Sheep Skin Odor Improves Trap Captures of Mosquito Vectors of Rift Valley Fever

Tchouassi, David P.; Sang, Rosemary; Sole, Catherine L.; Bastos, Armanda D.S.; Mithoefer, Klaus; Torto, Baldwyn

doi:10.1371/journal.pntd.0001879

Cited by 25 publications

(27 citation statements)

References 39 publications

(48 reference statements)

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“…Our findings concur with published literature highlighting the importance of animal skin odors in mosquito attraction [17], [24]–[26]. Among the animal hosts examined, primary RVFV vectors (comprising Ae.…”

Section: Discussionsupporting

confidence: 91%

“…Like most hematophagous insects, RVFV vectors use olfactory cues to locate their hosts for a blood meal [16], [17] which may involve more than mammalian breath odors such as CO 2, a non-specific semiochemical, commonly used in the CDC light trap. We therefore refined the sensitivity of the existing trapping system for RVFV vectors by combining it with known mammalian host skin-derived semiochemicals in order to target only mosquitoes.…”

Section: Introductionmentioning

confidence: 99%

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Common Host-Derived Chemicals Increase Catches of Disease-Transmitting Mosquitoes and Can Improve Early Warning Systems for Rift Valley Fever Virus

et al. 2013

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Rift Valley fever (RVF), a mosquito-borne zoonosis, is a major public health and veterinary problem in sub-Saharan Africa. Surveillance to monitor mosquito populations during the inter-epidemic period (IEP) and viral activity in these vectors is critical to informing public health decisions for early warning and control of the disease. Using a combination of field bioassays, electrophysiological and chemical analyses we demonstrated that skin-derived aldehydes (heptanal, octanal, nonanal, decanal) common to RVF virus (RVFV) hosts including sheep, cow, donkey, goat and human serve as potent attractants for RVFV mosquito vectors. Furthermore, a blend formulated from the four aldehydes and combined with CO2-baited CDC trap without a light bulb doubled to tripled trap captures compared to control traps baited with CO2 alone. Our results reveal that (a) because of the commonality of the host chemical signature required for attraction, the host-vector interaction appears to favor the mosquito vector allowing it to find and opportunistically feed on a wide range of mammalian hosts of the disease, and (b) the sensitivity, specificity and superiority of this trapping system offers the potential for its wider use in surveillance programs for RVFV mosquito vectors especially during the IEP.

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Section: Discussionsupporting

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Common Host-Derived Chemicals Increase Catches of Disease-Transmitting Mosquitoes and Can Improve Early Warning Systems for Rift Valley Fever Virus

et al. 2013

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“…Such sensitivity difference could evoke differential responses or behaviours to host odours as previously highlighted [27,28]. Furthermore, because crude host volatiles comprise a mixture of compounds, some components may be attractants or repellents [7,9]. As such, variation in the amounts and ratios of these components released between different individuals could account for differences in trap catches.…”

Section: Discussionmentioning

confidence: 99%

“…Previous work has identified vertebrate host chemicals mainly from humans that attract mosquitoes [7,8]. The attractive cues are of practical and epidemiologic relevance and have been exploited in disease vector control and/or surveillance [9][10][11]. Vector surveillance is critical for any vector-borne pathogen risk assessment.…”

Section: Introductionmentioning

confidence: 99%

Aedes vector–host olfactory interactions in sylvatic and domestic dengue transmission environments

et al. 2019

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Interactions between Aedes ( Stegomyia ) species and non-human primate (NHP) and human hosts govern the transmission of the pathogens, dengue, zika, yellow fever and chikungunya viruses. Little is known about Aedes mosquito olfactory interactions with these hosts in the domestic and sylvatic cycles where these viruses circulate. Here, we explore how the different host-derived skin odours influence Aedes mosquito responses in these two environments. In field assays, we show that the cyclic ketone cyclohexanone is a signature cue for Aedes mosquitoes to detect the NHP baboon, sykes and vervet, whereas for humans, it is the unsaturated aliphatic keto-analogue 6-methyl-5-hepten-2-one (sulcatone). We find that in the sylvatic environment, CO 2 -baited traps combined with either cyclohexanone or sulcatone increased trap catches of Aedes mosquitoes compared to traps either baited with CO 2 alone or CO 2 combined with NHP- or human-derived crude skin odours. In the domestic environment, each of these odourants and crude human skin odours increased Aedes aegypti catches in CO 2 -baited traps. These results expand our knowledge on the role of host odours in the ecologies of Aedes mosquitoes, and the likelihood of associated spread of pathogens between primates and humans. Both cyclohexanone and sulcatone have potential practical applications as lures for monitoring Aedes disease vectors.

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“…The trap advocated for capture of phlebotomines is the CDC light [11] and these traps have some operational limitations such as the high cost, little specific and contestable accuracy for areas with low phlebotomines occurrence [161]. The use of chemical compounds along with traps aims to make them more specific and efficient, which has also been demonstrated in studies of phlebotomine [124,162,163], as well as other insect vectors of diseases [164,165].…”

Section: Application Of Chemical Ecology For Vector Controlmentioning

confidence: 99%

Perspectives for Diagnosis and Control of Leishmaniasis Based on Volatile Organic Compounds

Andrade¹,

Magalhes²,

Mesquita³

et al. 2014

Leishmaniasis - Trends in Epidemiology, Diagnosis and Treatment

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Sheep Skin Odor Improves Trap Captures of Mosquito Vectors of Rift Valley Fever

Cited by 25 publications

References 39 publications

Common Host-Derived Chemicals Increase Catches of Disease-Transmitting Mosquitoes and Can Improve Early Warning Systems for Rift Valley Fever Virus

Common Host-Derived Chemicals Increase Catches of Disease-Transmitting Mosquitoes and Can Improve Early Warning Systems for Rift Valley Fever Virus

Aedes vector–host olfactory interactions in sylvatic and domestic dengue transmission environments

Perspectives for Diagnosis and Control of Leishmaniasis Based on Volatile Organic Compounds

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