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Structure d'âge et dynamique des populations de Amblyseius manihoti Moraes (Acari: Phytoseiidae) sur Manioc au Brésil

Published online by Cambridge University Press:  19 September 2011

O. Bonato ,
A. C. Da S. Noronha ,
T. Cuellar  and
G. De Moraes
O. Bonato
Affiliation:
IRD (ex ORSTOM), Avenue Val de Montferrand – B.P. 5045, 34032 Montpellier Cedex 1, France
A. C. Da S. Noronha
Affiliation:
EMBRAPA-CNPMF, C.P. 007, 44380-000 Cruz Das Almas, BA, Brasil
T. Cuellar
Affiliation:
IAC, Av. Barão Itapura, 1481 Campinas, SP, Brasil
G. De Moraes
Affiliation:
ESALQ-USP, Departamento Zoologia, C.P. 9, 13418-900 Piracicaba, SP, Brasil
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Abstract

The number of eggs and mobiles (immatures and adults) of Amblyseius manihoti on entire plants was determined during a 10-month period in a cassava field located in the Bahia region of Brazil. Observed percentages of eggs, immatures and adults were compared to theoretical stable age distributions (58 % for eggs, 24 % for immatures and 18 % for adults). These comparisons served as a basis to discuss the influence of fecundity, mortality and migration on the age structure of populations.

Résumé

Un comptage des oeufs et des formes mobiles (immatures et adultes) du phytoséiide Amblyseius manihoti présents sur la plante entière a été réalisé pendant dix mois (soit 90 plantes analysées) dans un champ de manioc de la région de Bahia (Brésil). Les proportions d'oeufs, d'immatures et d'adultes observées au champ sont comparées aux distributions d'âge stable théoriques (oeufs: 58 %, immatures: 24 %, adultes: 18 %). La comparaison des distributions théoriques aux observées permet de spéculer sur l'influence de facteurs tels que la fécondité, la mortalité et la migration sur la structure d'âge des populations.

Keywords

Amblyseius manihotimaniocacarienphytoséiideAmblyseius manihoticassava mitephytoseiid
Type
Research Articles
Information
International Journal of Tropical Insect Science , Volume 21 , Issue 3 , September 2001 , pp. 207 - 212
Copyright
Copyright © ICIPE 2001

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References

Références

Birch, L. C. (1948) The intrinsic rate of natural increase of an insect population, J. Anim. Ecol. 17, 1526.Google Scholar
Bonato, O., Baumgärtner, J. and Gutierrez, J. (1994) Impact of Mononychellus progresivus and Oligonychus gossypii on cassava growth and yield in Central Africa, J. Hortic. Res. 69, 10891094.Google Scholar
Carey, J. R. (1982) Demography of the twospotted spider mite, Tetranychus urticae Koch. Oecologia 52, 389395.Google Scholar
Carey, J. R. (1983) Practical application of the stable age distribution: Analysis of a tetranychid mite (Acari: Tetranychidae) population outbreak. Environ. Entomol. 12, 1018.CrossRefGoogle Scholar
Gutierrez, J. (1987) The Cassava green mite in Africa: One or two species? (Acari: Tetranychidae). Exp. Appl. Acarol. 3, 163168.Google Scholar
Coale, A. J. (1956) The effects of changes in mortality and fertility on age composition. Mibank. Mem. Fund. Q. 34, 79114.Google Scholar
Coale, A. J. (1972) The Growth and Structure of Human Populations. A Matliematical Investigation. Princeton University Press, Princeton, N. J. 227 pp.Google Scholar
Herrera, C. G., Guerrero, J. M. and Braun, A. (1994) Impacto de los acaros predadores asociados con el cultivo de yuca sobre Mononychellus spp. en la Costa Atlantica de Colombia. Rev. Colomb. Entomol. 20, 137142.Google Scholar
Hoy, M. A. (1982) Aerial dispersal and field efficacy of a genetically improved strain of the spider mite predator Metaseiulus occidentalis. Entomol. Exp. Appl. 32, 205212.Google Scholar
Johnson, D. T. and Croft, B. A. (1979) Factors affecting the dispersal of Amblyseius fallacis in an apple tree ecosystem. Recent Adv. Acarol. 1, 477483.Google Scholar
Noronha, A. C. and Moraes, G. (1989) Flutuação populacional do écaro verde da mandioca e seus predadores fitoseídos (Acari: Tetranychidae, Phytoseiidae) em cruz das almas-Ba. Rev. Bras. Mandioca 9, 7581.Google Scholar
Noronha, A. C., Moraes, G. and Ciociola, A. I. (1995) Biologia de Amblyseius manihoti (Moraes) sobre Mononychellus tanajoa em variedade de mandioca. Ann. Soc. Entomol. Brasil 24, 305313.Google Scholar
Mesa, N. C. and Bellotti, A. C. (1987) Control biologico com Phytoseiidae de los acaros daninos de la yuca. Yuca Boletin Inform 11, 47.Google Scholar
Moraes, G. J., Alencar, J. A., Wenzel Neto, F. and Mergulhao, S. M. R (1990) Exploration for natural enemies of the cassava green mite in Brazil, pp. 351353. In Proceedings of the 8th Symposium of the International Society for Tropical Root Crops October 30– November 5, 1988, Bangkok (Edited by Howeler, R.H.). Department of Agriculture, Thailand.Google Scholar
Sabelis, M. W. and Dicke, M. (1985) Long-range dispersal and searching behaviour, pp. 141160. In World Crop Pest Spider Mites, Their Biology, Natural Enemies and Control, Vol. 1B (Edited by Helle, W. and Sabelis, M. W.). Elsevier, Amsterdam.Google Scholar
Yaninek, J. S. and Herren, H. R. (1988) Introduction and spread of the cassava green mite, Mononychellus tanajoa (Bondar) (Acari: Tetranychidae), an exotic pest in Africa, and the search for appropriate control methods: A review. Bull. Entomol. Res. 78, 113.Google Scholar
Yaninek, J. S., Mégev, B., Ojo, B., Cudjoe, , Abole, E., Onzo, A. and Zannou, I. (1998) Establishment and spread of Typhlodromalus manihoti (Acari: Phytoseiidae) an introduced phytoseiid predator of Mononychellus tanajoa (Acari: Tetranychidae) in Africa. Environ. Entomol. 27, 14961505.Google Scholar