, C. A. (1970). Specificity in the reaction of larval Heliothis zea and H. virescens to light.—Ann. ent. Soc. Am. 63, 16421643.CrossRefGoogle Scholar
Bot, J. (1966). Rearing Heliothis armigera (Hubn.) and Prodenia litura F. on an artificial; diet.—S. Afr. J. agric. Sci. 9, 535538.Google Scholar
Coaker, T. H. (1959). Investigations on Heliothis armigera (Hb.) in Uganda.—Bull. ent. Res. 50, 487506.CrossRefGoogle Scholar
Ditman, L. P., Weiland, G. S. & Guill, J. H. Jr., (1940). The metabolism of the corn earworm. III. Weight, water and diapause.—J. econ. Ent. 33, 282295.CrossRefGoogle Scholar
Hardwick, D. F. (1965). The corn earworm complex.—Mem. ent. Soc. Can. 40, pp. 247.Google Scholar
Jones, E. P. (1937). The overwintering pupa of Heliothis armigera Hubn. (obsoleta Fabr.). I. Effect of temperature and moisture.—Publs. Br. S. Afr. Co. no. 6, 1936.Google Scholar
Komarova, O. S. (1959). On the conditions determining the diapause of the hibernating pupae in Chloridea obsoleta F. (Lepidoptera: Noctuidae).—Ent. Rev., Wash. 38, 318325.Google Scholar
Kuznetsova, M. S. (1972). The effects of temperature and photoperiodic conditions on the reactivation of diapausing pupae of the cotton bollworm, Chloridea obsoleta, F. (Lepidoptera, Noctuidae).—Ent. Rev., Wash. 51, 311315.Google Scholar
Mangat, B. S. & Apple, J. W. (1966). Termination of diapause in the corn earworm.—Proc. N. cent. Brch Ass. econ. Ent. 21, 123125.Google Scholar
Meola, R. W. & Adkisson, P. L. (1977). Release of prothoracicotropic hormone and potentiation of developmental ability during diapause in the bollworm, Heliothis zea.—J. Insect Physiol. 23, 683688.CrossRefGoogle Scholar
Nel, J. J. C. (1961). The seasonal history of Heliothis armigera (Hub) on lupins in the South Western Cape Province.—S. Afr. J. agric. Sci. 4, 575588.Google Scholar
Parsons, F. S. (1939). Investigations on the cotton bollworm, Heliothis armigera Hubn. (obsoleta, Fabr.). Part I. The annual march of bollworm incidence and related factors.—Bull. ent. Res. 30, 321338.CrossRefGoogle Scholar
Phillips, J. R. & Newsom, L. D. (1966). Diapause in Heliothis zea and Heliothis virescens (Lepidoptera: Noctuidae).—Ann. ent. Soc. Am. 59, 154159.CrossRefGoogle Scholar
Reed, W. (1965). Heliothis armigera (Hb.) (Noctuidae) in western Tanganyika. I.Biology, with special reference to the pupal stage.—Bull. ent. Res. 56, 117125.CrossRefGoogle Scholar
Roach, S. H. & Adkisson, P. L. (1970). Role of photoperiod and temperature in the induction of pupal diapause in the bollworm Heliothis zea.—J. Insect Physiol. 16, 15911597.CrossRefGoogle ScholarPubMed
Roach, S. H. & Adkisson, P. L. (1971). Termination of pupal diapause in the bollworm.—J. econ. Ent. 64, 10571060.CrossRefGoogle Scholar
Roome, R. E. (1975). The control of Heliothis on subsistence crops in Botswana.—Meded. Fac. LandbWet. RijksUniv. Gent. 40, 267282.Google Scholar
Wellso, S. G. & Adkisson, P. L. (1966). A long-day short-day effect in the photoperiodic control of the pupal diapause of the bollworm Heliothis zea (Boddie).—J. Insect Physiol. 12, 14551465.CrossRefGoogle Scholar
Williams, C. M. & Adkisson, P. L. (1964). Physiology of insect diapause. XIV. An endocrine mechanism for the photoperiodic control of pupal diapause in the oak silkworm Antheraea pernyi.—Biol. Bull. mar. biol. Lab., Woods Hole 127, 511525.CrossRefGoogle Scholar