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A Life-history Study of Endrosis lactella (Schiff.) (Lep. Oecophoridae)

Published online by Cambridge University Press:  10 July 2009

G. E Woodroffe
G. E Woodroffe
Affiliation:
Department Of Scientific and Industrial Research, Pest Infestation Laboratory, Slough, Bucks.
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Extract

Endrosis lactella is widely distributed in Britain, where it is a minor pest of stored products, especially of grain and seeds.

The incubation period of the egg varied between 42 days at 10°C. and 6·0 days at 26°C. It was almost unaffected by changes in relative humidity.

Survival of eggs was low at high temperatures and low humidites, and the mean survival from complete batches of eggs at 70 per cent. R.H. 25°C. was 44 per cent. The highest survival recorded was 81 per cent.

On a diet of middlings the larval stage lasted 133 days at 90 per cent. R.H. 10°C, and 38 days at 90 per cent. R.H. 25°C. No adults were reared from larvae grown below 80 per cent. R.H. At 90 per cent. R.H. and 25°C. there were 7 instars.

On various foodstuffs at 90 per cent. R.H. 20°C, duration of the larval stage varied between 40 days on dead moths and 109 days on macaroni. Survival to the adult stage varied between 75 per cent. on whole wheat and 20 per cent. on groundnuts.

The pupal incubation period was 58 days at 10°C. and 10·4 days at 25°C, and was approximately the same at all humidities.

The time required for complete development from egg to adult was 235 davs at 10°C. and 62 days at 25°C. (90 per cent. R.H.).

There was a significant correlation between the weight of a female moth at emergence and the number of eggs laid. Egg output was lower at 25°C. than at 15°C, was not significantly affected by relative humidity, but was increased by provision of drinking water. Weights of females varied from 2·9 mg. to 9·4 mg. and egg output from 14 eggs to 231 eggs.

The sex ratio of the adults in the dried grass culture was found to be 1 male to 23 females.

Longevity could not be correlated with weight in all experiments, but, in the case of mated females, was dependent upon temperature, humidity and availability of drinking water. The mean adult life in days was 3–0 at 30 per cent. R.H. 25°C.; 5·0 at 90 per cent. R.H. 25°C.; 9·1 at 90 per cent. R.H. 15°C.; and 8.9 at 70 per cent. R.H. 25°C. + drink. Mated males were very short-lived (2–4 days at 70 per cent. R.H. 25°C).

The only important predator was the mite, Cheyletus eruditus, which attacked the young larvae.

Type
Original Articles
Information
Bulletin of Entomological Research , Volume 41 , Issue 4 , May 1951 , pp. 749 - 760
Copyright
Copyright © Cambridge University Press 1951

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References

Andres, A. (1920). Ueber den Messingkäfer (Niptus hololeucus Fald.)Z. angew. Ent., 6, pp. 406407. (R.A.E., (A) 9, p. 66.)CrossRefGoogle Scholar
Austen, E. E. & Hughes, A. W. McK. (1948). Clothes Moths and House Moths.—Econ. Ser. Brit. Mus. (Nat. Hist.), no. 14, 4th edn., 28 pp.Google Scholar
Corbet, A. S. & Tams, W. H. T. (1943). Keys for the identification of the Lepidoptera infesting stored food products.—Proc. zool. Soc. Lond., (B) 113, pp. 55148.CrossRefGoogle Scholar
Goodall, F. L., Gorton, T. F. & Summersgill, J. V. (1946). DDT and its textile applications.—J. Soc. Dy. Col., 62, pp. 189198. (R.A.E., (A) 36, pp. 323–324).CrossRefGoogle Scholar
Hinton, H. E. (1943a). The larvae of the Lepidoptera associated with stored products.—Bull. ent. Res., 34, pp. 163212.CrossRefGoogle Scholar
Hinton, H. E. (1943b). House Moths (Endrosis sarcitrella and Borkhausenia pseudospretella) feeding on dead insects in or near spiders' webs.—Entomologist, 76, pp. 45.Google Scholar
Hinton, H. E. (1943c). Observations on species of Lepidoptera infesting stored products. III. Characters distinguishing the larvae of the House Moths, Hofmannophila pseudospretella (Staint.) and Endrosis sarcitrella (L.).—Entomologist, 76, pp. 6567.Google Scholar
Hinton, H. E. & Greenslade, R. M. (1943). Observations on species of Lepidoptera infesting stored products. XI. Notes on some insects found in bird guano.—Entomologist, 76, pp. 182184.Google Scholar
Laing, F. (1932). Borkhausenia pseudospretella and other House Moths.—Ent. mon. Mag., 68, pp. 7781.Google Scholar
O'Farrell, A. F. & Butler, P. M. (1948). Insects and Mites associated with the storage and manufacture of foodstuffs in Northern Ireland.—Econ. Proc. R. Dublin Soc., 3, pp. 343407.Google ScholarPubMed
Richards, O. W. (1949). Parasitic Hymenoptera found in British houses, warehouses and ships. I. Ichneumonidae.—Proc. R. ent. Soc. Lond., (B) 18, pp.1935.Google Scholar
Richards, O. W. & Waloff, N. (1947). Seasonal variations in the numbers of some warehouse insects.—Proc. R. ent. Soc. Lond., (A) 22, pp. 3033.Google Scholar
Thompson, W. R. Ed. (1945). A catalogue of the parasites and predators of insect pests. Section I. Parasite Host Catalogue, Part 6. Parasites of the Lepidoptera (Ci-F). Belleville, Ont.Google Scholar
Waters, E. G. R. (1929). A list of the Microlepidoptera of the Oxford district.—Proc. Ashmol. nat. Hist. Soc., 1928, 2nd pag., 72 pp.Google Scholar
Woodroffe, G. E. (1951). A life-history study of the Brown House Moth, Hofmannophila pseudospretella (Staint.) (Lep. Oecophoridae).—Bull. ent. Res., 41, pp. 529553.CrossRefGoogle Scholar