Michel A. Cheong Sang scite author profile

Michel A. Cheong Sang

3Publications

30Citation Statements Received

97Citation Statements Given

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126

Affiliations

Institut Louis Malardé

Publications

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Field Evaluation of Selected Traps and Lures for Monitoring the Filarial and Arbovirus Vector, <I>Aedes polynesiensis</I> (Diptera: Culicidae), in French Polynesia

et al. 2013

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The efficacy of the BG-Sentinel (BGS) and the BG-Mosquitito (BGM) mosquito traps for sampling populations of the important filariasis and dengue vector Aedes (Stegomyia) polynesiensis (Marks) was evaluated in French Polynesia against human bait collections (HBC) using a modified Centers for Disease Control and Prevention backpack aspirator. Traps were baited with BG-Lure (a combination of lactic acid, ammonia, and caproic acid) or carbon dioxide plus octenol (1-octen-3-ol) known as attractants to aedine mosquitoes. Mosquito sampling was conducted on two typical islands of French Polynesia: the high, volcanic island of Moorea, and the low, coral island (atoll) of Tetiaroa Sampling efficacy was measured in a randomized Latin Square design. Production of carbon dioxide from yeast-sugar fermentation was used as an alternative source of CO2 because supply via dry ice, gas cylinders, or propane combustion in remote tropical islands is costly and challenging. Although the BGS trap captured the greatest number ofAe. polynesiensis in both island settings, catch rates of BGS or BGM baited with either lure were not significantly different from that of HBC. On Moorea, the number of collected aedes species in the BGS trap baited with either lure was significantly greater than the BGM with BG-lure. On Tetiaroa, BGM trapping was severely hampered by damage from rats, and the traps were removed from the study. Our study confirms the efficiency, comparability, and convenience of the BGS trap, a robust and safe alternative to HBC for sampling Aedes mosquitoes in research and surveillance efforts against filariasis and arboviruses in the South Pacific.

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Population Studies of the Filarial VectorAedes polynesiensis(Diptera: Culicidae) in Two Island Settings of French Polynesia

et al. 2013

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A mark-release-recapture study was conducted to estimate the adult population size, migration, and dispersal patterns of male and female Aedes (Stegomyia) polynesiensis (Marks) in a valley of Moorea, a volcanic island, and a motu (islet) on the atoll of Tetiaroa, two settings typical of the Society Islands. Aedes polynesiensis recapture rate was high for females and low for males. The distribution of Aedes species in the valley was heterogeneous. Marked individuals dispersed to most parts of the motu and over great distances in the valley for some females. The study provides insights into the field dynamics of Ae. polynesiensis populations and confirms that more efficient sampling methods are warranted. There was no evidence of active migration between motus on the atoll, suggesting that Tetiaroa is a suitable site for small-scale initial open releases of Wolbachia incompatible insect technique and other sterile insect technique-like suppression or replacement strategies.

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Comparison of the Centers for Disease Control and Prevention-Backpack and Insectazooka Aspirators for SamplingAedes polynesiensisin French Polynesia

Hapairai¹,

Sang²,

Bossin³

2014

Journal of the American Mosquito Control Association

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The efficiency of the recently developed handheld InsectaZooka (IZ) aspirator was compared to that of the Centers for Disease Control and Prevention-Backpack (CDC-BP) aspirator by conducting human bait collections on 2 islets (locally called motus) of the atoll of Tetiaroa, French Polynesia. Abundance of mosquitoes was compared between the wind-exposed and wind-protected sides of each motu to measure the effect of wind on mosquito distribution. The number of host-seeking Aedes polynesiensis mosquitoes collected on the 2 motus with either sampling device was not significantly different. Collection of male mosquitoes was low irrespective of the type of aspirator used. Wind had an effect on mosquito distribution, as females were more abundant on the protected sides of both motus. The IZ aspirator is a lighter and equally efficient alternative to the CDC-BP aspirator for collecting Ae. polynesiensis.

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