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The effects of rearing conditions on the immature stages and adults of Spodoptera littoralis (Boisd.)

Published online by Cambridge University Press:  10 July 2009

E. Rivnay  and
J. Meisner
E. Rivnay
Affiliation:
Volcani Institute of Agricultural Research, Rehovoth, Israel
J. Meisner
Affiliation:
Volcani Institute of Agricultural Research, Rehovoth, Israel
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Extract

Some effects on the adult of environmental conditions during the larval and pupal stages of Spodoptera littoralis (Boisd.) were investigated in the laboratory in Israel. The conditions studied were temperature during larval life, temperature and humidity during pupal life and the density at which larvae were kept, and their effects were found by varying one of them at a time. Except for such variations, larvae were reared in batches of 30–50 at 22–24°C. and 60–70 per cent, relative humidity, pupae were kept at 23–24°C. and 70–80 per cent, relative humidity, and adults were kept in pairs at 20–21 °C. and 75–85 per cent, relative humidity. Larvae were fed on clover leaves and adults on sugar solution.

High temperature during the larval stage reduced fecundity; whereas at 22°C. the resultant females laid about 1,200 eggs each and 12·5 per cent, produced non-viable ones only, at 30°C. they averaged about 700 eggs each and 50 per cent, produced non-viable ones only. Temperature during the pupal stage affected fecundity similarly and life-span to a lesser extent; at 20 and 34°C., 40 and 5 per cent, of the resultant adults lived 15 days or more, the percentages of females laying only non-viable eggs were nil and 70 and the mean numbers of eggs laid were about 1650 and 700, of which about 60 and 2 per cent, were viable, respectively. High temperatures were directly inimical to pupae, less than half of which survived at 26°C. or over.

The effects of humidity during the pupal stage were in general less than those of temperature. The mean life-span was longest in adults from pupae kept at an intermediate humidity of 76 per cent., as also were the proportion of barren females and the mean number of eggs laid; the percentage of viable eggs was reduced only amongst those from females kept as pupae at over 95 per cent, relative humidity. Pupal mortality was affected only by low relative humidities, which raised it.

Larvae reared singly tended to be brighter in colour than those reared in batches of 30–50; fewer died and the subsequent pupae were heavier and longer. The mean life-span of the resultant adults was longer, and they laid more eggs.

The results are compared with those of other workers on S. littoralis and other insects.

Type
Research Paper
Information
Bulletin of Entomological Research , Volume 56 , Issue 4 , August 1966 , pp. 623 - 634
Copyright
Copyright © Cambridge University Press 1966

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References

Bonnemaison, L. (1961). Etude de quelques facteurs de la fécondité et de la fertilité chez la noctuelle du chou (Mamestra brassicae L.) (Lep.) 1.—Action de la température.—Bull. Soc. ent. Fr. 65 (1960) pp. 196206.CrossRefGoogle Scholar
Chauvin, R. (1941). Contribution à l'étude physiologique du criquet pélerin et du déterminisme des phénomènes grégaires.—Ann. Soc. ent. Fr. 110 pp. 133272.CrossRefGoogle Scholar
Faure, J. C. (1932). The phases of locusts in South Africa.—Bull. ent. Res. 23 pp. 293424.CrossRefGoogle Scholar
Faure, J. C. (1943). The phases of the lesser armyworm. (Laphygma exigua (Hbn.)).—Fmg S. Afr. 18 no. 203, pp. 6978.Google Scholar
Long, D. B. (1953). Effects of population density on larvae of Lepidoptera.—Trans. R. ent. Soc. Lond. 104 pp. 543586.CrossRefGoogle Scholar
Long, D. B. & Zaher, M. A. (1958). Effects of larval population density on the adult morphology of two species of Lepidoptera, Plusia gamma L. and Pieris brassicae L.—Entomologia exp. appl. 1 pp. 161173.CrossRefGoogle Scholar
Melamed-Madjar, V. (1960). Studies on the red pumpkin beetle in Israel.—Ktavim 10 pp. 139145.Google Scholar
Menusan, jr H. (1936). The influence of constant temperatures and humidities on the rate of growth and relative size of the bean weevil, Bruchus obtectus Say.—Ann. ent. Soc. Am. 29 pp. 279288.CrossRefGoogle Scholar
Moussa, M. A., Nasr, El-Sayed A. & Hassan, A. S. (1960). Factors affecting longevity and reproductive potentials of moths of the cotton leafworm Prodenia litura (Lepidoptera: Noctuidae).—Bull. Soc. ent. Égypte 44 pp. 383386.Google Scholar
Nasr, El-Sayed A., Moussa, M. A. & Hassan, A. S. (1960). Soil moisture in relation to pupation and moth emergence of the cotton leafworm, Prodenia litura Fabr.—Bull. Soc. ent. Égypte 44 pp. 377382.Google Scholar
Norris, M. J. (Mrs. Richards, O. W.). (1959). Reproduction in the red locust (Nomadacris septemfasciata Serville) in the laboratory.—Anti-Locust Bull. no. 36, 46 pp.Google Scholar
Plotnikov, V. I. (1924). Some observations on the variability of Locusta migratoria, L., in breeding experiments.—Bull. ent. Res. 14 pp. 241243.CrossRefGoogle Scholar
Ridgway, R. (1912). Color standards and color nomenclature.—44 pp. Washington, D.C.CrossRefGoogle Scholar
Rivnay, E. & Ziv, M. (1963). A contribution to the biology of Gryllus bimaculatus Deg. in Israel.—Bull. ent. Res. 54 pp. 3743.CrossRefGoogle Scholar
Smit, C. J. B. (1939). Field observations on the brown locust in an outbreak centre.—Sci. Bull. Dep. Agric. For. Un. S. Afr. no. 190, 143 pp.Google Scholar
Viette, P. (1963). Le complexe de Prodenia Litura (Fabricius) dans la région malgache (Lep. Noctuidae).—Bull. mens. Soc. Linn. Lyon 33 pp. 145148.Google Scholar
Yathom, S. (1961). Laboratory studies on the bionomics of Hylemyia cilicrura Rond. in Israel.—Israel J. agric. Res. 11 pp. 5156.Google Scholar
Yathom, S. (1963). Bionomics and phenology of the onion fly, Hylemyia antiqua Meigen, in Israel.—Israel J. agric. Res. 13 pp. 93105.Google Scholar
Zaher, M. A. & Long, D. B. (1959). Some effects of larval population density on the biology of Pieris brassica L. and Plusia gamma L.—Proc. R. ent. Soc. Lond. (A) 34 pp. 97109.Google Scholar
Zaher, M. A. & Moussa, (M. A.) (1961). Effects of population density on Prodenia litura (Lepidoptera: Noctuidae).—Ann. ent. Soc. Am. 54 pp. 145149.CrossRefGoogle Scholar