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Development of a sampling plan for estimating the absolute population of Stomoxys nigra macquart (Diptera, Muscidae) in Mauritius

Published online by Cambridge University Press:  19 September 2011

Moorgessenpillay Ramsamy
Affiliation:
Ministry of Agriculture, Natural Resources, and the Environment, Reduit, Mauritius
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Abstract

An intensive sampling programme for the estimation of the absolute size of the population of the cattle pest Stomoxys nigra Macquart in the sugarcane agro-ecosystem is proposed. Attention is focused on: (a) sampling at field level; and (b) sampling at national level. The best way of allocating the limited sampling resources between the various sub-divisions of the habitat to achieve efficient estimation is considered.

Résumé

—Nous proposons un programme d'échantillonage intensif en vue d'une estimation absolue des populations de parasite du bétail Stomoxys nigra (Macquart) dans l'agro-écosystéme constitué par la canne à sucre. Nous avons principalement insisté sur les echantillonages au niveau du champ (a) et sur les echantillonages au niveau de l'ensemble de l'île (b). Pour obtenir une estimation optimale des populations, nous avons egalement tenu compte des limites de nos resources materielles pour l'application des echantillonages aux differentes sub-divisions de l'habitat.

Type
Research Article
Copyright
Copyright © ICIPE 1981

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References

REFERENCES

Anderson, L. R. (1960) Uses of variance component analysis in the interpretation of biological experiments. Bull. Int. Statist. Inst. 37, Part III, 7190.Google Scholar
Anonymous (1975) Unpublished annual report of the Ministry of Agriculture and Natural Resources and the Environment, Mauritius.Google Scholar
Anscombe, F. J. (1949) The statistical analysis of insect counts based on the negative binomial distribution. Biometrics 5, 165173.CrossRefGoogle Scholar
Bliss, C. I. and Fisher, R. A. (1953) Fitting the negative binomial distribution to biological data and note on the efficient fitting of the negative binomial. Biometrics 9, 176200.CrossRefGoogle Scholar
Bliss, C. I. and Owen, A. R. G. (1958) Negative binomial distributions with a common K. Biometrika 45, 3758.CrossRefGoogle Scholar
Handford, R. H. (1956) Grasshopper population sampling. Proc. ent. soc. B.C. (1955) 52, 37.Google Scholar
Harcourt, D. G. (1961a) Design of a sampling plan for studies on the diamond back moth, Plutella maculipennis (Curt.) (Lepidoptera: Plutellidae). Can. Entomol. 93, 820831.CrossRefGoogle Scholar
Harcourt, D. G. (1961b) Spacial pattern of the imported cabbage worm, Pieris rapae (L.) (Lepidoptera: Pieridae) on cultivated cruciferae. Can. Entomol. 93, 945952.CrossRefGoogle Scholar
Harcourt, D. G. (1962) Design of a sampling plan for studies on the population dynamics of the imported cabbage worm, Pieris rapae (L.) (Lepidoptera: Pieridae). Can. Entomol. 94, 849859.CrossRefGoogle Scholar
Healy, M. J. R. (1962) Some basic statistical techniques in soil zoology. In Progress in Soil Zoology (Ed. Murphy, P. W.) pp. 39.Google Scholar
Jolly, G. M. (1965) Explicit estimates from capture-recapture data with both death and immigration-stochastic model. Biometrica 52, 225247.CrossRefGoogle ScholarPubMed
Kunz, S. and Monty, J. (1976) Biology and ecology of Stomoxys nigra Macquart and Stomoxys calcitrans (L.) (Diptera: Muscidae) in Mauritius, Bull. ent. Res. 66, 745755.CrossRefGoogle Scholar
Le Cren, E. D. (1965) A note on the history of mark-recapture population estimates. J. anim. ecol. 34, 453454.CrossRefGoogle Scholar
Monty, J. (1972) A review of the stable fly problem in Mauritius. Rev. Agrie. Suer. l'Ile Maurice 51, 1329.Google Scholar
Morris, R. F. (1955) The development of sampling techniques for forest insect defoliators, with particular reference to the spruce budworm. Can. J. Zool. 33, 255294.CrossRefGoogle Scholar
Ramsamy, M. (1972) A method to rear Stomoxys nigra Macquart (Diptera, Muscidae) in the laboratory. Rev. Agrie. Suer. l'Ile Maurice 51, 236241.Google Scholar
Ramsamy, M. (1975) Studies on the stable fly Stomoxys nigra Macquart—A candidate for eradication from Mauritius by the sterile insect release technique. Unpublished M. Phil, thesis. Univ. of London, 217 p.Google Scholar
Ramsamy, M. (1977) Effect of gamma radiation on the stable fly Stomoxys nigra Macquart (Diptera: Muscidae). Bull. ent. Res. 67, 4956.CrossRefGoogle Scholar
Reubens, R., Das, P. K., Samuel, D. and Brooks, G. D. (1975) Estimation of daily emergence of A. aegypti (L.) in Soneput, India. Unpublished report of WHO. WHO/VBC/75. 554.Google Scholar
Rojas, B. A. (1964) La binomial negativa y la estimacion de intensidad de plagas enal suelo. Filotecnia Latinamer 1, 2736.Google Scholar
Southwood, T. R. E. (1966) Ecological Methods with Particular Reference to the Study of Insect Populations. Chapman & Hall, London, 391 p.Google Scholar
Wadley, F. M. (1950) Notes on the form of distribution of insect and plant populations. Ann. ent. soc. Am. 43, 581586.CrossRefGoogle Scholar
Waters, W. E. (1959) A quantitative measure of aggregation in insects. J. econ. Ent. 52, 11801184.CrossRefGoogle Scholar
Yates, F. and Finney, D. J. (1942) Statistical problems in field sampling for wireworms. Ann. Appi. Biol. 29, 156167.CrossRefGoogle Scholar