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SEQUENTIAL SAMPLING OF ADULT COCCINELLA SEPTEMPUNCTATA L. IN WHEAT FIELDS

Published online by Cambridge University Press:  31 May 2012

G. Iperti ,
L. Lapchin ,
A. Ferran ,
J.-M. Rabasse  and
J.-P. Lyon
G. Iperti
Affiliation:
INRA, Station de Zoologie et de Lutte Biologique, 37, Boulevard du Cap, 06600 AntibesFrance
L. Lapchin
Affiliation:
INRA, Station de Zoologie et de Lutte Biologique, 37, Boulevard du Cap, 06600 AntibesFrance
A. Ferran
Affiliation:
INRA, Station de Zoologie et de Lutte Biologique, 37, Boulevard du Cap, 06600 AntibesFrance
J.-M. Rabasse
Affiliation:
INRA, Station de Zoologie et de Lutte Biologique, 37, Boulevard du Cap, 06600 AntibesFrance
J.-P. Lyon
Affiliation:
INRA, Station de Zoologie et de Lutte Biologique, 37, Boulevard du Cap, 06600 AntibesFrance
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Abstract

A sequential sampling program was designed for Coccinella septempunctata L. adults in wheat fields, based on a rapid visual counting method. This program takes into account the spatial heterogeneity of coccinellids and the efficiency of the counting method. The relationship between the mean and variance of the numbers sampled was described by Taylor’s power law.

Résumé

Une procédure d’échantillonnage séquentiel des adultes de Coccinella septempunctata L. en cultures de blé, basée sur une méthode visuelle rapide de dénombrement, a été concue. Elle tient compte à la fois de l’hétérogénéité des répartitions spatiales des coccinelles et de l’efficacité de la méthode de dénombrement. La relation entre moyenne et variance des échantillons s’appuie sur la loi puissance de Taylor.

Type
Articles
Information
The Canadian Entomologist , Volume 120 , Issue 8-9 , September 1988 , pp. 773 - 778
Copyright
Copyright © Entomological Society of Canada 1988

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References

Ba-Angood, S.A., and Stewart, R.K.. 1980. Sequential sampling for cereal aphids on barley in Southwestern Québec. J. econ. Ent. 73: 679681.Google Scholar
Brown, M.W., and Cameron, E.A.. 1982. Spatial distribution of adults of Ooencyrtus kuvanae (Hymenoptera: Encyrtidae), an egg parasite of Lymantria dispar (Lepidoptera: Lymantriidae). Can. Ent. 114: 11091120.CrossRefGoogle Scholar
Carter, N., McLean, I.F.G., Watt, A.D., and Dixon, A.F.G.. 1980. Cereal aphids: a case study and review. Appl. Biol. 5: 271348.Google Scholar
Ekbom, B.S. 1985. Spatial distribution of Rhopalosiphum padi (L.) (Homoptera: Aphididae) in spring cereals in Sweden and its importance for sampling. Environ. Ent. 14: 312316.Google Scholar
Elliott, N.C., and Kieckhefer, R.W.. 1986. Cereal aphid populations in winter wheat: spatial distributions and sampling with fixed levels of precision. Environ. Ent. 15: 954958.Google Scholar
Kuno, E. 1969. A new method of sequential sampling to obtain the population estimates with a fixed level of precision. Res. Popul. Ecol. 11: 127136.CrossRefGoogle Scholar
Lapchin, L., Ferran, A., Iperti, G., Rabasse, J.M., and Lyon, J.P.. 1987. Coccinellids (Coleoptera: Coccinellidae) and Syrphids (Diptera: Syrphidae) as predators of aphids in cereal crops: a comparison of sampling methods. Can. Ent. 119: 815822.CrossRefGoogle Scholar
Laurent, M., and Lamarque, P.. 1974. Utilisation de la méthode des captures successives (De Lury) pour l'évaluation des peuplements piscicoles. Ann. Hydrobiol. 5: 121132.Google Scholar
Taylor, L.R. 1961. Aggregation, variance and the mean. Nature 189: 732735.Google Scholar
Taylor, L.R. 1984. Assessing and interpreting the spatial distributions of insect populations. Annu. Rev. Ent. 29: 321357.Google Scholar
Taylor, L.R., Taylor, R.A.J., Woiwod, I.P., and Perry, J.N.. 1983. Behavioral dynamics. Nature 303: 801804.CrossRefGoogle Scholar
Taylor, L.R., and Woiwod, I.P.. 1980. Temporal stability as a density-dependent species characteristic. J. anim. Ecol. 49: 209224.CrossRefGoogle Scholar
Taylor, L.R., and Woiwod, I.P.. 1982. Comparative synoptic dynamics. I. Relationships between inter- and intra-specific spatial and temporal variance/mean population parameters. J. anim. Ecol. 51: 879906.CrossRefGoogle Scholar
Taylor, L.R., Woiwod, I.P., and Perry, J.N.. 1978. The density-dependence of spatial behaviour and the rarity of randomness. J. anim. Ecol. 47: 383406.CrossRefGoogle Scholar
Trumble, J.T., and Oatman, E.R.. 1984. Dispersion analyses and resource utilization of aphid parasitoids in a non-depletable environment. Res. Popul. Ecol. 26: 124133.CrossRefGoogle Scholar
Zadocks, J.C., Chang, T.T., and Konzak, C.F.. 1977. Un code décimal pour les stades de croissance des céréales. Phytiatrie-Phytopharmacie 26: 129140.Google Scholar