Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-30T23:58:42.476Z Has data issue: false hasContentIssue false

DEVELOPMENT AND SURVIVAL OF PODISUS MACULIVENTRIS (SAY) AND PODISUS SAGITTA (FAB.) (HETEROPTERA: PENTATOMIDAE) AT VARIOUS CONSTANT TEMPERATURES

Published online by Cambridge University Press:  31 May 2012

P. De Clercq
Affiliation:
Laboratory of Agrozoology, Faculty of Agricultural Sciences, University of Gent, Coupure Links 653, B-9000 Gent, Belgium
D. Degheele
Affiliation:
Laboratory of Agrozoology, Faculty of Agricultural Sciences, University of Gent, Coupure Links 653, B-9000 Gent, Belgium

Abstract

Development and survival of the predatory pentatomids Podisus maculiventris (Say) and Podisus sagitta (Fab.) were studied at six constant temperatures ranging from 19 to 35 °C. Time required for development from egg to adult ranged from 48.9 days (19 °C) to 18.9 days (30 °C) for P. maculiventris and from 51.9 days (19 °C) to 16.9 days (33 °C) for P. sagitta. At 33 °C, eggs of P. maculiventris did not hatch and development of nymphs that had emerged at 23 °C was retarded; none of the first-instar nymphs incubated at 35 °C survived the next moult. A constant temperature of 35 °C was fatal to P. sagitta eggs and extended the developmental period of nymphs from 23 °C. Egg hatch ranged from 47% (19 °C) to 57% (27 °C) for P. maculiventris and from 54% (33 °C) to 71% (27 °C) for P. sagitta. Nymphal survival was high at moderate temperatures, with 63–78% and 65–82% of the first-instar nymphs of the respective species reaching adulthood. Mortality during the nymphal stage was significantly increased at high temperatures, but was considerably lower for P. sagitta than for P. maculiventris. Lower threshold temperatures for egg and nymphal development were estimated to be 10.7 and 11.7 °C for P. maculiventris, and 13.3 and 12.2 °C for P. sagitta. Thermal requirements for these stages were 78.2 and 275.5 degree-days, and 60.9 and 265.5 degree-days, respectively. These observations suggest that P. sagitta is somewhat better adapted to high temperatures than is P. maculiventris.

Résumé

Le développement et la survie des pentatomides prédateurs Podisus maculiventris (Say) et Podisus sagitta (Fab.) ont été étudiés à six températures constantes de 19 à 35 °C. La durée du développement de l’oeuf à l’adulte a varié de 48,9 jours (19 °C) à 18,9 jours (30 °C) pour P. maculiventris, et de 51,9 jours (19 °C) à 16,9 jours (33 °C) pour P. sagitta. A 33 °C, les oeufs de P. maculiventris ne sont pas éclos, et le développement des nymphes écloses à 23 °C a été retardé; toutes les nymphes du premier stade incubées à 35 °C sont mortes pendant la première mue. Une température constante de 35 °C s’est montrée fatale pour les oeufs de P. sagitta et a retardé le développement des nymphes écloses à 23 °C. Le pourcentage d’oeufs éclos a varié de 47% (19 °C) à 57% (27 °C) pour P. maculiventris et de 54% (33 °C) à 71% (27 °C) pour P. sagitta. La survie nymphale était bonne aux températures modérées, avec 63–78% et 65–82% des nymphes du premier instar des espèces respectives arrivant au stade adulte. La mortalité au stade nymphal a été significativement augmentée aux températures élevées, mais elle était considérablement moins élevée pour P. sagitta que pour P. maculiventris. Les seuils théoriques de température pour le développement des oeufs et des nymphes ont été établis à 10,7 et 11,7 °C pour P. maculiventris et à 13,3 et 12,2 °C pour P. sagitta. Les besoins thermiques de ces stades étaient de 78,2 et 275,5 degrés-jours, et 60,9 et 265,5 degrés-jours pour les espèces respectives. Ces observations suggèrent que P. sagitta est plutôt mieux adapté à des températures élevées que P. maculiventris.

Type
Articles
Copyright
Copyright © Entomological Society of Canada 1992

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Arnold, C.Y. 1959. The determination and significance of the base temperature in a linear heat unit system. Proc. Am. Soc. Hort. Sci. 74: 430445.Google Scholar
Campbell, A., Frazer, B.D., Gilbert, N., Gutierrez, A.P., and Mackauer, M.. 1974. Temperature requirements of some aphids and their parasites. J. appl. Ecol. 11: 431438.CrossRefGoogle Scholar
Clausen, C.P. 1940. Entomophagous Insects. McGraw-Hill Book Company, New York, NY. 688 pp.Google Scholar
Couturier, A. 1938. Contribution à l'étude biologique de Podisus maculiventris Say, prédateur américain du Doryphore. Ann. Epiphyt. Phytogén. 4: 95165.Google Scholar
De Clercq, P., and Degheele, D.. 1990 a. Description and life history of the predatory bug Podisus sagitta (Fab.) (Hemiptera: Pentatomidae). Can. Ent. 122: 11491156.CrossRefGoogle Scholar
De Clercq, P., and Degheele, D.. 1990 b. Effects of temperature and relative humidity on the reproduction of the predatory bug Podisus sagitta (Fab.) (Heteroptera: Pentatomidae). Med. Fac. Landbouww. Rijksuniv. Gent 55: 439443.Google Scholar
De Clercq, P., Keppens, G., Anthonis, G., and Degheele, D.. 1988. Laboratory rearing of the predatory stinkbug Podisus sagitta (Fab.) (Heteroptera: Pentatomidae). Med. Fac. Landbouww. Rijksuniv. Gent 53: 12131217.Google Scholar
Drummond, F.A., James, R.L., Casagrande, R.A., and Faubert, H.. 1984. Development and survival of Podisus maculiventris (Hemiptera: Pentatomidae), a predator of the Colorado potato beetle (Coleoptera: Chrysomelidae). Environ. Ent. 13: 12831286.CrossRefGoogle Scholar
El-Refai, S.A., and Degheele, D.. 1988. Bio-ecology of Podisus sagitta (Fab.) (Heteroptera: Pentatomidae) as predator of lepidopterous larvae. Med. Fac. Landbouww. Rijksuniv. Gent 53: 12191224.Google Scholar
Evans, E.W. 1982 a. Consequences of body size for fecundity in the predatory stinkbug, Podisus maculiventris (Hemiptera: Pentatomidae). Ann. ent. Soc. Am. 75: 418420.CrossRefGoogle Scholar
Evans, E.W. 1982 b. Feeding specialization in predatory insects: Hunting and attack behavior of two stinkbug species (Hemiptera: Pentatomidae). Am. Mid. Nat. 108: 96103.CrossRefGoogle Scholar
Gusev, G.V., Zayats, Yu. V., Topashchenko, E.M., and Rzhavina, G.K.. 1983. Control of the Colorado beetle on aubergines. Zashchita rastenii 8: 34. [In Russian.]Google Scholar
Jones, D., and Sterling, W.L.. 1979. Temperature thresholds for spring emergence and flight of the boll weevil. Environ. Ent. 8: 11181122.CrossRefGoogle Scholar
Kirkaldy, G.W. 1909. Catalogue of the Hemiptera (Heteroptera). Vol. I. Cimicidae (Pentatomidae). Berlin. 392 pp.Google Scholar
Laugé, G. 1985. Sex determination: Genetic and epigenetic factors. pp. 295–318 in Kerkut, G.A., and Gilbert, L.I. (Eds.), Comprehensive Insect Physiology, Biochemistry, and Pharmacology. Vol. 1. Embryogenesis and Reproduction. Pergamon Press, Oxford. 487 pp.Google Scholar
LeRoux, E.J. 1960. Effects of ‘modified’ and ‘commercial’ spray programs on the fauna of apple orchards in Quebec. Ann. ent. Soc. Quebec 6: 87121.Google Scholar
Lopez, J.D. Jr , Ridgway, R.L., and Pinnell, R.E.. 1976. Comparative efficacy of four insect predators of the bollworm and tobacco budworm. Environ. Ent. 5: 11601164.CrossRefGoogle Scholar
Lysyk, T.J., and Nealis, V.G.. 1988. Temperature requirements for development of the jack pine budworm (Lepidoptera: Tortricidae) and two of its parasitoids (Hymenoptera). J. econ. Ent. 81: 10451051.CrossRefGoogle Scholar
McPherson, J.E. 1982. The Pentatomoidea (Hemiptera) of northeastern North America. South Illinois University Press, Carbondale and Edwardsville, IL. 240 pp.Google Scholar
Morris, R.F. 1963. The effect of predator age and prey defense on the functional response of Podisus maculiventris Say to the density of Hyphantria cunea Drury. Can. Ent. 95: 10091020.CrossRefGoogle Scholar
Mukerji, M.K., and LeRoux, E.J.. 1965. Laboratory rearing of a Quebec strain of the pentatomid predator, Podisus maculiventris (Say) (Hemiptera: Pentatomidae). Phytoprotection 46: 4060.Google Scholar
Mukerji, M.K., and LeRoux, E.J.. 1969. The effect of predator age on the functional response of Podisus maculiventris to the prey size of Galleria mellonella. Can. Ent. 101: 314327.CrossRefGoogle Scholar
O'Neil, R.J. 1988. Predation by Podisus maculiventris (Say) on Mexican bean beetle, Epilachna varivestis Mulsant, in Indiana soybeans. Can. Ent. 120: 161166.CrossRefGoogle Scholar
Price, P.W. 1984. Insect Ecology, 2nd ed. Wiley, New York, NY. 607 pp.Google Scholar
Richman, D.B., and Whitcomb, W.H.. 1978. Comparative life cycles of four species of predatory stinkbugs (Hemiptera: Pentatomidae). Fla. Ent. 61: 113119.CrossRefGoogle Scholar
Stinner, R.E., Gutierrez, A.P., and Butler, G.D. Jr, 1974. An algorithm for temperature-dependent growth rate simulation. Can. Ent. 106: 519524.CrossRefGoogle Scholar
Taylor, F. 1981. Ecology and evolution of physiological time in insects. Am. Nat. 117: 123.CrossRefGoogle Scholar
Torre-Bueno, J.R. de la. 1939. A synopsis of the Hemiptera–Heteroptera of America north of Mexico. Part I. Families Scutelleridae, Cydnidae, Pentatomidae, Aradidae, Dysodiidae and Temitaphididae. Ent. Am. 19: 207304.Google Scholar
Vlasova, V.A., Ziskind, L.A., and Izhevskii, S.S.. 1980. The possibility of the acclimatisation of Podisus. Zashchita rastenii 4: 4647. [In Russian.]Google Scholar
Waddill, V., and Shepard, M.. 1975. A comparison of predation by the pentatomids, Podisus maculiventris (Say) and Stiretrus anchorago (F.), on the Mexican bean beetle, Epilachna varivestis Mulsant. Ann. ent. Soc. Am. 68: 10231027.CrossRefGoogle Scholar
Wagner, T.L., Wu, H., Sharpe, P.J.H., Schoolfield, R.M., and Coulson, R.N.. 1984. Modeling insect development rates: A literature review and application of a biophysical model. Ann. ent. Soc. Am. 77: 208225.CrossRefGoogle Scholar
Warren, L.O., and Wallis, G.. 1971. Biology of the spined soldier bug, Podisus maculiventris (Hemiptera: Pentatomidae). J. Georgia ent. Soc. 6: 109116.Google Scholar
Wiedenmann, R.N., and O'Neil, R.J.. 1990. Effects of low rates of predation on selected life-history characteristics of Podisus maculiventris (Say) (Heteroptera: Pentatomidae). Can. Ent. 122: 271283.CrossRefGoogle Scholar