Hostname: page-component-cd9895bd7-hc48f Total loading time: 0 Render date: 2024-12-25T06:19:57.044Z Has data issue: false hasContentIssue false

FIRST RECORDS OF PHORETIC BEHAVIOUR OF TARSONEMUS ASCITUS DELFINADO (ACARINA: TARSONEMIDAE) ON GRAIN-INHABITING BEETLES AND ITS SPATIAL DISTRIBUTION ON CARTODERE CONSTRICTA (GYLLENHAL) (COLEOPTERA: LATHRIDIIDAE)1

Published online by Cambridge University Press:  31 May 2012

Philip S. Barker
Affiliation:
Agriculture Canada Research Station, 195 Dafoe Road, Winnipeg, Manitoba, Canada R3T 2M9

Abstract

Adult female Tarsonemus ascitus Delfinado mites are recorded for the first time as phoretic on the grain-inhabiting lathridiid beetles Cartodere constricta (Gyllenhal) and Enicmus fictus Fall, and the rhizophagid beetle Monotoma picipes Herbst. The mites preferred to attach to the lateral and undersides of the prothorax of the beetles. The spatial distribution of T. ascitus on C. constricta in suction traps was determined as a guide to the numbers of beetles that would have to be collected to obtain reliable estimates of numbers of mites found per beetle. The mean numbers of mites per beetle was always smaller than the variance, and the spatial distribution of the mites followed a negative binomial distribution. The numbers of beetles required to be collected to provide a predetermined measure of the precision of the numbers of mites per beetle were calculated.

Résumé

Le comportement phorétique de femelles adultes de Tarsonemus ascitus Delfinado a été constaté pour la première fois chez des coléoptères des céréales, les lathridies Cartodere constricta (Gyllenhal) et Enicmus fictus Fall et le rhizophage Monotoma picipes Herbst. Les acariens se fixent surtout aux parois latérales et inférieures du prothorax des coléoptères. La répartition spatiale de T. ascitus sur des C. constricta dans des pièges à succion a servi de modèle pour déterminer le nombre de coléoptères nécessaires à une estimation fiable du nombre d’acariens par coléoptère. Le nombre moyen d’acariens par coléoptère était toujours inférieur à la variance et leur répartition spatiale correspondait à une distribution binomiale négative. Le nombre de coléoptères nécessaire pour obtenir une mesure prédéterminée de la précision du nombre d’acariens par coléoptère a été calculé.

[Traduit par la rédaction]

Type
Articles
Copyright
Copyright © Entomological Society of Canada 1991

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

Barker, P.S., and Smith, L.B.. 1987. Spatial distribution of insect species in granary residues in the Prairie Provinces. Can. Ent. 119: 11231130.CrossRefGoogle Scholar
Bousquet, Y. 1990. Beetles associated with stored products in Canada: An identification guide. Agric. Can. Publ. 1837. 220 pp.Google Scholar
Bridges, J.R., and Moser, J.C.. 1983. Role of two phoretic mites in transmission of bluestain fungus, Ceratocystis minor. Ecol. Ent. 8: 912.CrossRefGoogle Scholar
Bruce, W.A. 1982. Mites as biological control agents of stored product pests. In Hoy, M.A., Cunningham, G.L., and Knutson, L. (Eds.), Biological Control of Pests by Mites. Proceedings of Conference 5–7 April 1982, Berkley, CA. 185 pp.Google Scholar
Delfinado, M.D. 1976. Terrestrial mites of New York. V. Tarsonemidae. J. N.Y. ent. Soc. 84: 255274.Google Scholar
Delfinado, M.D. 1978. Terrestrial mites of New York. VI. Further notes on Tarsonemidae (Acarina). J. N.Y. ent. Soc. 86: 6686.Google Scholar
Hughes, A.M. 1976. The mites of stored food and houses. Min. Agric. Fish Food. Tech. Bull. 9. HMSO, London. 400 pp.Google Scholar
Karandinos, M.G. 1976. Optimum sample size and comments on some published formulae. Bull. ent. Soc. Am. 22: 417421.Google Scholar
Krantz, G.W. 1978. A Manual of Acarology, 2nd ed. Oregon State Univ. Book Stores, Corvallis, OR. 509 pp.Google Scholar
Lamb, R.J. 1983. Phenology of flea beetle (Coleoptera: Chrysomelidae) flight in relation to their invasion of canola fields in Manitoba. Can. Ent. 115: 14931502.CrossRefGoogle Scholar
Lindquist, E.E. 1986. The world genera of Tarsonemidae (Acari: Heterostigmata): A morphological, phylogenetic, and systematic revision, with a reclassification of family-group taxa in the Heterostigmata. Mem. ent. Soc. Can. 136. 517 pp.Google Scholar
Moser, J.C. 1976. Surveying mites (Acarina) phoretic on the southern pine beetle (Coleoptera: Scolytidae) with sticky traps. Can. Ent. 108: 809813.CrossRefGoogle Scholar
Moser, J.C. 1985. Use of sporothecae by phoretic Tarsonemus mites to transport ascospores of coniferous bluestain fungi. Trans. Brit. mycol. Soc. 84: 750753.CrossRefGoogle Scholar
Moser, J.C., and Bridges, J.R.. 1986. Tarsonemus (Acarina: Tarsonemidae) mites phoretic on the southern pine beetle (Coleoptera: Scolytidae): Attachment sites and number of bluestain (Ascomycetes: Ophiostomafaceae) ascospores carried. Proc. ent. Soc. Wash. 88: 297299.Google Scholar
Pielou, E.C. 1969. An Introduction to Mathematical Ecology. Wiley-Interscience, New York, NY. 286 pp.Google Scholar
Ruesink, W.G. 1980. Introduction to sampling theory. pp. 6178in Kogan, M., and Herzog, D.C. (Eds.), Sampling Methods in Soybean Entomology. Springer Verlag, New York, NY.CrossRefGoogle Scholar
Sinha, R.N., Liscombe, E.A.R., and Wallace, H.A.H.. 1962. Infestation of mites, insects and microorganisms in a large wheat bulk after prolonged storage. Can. Ent. 94: 542555.CrossRefGoogle Scholar
Sinha, R.N., Wallace, H.A.H., and Chebib, F.S.. 1969 a. Principal component analysis of interrelations among fungi, mites and insects in grain bulk ecosystems. Ecology 50: 536547.CrossRefGoogle Scholar
Sinha, R.N., Wallace, H.A.H., and Chebib, F.S.. 1969 b. Canonical correlation between groups of acarine, fungal and environmental variables in bulk grain ecosystems. Res. Popul. Ecol. 11: 92104.CrossRefGoogle Scholar
Smith, L.B., and Barker, P.S.. 1987. Distribution of insects found in granary residues in the Canadian Prairies. Can. Ent. 119: 873880.CrossRefGoogle Scholar
Snedecor, G.W., and Cochran, W.G.. 1974. Statistical Methods, 5th ed. Iowa State University Press, Ames, IA.Google Scholar
Sokal, R.R. and Rohlf, F.J.. 1981. Biometry, 2nd ed. W.H. Freeman and Co., San Francisco, CA. 859 pp.Google Scholar
Southwood, T.R.E. 1978. Ecological Methods with Particular Reference to the Study of Insect Populations. Chapman and Hall, London. 391 pp.Google Scholar
Taylor, L.R. 1961. Aggregation, variance, and the mean. Nature 189: 732735.CrossRefGoogle Scholar