Literature DB >> 19769043

Dispersal and survival of male and female Aedes albopictus (Diptera: Culicidae) on Réunion Island.

R Lacroix1, H Delatte, T Hue, P Reiter.   

Abstract

Mouse-baited traps were used to assess the longevity and dispersal of male and female Aedes albopictus by mark-release-recapture at two sites on La Réunion Island. Recapture rate was high, and mosquitoes of both sexes appeared up to 23 d after release. A daily survival probability of approximately 0.95 for males and females, far higher than expected, was estimated from these results. There was evidence that both sexes prefer to follow corridors of vegetation rather than crossing open spaces. Populations of wild mosquitoes had parous and insemination rates indicative of a young population. These results are relevant to future attempts to control this species by sterile insect technology.

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Year:  2009        PMID: 19769043     DOI: 10.1603/033.046.0519

Source DB:  PubMed          Journal:  J Med Entomol        ISSN: 0022-2585            Impact factor:   2.278


  27 in total

1.  Mathematical studies on the sterile insect technique for the Chikungunya disease and Aedes albopictus.

Authors:  Y Dumont; J M Tchuenche
Journal:  J Math Biol       Date:  2011-10-29       Impact factor: 2.259

2.  Wolbachia age-sex-specific density in Aedes albopictus: a host evolutionary response to cytoplasmic incompatibility?

Authors:  Pablo Tortosa; Sylvain Charlat; Pierrick Labbé; Jean-Sébastien Dehecq; Hélène Barré; Mylène Weill
Journal:  PLoS One       Date:  2010-03-16       Impact factor: 3.240

3.  Development and Evaluation of an Attractive Self-Marking Ovitrap to Measure Dispersal and Determine Skip Oviposition in Aedes albopictus (Diptera: Culicidae) Field Populations.

Authors:  Timothy J Davis; Phillip E Kaufman; Andrew J Tatem; Jerome A Hogsette; Daniel L Kline
Journal:  J Med Entomol       Date:  2015-11-03       Impact factor: 2.278

4.  Wolbachia strain wPip yields a pattern of cytoplasmic incompatibility enhancing a Wolbachia-based suppression strategy against the disease vector Aedes albopictus.

Authors:  Maurizio Calvitti; Riccardo Moretti; Amanda R Skidmore; Stephen L Dobson
Journal:  Parasit Vectors       Date:  2012-11-12       Impact factor: 3.876

5.  Influence of Age and Nutritional Status on Flight Performance of the Asian Tiger Mosquito Aedes albopictus (Diptera: Culicidae).

Authors:  Christian Kaufmann; Lauren F Collins; Mark R Brown
Journal:  Insects       Date:  2013-09-01       Impact factor: 2.769

6.  Winter refuge for Aedes aegypti and Ae. albopictus mosquitoes in Hanoi during Winter.

Authors:  Takashi Tsunoda; Tran Chi Cuong; Tran Duc Dong; Nguyen Thi Yen; Nguyen Hoang Le; Tran Vu Phong; Noboru Minakawa
Journal:  PLoS One       Date:  2014-04-21       Impact factor: 3.240

Review 7.  The role of environmental variables on Aedes albopictus biology and chikungunya epidemiology.

Authors:  Joanna Waldock; Nastassya L Chandra; Jos Lelieveld; Yiannis Proestos; Edwin Michael; George Christophides; Paul E Parham
Journal:  Pathog Glob Health       Date:  2013-07       Impact factor: 2.894

8.  Evidence of multiple inseminations in the field in Aedes albopictus.

Authors:  Sebastien Boyer; Celine Toty; Maxime Jacquet; Guy Lempérière; Didier Fontenille
Journal:  PLoS One       Date:  2012-08-15       Impact factor: 3.240

9.  Effects of Biogents Sentinel Trap field placement on capture rates of adult Asian tiger mosquitoes, Aedes albopictus.

Authors:  Taryn N Crepeau; Sean P Healy; Kristen Bartlett-Healy; Isik Unlu; Ary Farajollahi; Dina M Fonseca
Journal:  PLoS One       Date:  2013-03-29       Impact factor: 3.240

10.  Simulation of the probable vector density that caused the Nagasaki dengue outbreak vectored by Aedes albopictus in 1942.

Authors:  M Oki; T Yamamoto
Journal:  Epidemiol Infect       Date:  2013-03-12       Impact factor: 2.451
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