Your search keyword '"Renate C Smallegange"' showing total 32 results

1. Species-specific alterations in Anopheles mosquito olfactory responses caused by Plasmodium infection

Author

Nina M. Stanczyk, John C. Caulfield, Tessa M. Visser, Hilary Hurd, Warren Stevens, Willem Takken, Victor A. Brugman, V. Austin, F. Sanchez-Roman Teran, Johannes T. Dessens, Michael A. Birkett, John A. Pickett, Salvador A. Gezan, Renate C. Smallegange, M. Emery, and James G. Logan

Subjects

0301 basic medicine, Chromatography, Gas, Anopheles gambiae, lcsh:Medicine, Mosquito Vectors, Plasmodium, Myristic Acid, Article, Microbiology, Electroantennography, 03 medical and health sciences, 0302 clinical medicine, Anopheles, parasitic diseases, medicine, Animals, Life Science, Plasmodium berghei, Benzothiazoles, Lactic Acid, Laboratory of Entomology, lcsh:Science, Anopheles stephensi, Multidisciplinary, biology, QH, lcsh:R, fungi, Plasmodium falciparum, biology.organism_classification, medicine.disease, PE&RC, Laboratorium voor Entomologie, 3. Good health, Malaria, 030104 developmental biology, Female, lcsh:Q, 030217 neurology & neurosurgery

Abstract

Mosquitoes infected with malaria parasites have demonstrated altered behaviour that may increase the probability of parasite transmission. Here, we examine the responses of the olfactory system in Plasmodium falciparum infected Anopheles gambiae, Plasmodium berghei infected Anopheles stephensi, and P. berghei infected An. gambiae. Infected and uninfected mosquitoes showed differential responses to compounds in human odour using electroantennography coupled with gas chromatography (GC-EAG), with 16 peaks triggering responses only in malaria-infected mosquitoes (at oocyst, sporozoite or both stages). A selection of key compounds were examined with EAG, and responses showed differences in the detection thresholds of infected and uninfected mosquitoes to compounds including lactic acid, tetradecanoic acid and benzothiazole, suggesting that the changes in sensitivity may be the reason for differential attraction and biting at the oocyst and sporozoite stages. Importantly, the different cross-species comparisons showed varying sensitivities to compounds, with P. falciparum infected An. gambiae differing from P. berghei infected An. stephensi, and P. berghei infected An. gambiae more similar to the P. berghei infected An. stephensi. These differences in sensitivity may reflect long-standing evolutionary relationships between specific Plasmodium and Anopheles species combinations. This highlights the importance of examining different species interactions in depth to fully understand the impact of malaria infection on mosquito olfactory behaviour.

Published

2019

2. Plasmodium-associated changes in human odor attract mosquitoes

Author

Khalid B. Beshir, Robert W. Sauerwein, W Richard Mukabana, John A. Pickett, Colin J. Sutherland, Jetske G. de Boer, Teun Bousema, Niels O. Verhulst, John C. Caulfield, Stephen J. Powers, Julian Muwanguzi, Annette O. Busula, James G. Logan, Renate C. Smallegange, Michael A. Birkett, Ailie Robinson, Peter Winskill, Willem Takken, Mirjam A Voets, Daniel K. Masiga, Terrestrial Ecology (TE), University of Zurich, and Robinson, Ailie

Subjects

10078 Institute of Parasitology, 0301 basic medicine, Male, Plasmodium, parasite–vector–host interactions, Nonanal, lnfectious Diseases and Global Health Radboud Institute for Molecular Life Sciences [Radboudumc 4], chemistry.chemical_compound, host attractiveness, 600 Technology, Disease biomarkers, VIVAX GAMETOCYTES, Laboratory of Entomology, Child, malaria transmission, IN-VIVO, Multidisciplinary, biology, Anopheles, PE&RC, Multidisciplinary Sciences, Parasite–vector–host interactions, international, Child, Preschool, Science & Technology - Other Topics, Female, Malaria transmission, disease biomarkers, AEDES-AEGYPTI, RAPID DIAGNOSTIC-TESTS, Attractiveness, Host attractiveness, LEISHMANIA-MEXICANA-AMAZONENSIS, HUMAN SKIN EMANATIONS, Zoology, 610 Medicine & health, Aedes aegypti, Mosquito Vectors, QUANTITATIVE PCR, 03 medical and health sciences, FALCIPARUM MALARIA, All institutes and research themes of the Radboud University Medical Center, LUNG-CANCER, parasitic diseases, MD Multidisciplinary, medicine, aldehydes, Animals, Humans, Aldehydes, 1000 Multidisciplinary, Science & Technology, parasite-vector-host interactions, MASS-SPECTROMETRY, biology.organism_classification, medicine.disease, Laboratorium voor Entomologie, Malaria, 030104 developmental biology, Octanal, lnfectious Diseases and Global Health Radboud Institute for Health Sciences [Radboudumc 4], Odor, chemistry, Odorants, 570 Life sciences

Abstract

Malaria parasites (Plasmodium) can change the attractiveness of their vertebrate hosts to Anopheles vectors, leading to a greater number of vector-host contacts and increased transmission. Indeed, naturally Plasmodium-infected children have been shown to attract more mosquitoes than parasite-free children. Here, we demonstrate Plasmodium-induced increases in the attractiveness of skin odor in Kenyan children, and reveal quantitative differences in the production of specific odor components in infected, versus parasite-free, individuals. We found the aldehydes heptanal, octanal and nonanal to be produced in greater amounts by infected individuals, and detected by mosquito antennae. In behavioral experiments, we demonstrated that these, and other, Plasmodium-induced aldehydes enhanced the attractiveness of a synthetic odor blend mimicking ‘healthy’ human odor. Heptanal alone increased the attractiveness of ‘parasite-free’ natural human odor. Should the increased production of these aldehydes by Plasmodium-infected humans lead to increased mosquito biting in a natural setting, this would likely affect the transmission of malaria.

Published

2018

3. Mosquito Attraction: Crucial Role of Carbon Dioxide in Formulation of a Five-Component Blend of Human-Derived Volatiles

Author

Gabriella Bukovinszkine’Kiss, Renate C. Smallegange, David J. Menger, Joop J. A. van Loon, Willem Takken, Niels O. Verhulst, Frans Jacobs, Wolfgang R Mukabana, and Marjolein de Rijk

Subjects

Attractiveness, malaria mosquito, Mosquito Control, Anopheles gambiae, Aedes aegypti, lactic-acid, vector anopheles-gambiae, Biochemistry, Pheromones, Article, aedes-aegypti, chemistry.chemical_compound, Pentanols, 3-methyl-1-butanol, Behavioral disruption, Anopheles, Botany, Animals, Humans, Food science, Laboratory of Entomology, Ecology, Evolution, Behavior and Systematics, Volatile Organic Compounds, semifield conditions, biology, behavior, Chemotaxis, General Medicine, Carbon Dioxide, PE&RC, Laboratorium voor Entomologie, culicidae, biology.organism_classification, Olfaction, Attraction, ionotropic glutamate receptors, Lactic acid, human skin microbiota, gambiae-sensu-stricto, chemistry, Olfactometer, Kairomone, Trapping, Female, Butan-1-amine

Abstract

Behavioral responses of the malaria mosquito Anopheles coluzzii (An. gambiae sensu stricto molecular 'M form') to an expanded blend of human-derived volatiles were assessed in a dual-port olfactometer. A previously documented attractive three-component blend consisting of NH3, (S)-lactic acid, and tetradecanoic acid served as the basis for expansion. Adding 4.5 % CO2 to the basic blend significantly enhanced its attractiveness. Expansion of the blend with four human-derived C4-volatiles was then assessed, both with and without CO2. Only when CO2 was offered simultaneously, did addition of a specific concentration of 3-methyl-1-butanol or 3-methyl-butanoic acid significantly enhance attraction. The functional group at the terminal C of the 3-methyl-substituted C4 compounds influenced behavioral effectiveness. In the absence of CO2, addition of three concentrations of butan-1-amine caused inhibition when added to the basic blend. In contrast, when CO2 was added, butan-1-amine added to the basic blend strongly enhanced attraction at all five concentrations tested, the lowest being 100,000 times diluted. The reversal of inhibition to attraction by adding CO2 is unique in the class Insecta. We subsequently augmented the three-component basic blend by adding both butan-1-amine and 3-methyl-1-butanol and optimizing their concentrations in the presence of CO2 in order to significantly enhance the attractiveness to An. coluzzii compared to the three- and four-component blends. This novel blend holds potential to enhance malaria vector control based on behavioral disruption.

Published

2015

4. Odours of Plasmodium falciparum-infected participants influence mosquito-host interactions

Author

John C. Caulfield, Teun Bousema, Stephen J. Powers, James G. Logan, Willem Takken, Michael A. Birkett, Robert W. Sauerwein, S.L.G.E. Burgers, John A. Pickett, Jetske G. de Boer, Renate C. Smallegange, Ailie Robinson, and Perry J.J. van Genderen

Subjects

0301 basic medicine, 017-4006, Plasmodium falciparum, lnfectious Diseases and Global Health Radboud Institute for Molecular Life Sciences [Radboudumc 4], Zoology, lcsh:Medicine, Plasmodium, Article, Gas Chromatography-Mass Spectrometry, Host-Parasite Interactions, 03 medical and health sciences, parasitic diseases, medicine, Gametocyte, Parasite hosting, Animals, Humans, Metabolomics, QD, Laboratory of Entomology, Malaria, Falciparum, lcsh:Science, Skin, Volatile Organic Compounds, Multidisciplinary, biology, Behavior, Animal, Transmission (medicine), Host (biology), lcsh:R, fungi, medicine.disease, biology.organism_classification, PE&RC, Laboratorium voor Entomologie, Attraction, 3. Good health, lnfectious Diseases and Global Health Radboud Institute for Health Sciences [Radboudumc 4], 030104 developmental biology, Biometris, Culicidae, Immunology, Odorants, lcsh:Q, Malaria

Abstract

Malaria parasites are thought to influence mosquito attraction to human hosts, a phenomenon that may enhance parasite transmission. This is likely mediated by alterations in host odour because of its importance in mosquito host-searching behaviour. Here, we report that the human skin odour profile is affected by malaria infection. We compared the chemical composition and attractiveness to Anopheles coluzzii mosquitoes of skin odours from participants that were infected by Controlled Human Malaria Infection with Plasmodium falciparum. Skin odour composition differed between parasitologically negative and positive samples, with positive samples collected on average two days after parasites emerged from the liver into the blood, being associated with low densities of asexual parasites and the absence of gametocytes. We found a significant reduction in mosquito attraction to skin odour during infection for one experiment, but not in a second experiment, possibly due to differences in parasite strain. However, it does raise the possibility that infection can affect mosquito behaviour. Indeed, several volatile compounds were identified that can influence mosquito behaviour, including 2- and 3-methylbutanal, 3-hydroxy-2-butanone, and 6-methyl-5-hepten-2-one. To better understand the impact of our findings on Plasmodium transmission, controlled studies are needed in participants with gametocytes and higher parasite densities.

Published

2017

5. A Novel Synthetic Odorant Blend for Trapping of Malaria and Other African Mosquito Species

Author

Philemon Omusula, Joop J. A. van Loon, Renate C. Smallegange, Bruno Otieno, Willem Takken, Collins K. Mweresa, and Wolfgang R Mukabana

Subjects

Insecticides, Synthetic odor blend, Mosquito Control, Anopheles gambiae, Butanols, Biochemistry, Toxicology, Mosquito, 3-methyl-1-butanol, 2-methyl-1-butanol, Laboratory of Entomology, Sampling, biology, glossinidae, General Medicine, PE&RC, culicidae, Attraction, Mosquito control, Host seeking, tanzania, carbon-dioxide, host-seeking, Article, 4,5-dimethylthiazole, Hemiterpenes, Malaria transmission, Anopheles, parasitic diseases, medicine, Animals, Humans, Pentanoic Acids, Ecology, Evolution, Behavior and Systematics, anopheles-gambiae, Blood meal, medicine.disease, biology.organism_classification, Laboratorium voor Entomologie, Odor-guided behavior, Thiazoles, human skin microbiota, Odor, gambiae-sensu-stricto, Africa, Odorants, identification, tsetse-flies diptera, Isovaleric acid, Malaria

Abstract

Estimating the biting fraction of mosquitoes is of critical importance for risk assessment of malaria transmission. Here, we present a novel odor-based tool that has been rigorously assessed in semi-field assays and traditional African villages for estimating the number of mosquitoes that enter houses in search of a blood meal. A standard synthetic blend (SB) consisting of ammonia, (S)-lactic acid, tetradecanoic acid, and carbon dioxide was complemented with isovaleric acid, 4,5 dimethylthiazole, 2-methyl-1-butanol, and 3-methyl-1-butanol in various combinations and concentrations, and tested for attractiveness to the malaria mosquito Anopheles gambiae. Compounds were released through low density polyethylene (LDPE) material or from nylon strips (nylon). Studies were done in a semi-field facility and two traditional villages in western Kenya. The alcohol 3-methyl-1-butanol significantly increased the attraction of SB. The other compounds proved less effective or inhibitory. Tested in a village, 3-methyl-1-butanol, released from LDPE, increased the attraction of SB. Further studies showed a significantly enhanced attraction of adding 3-methyl-1-butanol to SB compared to previously-published attractive blends both under semi-field and village conditions. Other mosquito species with relevance for public health were collected with this blend in significantly higher numbers as well. These results demonstrate the advent of a novel, reliable odor-based sampling tool for the collection of malaria and other mosquitoes. The advantage of this odor-based tool over existing mosquito sampling tools is its reproducibility, objectiveness, and relatively low cost compared to current standards of CDC light traps or the human landing catch.

Published

2012

6. Behavioural responses of Anopheles gambiae sensu stricto to components of human breath, sweat and urine depend on mixture composition and concentration

Author

Renate C. Smallegange, J.J.A. van Loon, Willem Takken, and Y.T. Qiu

Subjects

Adult, malaria mosquito, odor, Anopheles gambiae, Olfaction, Aedes aegypti, Urine, Pheromones, l-lactic acid, Ammonia, chemistry.chemical_compound, aedes-aegypti, Anopheles, parasitic diseases, Animals, Humans, Laboratory of Entomology, Sweat, Ecology, Evolution, Behavior and Systematics, General Veterinary, biology, Feeding Behavior, mass-spectrometry, biology.organism_classification, PE&RC, volatile organic-compounds, Laboratorium voor Entomologie, Attraction, Lactic acid, chemistry, Biochemistry, Olfactometer, Odor, gas-chromatography, Insect Science, yellow-fever mosquito, Odorants, Parasitology, Female, human skin, attraction

Abstract

Host-seeking behaviour of the anthropophilic malaria vector Anopheles gambiae sensu stricto (Diptera: Culicidae) is mediated predominantly by olfactory cues. Several hundreds of odour components have been identified from human emanations, but only a few have been proven to act as attractants or synergists in the host-seeking behaviour of female An. gambiae. In previous work, aromatics, alcohols and ketones in human odours were found to elicit electrophysiological activity in antennal olfactory neurons of female An. gambiae. However, the behavioural effects of these compounds have not been investigated. In this study, behavioural responses of female An. gambiae to components of human breath, urine and sweat at a series of concentrations, or a single concentration in the case of acetone, were examined in combination with ammonia and L-lactic acid in a dual-choice olfactometer. The results showed that at specific concentrations 4-ethylphenol, indole, 3-methyl-1-butanol and two ketones inhibited the attractive effect of a mixture of ammonia and lactic acid. Acetone on its own was not attractive; however, when combined with lactic acid, the binary mixture was attractive. When combined with ammonia, acetone inhibited the attractiveness exerted by ammonia alone. Dodecanol and dimethyldisulphide did not affect the attraction exerted by ammonia and lactic acid at any of the concentrations tested. By contrast, a human-specific armpit odour, 7-octenoic acid, augmented the attraction exerted by the combination of ammonia and lactic acid at a specific dosage.

Published

2011

7. The effect of aliphatic carboxylic acids on olfaction-based host-seeking of the malaria mosquito Anopheles gambiae sensu stricto

Author

Joop J. A. van Loon, Renate C. Smallegange, Willem Takken, Y.T. Qiu, and Gabriella Bukovinszkine’Kiss

Subjects

Mosquito Control, Valeric acid, odor, Carboxylic acid, Human odor, Myristic acid, Biology, Biochemistry, aedes-aegypti diptera, Article, l-lactic acid, Butyric acid, Ammonia, chemistry.chemical_compound, electrophysiological responses, Mosquito, Anopheles, Organic chemistry, Animals, Laboratory of Entomology, Ecology, Evolution, Behavior and Systematics, chemistry.chemical_classification, human sweat, Behavior, Animal, Carboxylic acids, Heptanoic acid, General Medicine, PE&RC, culicidae, volatile organic-compounds, Laboratorium voor Entomologie, tsetse-flies, Lactic acid, Smell, Attraction, Propanoic acid, chemistry, human skin emanations, yellow-fever mosquito, Host-seeking behavior, Anopheles gambiae sensu stricto, Diptera: Culicidae, Olfactometer

Abstract

The role of aliphatic carboxylic acids in host-seeking response of the malaria mosquito Anopheles gambiae sensu stricto was examined both in a dual-choice olfactometer and with indoor traps. A basic attractive blend of ammonia + lactic acid served as internal standard odor. Single carboxylic acids were tested in a tripartite blend with ammonia + lactic acid. Four different airflow stream rates (0.5, 5, 50, and 100 ml/min) carrying the compounds were tested for their effect on trap entry response in the olfactometer. In the olfactometer, propanoic acid, butanoic acid, 3-methylbutanoic acid, pentanoic acid, heptanoic acid, octanoic acid, and tetradecanoic acid increased attraction relative to the basic blend. While several carboxylic acids were attractive only at one or two flow rates, tetradecanoic acid was attractive at all flow rates tested. Heptanoic acid was attractive at the lowest flow rate (0.5 ml/min), but repellent at 5 and 50 ml/min. Mixing the air stream laden with these 7 carboxylic acids together with the headspace of the basic blend increased attraction in two quantitative compositions. Subtraction of single acids from the most attractive blend revealed that 3-methylbutanoic acid had a negative effect on trap entry response. In the absence of tetradecanoic acid, the blend was repellent. In assays with MM-X traps, both a blend of 7 carboxylic acids + ammonia + lactic acid (all applied from low density polyethylene-sachets) and a simple blend of ammonia + lactic acid + tetradecanoic acid were attractive. The results show that carboxylic acids play an essential role in the host-seeking behavior of An. gambiae, and that the contribution to blend attractiveness depends on the specific compound studied. Electronic supplementary material The online version of this article (doi:10.1007/s10886-009-9668-7) contains supplementary material, which is available to authorized users.

Published

2009

8. Types and Numbers of Sensilla on Antennae and Maxillary Palps of Small and Large Houseflies, Musca domestica (Diptera, Muscidae)

Author

Frits J. Kelling, Cornelis J. Den Otter, and Renate C. Smallegange

Subjects

phenotypic plasticity, LOCUSTA-MIGRATORIA, anthomyiidae, DELIA-RADICUM L, Houseflies, Anthomyiidae, flies, Laboratory of Entomology, sense-organs, Instrumentation, cabbage root fly, biology, CABBAGE ROOT FLY, Sense Organs, Anatomy, respiratory system, delia-radicum l, PE&RC, Smell, Medical Laboratory Technology, SEM, HYGRORECEPTORS, melanogaster meigen diptera, hygroreceptors, Musca, Histology, animal structures, Body size, Bristle, olfactory sensilla, Microscopy, Electron, Transmission, PHENOTYPIC PLASTICITY, SENSE-ORGANS, Animals, ANTHOMYIIDAE, thermoreceptors, fungi, biology.organism_classification, Laboratorium voor Entomologie, THERMORECEPTORS, locusta-migratoria, Muscidae, Olfactory Sensilla, Microscopy, Electron, Scanning, TEM, Thermoreceptor, sense organs, MELANOGASTER MEIGEN DIPTERA, body size

Abstract

Houseflies, Musca domestica, obtained from a high-larval-density culture were significantly (ca. 1.5 times) smaller than those from a low-larval-density culture. The same held true for their antennae and maxillary palps. Structure, number, and distribution of sensilla on antennae and palps of small and large flies were investigated using Scanning electron microscopy and Transmission electron microscopy. In each funiculus three pits were present, two (Type I) consisting of several compartments and one (Type II) of one compartment. Four types of olfactory sensilla were detected: trichoid sensilla on the funiculi, basiconic sensilla on funiculi and palps, grooved sensilla on funiculi and in pits Type I, and clavate sensilla on funiculi and in pits Type II. Type I pits also contained striated sensilla (presumably hygroreceptors). Mechanosensory bristles were present on scapes, pedicels, and palps. Noninnervated microtrichia were found on the palps and all antennal segments. The large houseflies possessed nearly twice as much sensilla as the small flies. So far, we did not observe differences in behavior between small and large flies. We assumed that small flies, being olfactory less equipped than large flies, may be able to compensate for this by, e.g., visual cues or by their olfactory sensilla being more sensitive than those of large flies. To be able to answer these questions careful studies have to be done on the behavioral reponses of small and large flies to environmental stimuli. In addition, electrophysiological studies should be performed to reveal whether the responses of individual sensilla of flies reared under different conditions have been changed. Microse. Res. Tech. 71:880-886, 2008. (C) 2008 Wiley-Liss, Inc.

Published

2008

9. Attractiveness of MM-X Traps Baited with Human or Synthetic Odor to Mosquitoes (Diptera: Culicidae) in The Gambia

Author

Yu Tong Qiu, Renate C. Smallegange, Cajo J. F. ter Braak, Jeroen Spitzen, Joop J. A. Van Loon, Musa Jawara, Paul Milligan, Agnes M. Galimard, Teris A. Van Beek, Bart G. J. Knols, and Willem Takken

Subjects

malaria mosquito, Mosquito Control, carbon-dioxide, vector anopheles-gambiae, aedes-aegypti diptera, Wiskundige en Statistische Methoden - Biometris, Article, l-lactic acid, parasitic diseases, Animals, Humans, Laboratory of Entomology, Mathematical and Statistical Methods - Biometris, human sweat, General Veterinary, carboxylic-acids, Organic Chemistry, Carbon Dioxide, PE&RC, Laboratorium voor Entomologie, Organische Chemie, PRI Biometris, Culicidae, Infectious Diseases, human skin emanations, yellow-fever mosquito, Insect Science, Odorants, host-seeking behavior, Gambia, Parasitology

Abstract

Chemical cues play an important role in the host-seeking behavior of blood-feeding mosquitoes (Diptera: Culicidae). A field study was carried out in The Gambia to investigate the effects of human odor or synthetic odor blends on the attraction of mosquitoes. MM-X traps baited with 16 odor blends to which carbon dioxide (CO2) was added were tested in four sets of experiments. In a second series of experiments, MM-X traps with 14 odor blends without CO2 were tested. A blend of ammonia and L-lactic acid with or without CO2 was used as control odor in series 1 and 2, respectively. Centers for Disease Control and Prevention (CDC) traps were placed in a traditional house and an experimental house to monitor mosquito densities during the experiments. The MM-X traps caught a total number of 196,756 mosquitoes, with the most abundant species belonging to the genera Mansonia (70.6%), Anopheles (17.5%), and Culex (11.5%). The most abundant mosquito species caught by the CDC traps (56,290 in total) belonged to the genera Mansonia (59.4%), Anopheles (16.0% An. gambiae s.l. Giles, and 11.3% An. ziemanni Grünberg), and Culex (11.6%). MM-X traps baited with synthetic blends were in many cases more attractive than MM-X traps baited with human odors. Addition of CO2 to synthetic odors substantially increased the catch of all mosquito species in the MM-X traps. A blend of ammonia + L-lactic acid + CO2 + 3-methylbutanoic acid was the most attractive odor for most mosquito species. The candidate odor blend shows the potential to enhance trap collections so that traps will provide better surveillance and possible control.

Published

2007

10. Wolbachia infection does not alter attraction of the mosquito Aedes (Stegomyia) aegypti to human odours

Author

Andrew P. Turley, Scott Leslie O'Neill, Elizabeth A. McGraw, Myron P. Zalucki, Willem Takken, and Renate C. Smallegange

Subjects

Aging, diptera-culicidae, Dengue virus, medicine.disease_cause, Rickettsiaceae, Dengue fever, strain, Aedes, parasitic diseases, medicine, Animals, Humans, Laboratory of Entomology, life-shortening wolbachia, Ecology, Evolution, Behavior and Systematics, General Veterinary, biology, Host (biology), fungi, Feeding Behavior, biology.organism_classification, medicine.disease, PE&RC, Laboratorium voor Entomologie, populations, Attraction, Virology, dengue, Insect Science, Odorants, bacteria, Parasitology, Wolbachia, Female, Rickettsiales

Abstract

The insect endosymbiont Wolbachia pipientis (Rickettsiales: Rickettsiaceae) is undergoing field trials around the world to determine if it can reduce transmission of dengue virus from the mosquito Stegomyia aegypti to humans. Two different Wolbachia strains have been released to date. The primary effect of the wMel strain is pathogen protection whereby infection with the symbiont limits replication of dengue virus inside the mosquito. A second strain, wMelPop, induces pathogen protection, reduces the adult mosquito lifespan and decreases blood feeding success in mosquitoes after 15 days of age. Here we test whether Wolbachia infection affects mosquito attraction to host odours in adults aged 5 and 15 days. We found no evidence of reduced odour attraction of mosquitoes, even for those infected with the more virulent wMelPop. This bodes well for fitness and competitiveness in the field given that the mosquitoes must find hosts to reproduce for the biocontrol method to succeed.

Published

2014

11. Relation between HLA genes, human skin volatiles and attractiveness of humans to malaria mosquitoes

Author

Chris Maliepaard, Renate C. Smallegange, Frans H.J. Claas, W. Verduyn, G.W. Haasnoot, Hans Beijleveld, Y.T. Qiu, Niels O. Verhulst, Roland Mumm, Harro J. Bouwmeester, Joop J. A. van Loon, and Willem Takken

Subjects

0106 biological sciences, Male, Anopheles gambiae, Major histocompatibility complex, 01 natural sciences, Host odor, Laboratorium voor Plantenveredeling, HLA Antigens, GC–MS, Laboratorium voor Plantenfysiologie, Laboratory of Entomology, Skin, Genetics, 0303 health sciences, Ecology, EPS-3, Discriminant Analysis, Middle Aged, PE&RC, major histocompatibility complex, 3. Good health, Infectious Diseases, body odors, BIOS Applied Metabolic Systems, Milieutechnologie, Female, GC-MS, Laboratory of Plant Physiology, Attractiveness, Microbiology (medical), Adult, mating preferences, Aedes aegypti, Human leukocyte antigen, Biology, host-seeking, Microbiology, Gas Chromatography-Mass Spectrometry, 03 medical and health sciences, aedes-aegypti, Anopheles, parasitic diseases, medicine, Animals, Humans, Least-Squares Analysis, essential oils, Molecular Biology, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, human axillary odor, Volatile Organic Compounds, anopheles-gambiae, carbon dioxide, Laboratorium voor Entomologie, medicine.disease, biology.organism_classification, Mating preferences, Malaria, Plant Breeding, 010602 entomology, Odor, gambiae-sensu-stricto, Odorants, biology.protein, Environmental Technology

Abstract

Chemical cues are considered to be the most important cues for mosquitoes to find their hosts and humans can be ranked for attractiveness to mosquitoes based on the chemical cues they emit. Human leukocyte antigen (HLA) genes are considered to be involved in the regulation of human body odor and may therefore affect human attractiveness to mosquitoes, and hence, affect the force of malaria transmission. In the present study the correlations between HLA profiles, human skin volatiles and human attractiveness to the malaria mosquito Anopheles gambiae Giles sensu stricto were examined. Skin emanations of 48 volunteers were collected by rubbing a foot over glass beads. Previously the attractiveness of these emanations to An. gambiae was determined. In this study, the chemical composition of these emanations was determined by gas chromatography–mass spectroscopy (GC–MS) and blood samples of all volunteers were taken for HLA analysis. Hierarchical cluster analysis (HCA), partial least squares discriminant analysis (PLS-DA), Fisher’s exact test and random forest regression were used to test for correlations between individuals classified as either highly or poorly attractive to mosquitoes and their HLA profile and volatile composition. HLA profiling suggests that people carrying HLA gene Cw∗07 are more attractive to mosquitoes. GC–MS revealed that limonene, 2-phenylethanol and 2-ethyl-1-hexanol were associated with individuals that were poorly attractive to An. gambiae and lactic acid, 2-methylbutanoic acid, tetradecanoic acid and octanal with individuals that were highly attractive. Such compounds offer potential for disruption of mosquito behavior in malaria intervention programs.

Published

2013

12. Larval nutrition differentially affects adult fitness and Plasmodium development in the malaria vectors Anopheles gambiae and Anopheles stephensi

Author

Peter F. Billingsley, Renate C. Smallegange, Antoine Vigneau, A Jenny Mordue-Luntz, Willem Takken, Valerie Johnston, and Margaret Brown

Subjects

yoelii-nigeriensis, Biometry, body-size, Anopheles gambiae, Zoology, mosquito, Aedes aegypti, Biology, diptera, Plasmodium, Mice, aedes-aegypti, Anopheles, Fitness, parasitic diseases, medicine, Animals, Plasmodium yoelii nigeriensis, Laboratory of Entomology, Anopheles stephensi, sugar availability, Research, fungi, Feeding Behavior, Plasmodium yoelii, Body size, medicine.disease, biology.organism_classification, Blood meal, PE&RC, culicidae, Laboratorium voor Entomologie, Animal Feed, infection, Insect Vectors, rapid-determination, Infectious Diseases, reproductive success, Larva, Blood-feeding, Immunology, Parasitology, Female, Anopheles gambiae sensu stricto, Malaria

Abstract

BACKGROUND: Mosquito fitness is determined largely by body size and nutritional reserves. Plasmodium infections in the mosquito and resultant transmission of malaria parasites might be compromised by the vector's nutritional status. We studied the effects of nutritional stress and malaria parasite infections on transmission fitness of Anopheles mosquitoes. METHODS: Larvae of Anopheles gambiae sensu stricto and An. stephensi were reared at constant density but with nutritionally low and high diets. Fitness of adult mosquitoes resulting from each dietary class was assessed by measuring body size and lipid, protein and glycogen content. The size of the first blood meal was estimated by protein analysis. Mosquitoes of each dietary class were fed upon a Plasmodium yoelii nigeriensis-infected mouse, and parasite infections were determined 5 d after the infectious blood meal by dissection of the midguts and by counting oocysts. The impact of Plasmodium infections on gonotrophic development was established by dissection. RESULTS: Mosquitoes raised under low and high diets emerged as adults of different size classes comparable between An. gambiae and An. stephensi. In both species low-diet females contained less protein, lipid and glycogen upon emergence than high-diet mosquitoes. The quantity of larval diet impacted strongly upon adult blood feeding and reproductive success. The prevalence and intensity of P. yoelii nigeriensis infections were reduced in low-diet mosquitoes of both species, but P. yoelii nigeriensis impacted negatively only on low-diet, small-sized An. gambiae considering survival and egg maturation. There was no measurable fitness effect of P. yoelii nigeriensis on An. stephensi. CONCLUSIONS: Under the experimental conditions, small-sized An. gambiae expressed high mortality, possibly caused by Plasmodium infections, the species showing distinct physiological concessions when nutrionally challenged in contrast to well-fed, larger siblings. Conversely, An. stephensi was a robust, successful vector regardless of its nutrional status upon emergence. The data suggest that small-sized An. gambiae, therefore, would contribute little to malaria transmission, whereas this size effect would not affect An. stephensi.

Published

2013

13. Mosquitoes as potential bridge vectors of malaria parasites from non-human primates to humans

Author

Renate C. Smallegange, Niels O. Verhulst, and Willem Takken

Subjects

host preference, Plasmodium, Physiology, 030231 tropical medicine, Cross-species transmission, Zoology, 03 medical and health sciences, 0302 clinical medicine, Malaria elimination, Physiology (medical), parasitic diseases, medicine, mosquito behavior, Parasite hosting, apes, Laboratory of Entomology, 030304 developmental biology, 0303 health sciences, biology, Transmission (medicine), Anopheles, cross-species transmission, Mosquito behavior, biology.organism_classification, medicine.disease, PE&RC, Laboratorium voor Entomologie, Virology, 3. Good health, Host preference, Perspective Article, Apes, Non-human, Malaria

Abstract

Malaria is caused by Plasmodium parasites which are transmitted by mosquitoes. Until recently, human malaria was considered to be caused by human-specific Plasmodium species. Studies on Plasmodium parasites in non-human primates (NHPs), however, have identified parasite species in gorillas and chimpanzees that are closely related to human Plasmodium species. Moreover, P. knowlesi, long known as a parasite of monkeys, frequently infects humans. The requirements for such a cross-species exchange and especially the role of mosquitoes in this process are discussed, as the latter may act as bridge vectors of Plasmodium species between different primates. Little is known about the mosquito species that would bite both humans and NHPs and if so, whether humans and NHPs share the same Plasmodium vectors. To understand the vector-host interactions that can lead to an increased Plasmodium transmission between species, studies are required that reveal the nature of these interactions. Studying the potential role of NHPs as a Plasmodium reservoir for humans will contribute to the ongoing efforts of human malaria elimination, and will help to focus on critical areas that should be considered in achieving this goal.

Published

2012

14. Identification of candidate volatiles that affect the behavioural response of the malaria mosquito Anopheles gambiae sensu stricto to an active kairomone blend: laboratory and semi-field assays

Author

Renate C. Smallegange, Willem Takken, Bruno Otieno, Gabriella Bukovinszkine’Kiss, Phoebe A Mbadi, Wolfgang R Mukabana, and Joop J. A. van Loon

Subjects

Integrated pest management, flight maneuvers, Physiology, Anopheles gambiae, vector control, Aedes aegypti, carbon-dioxide, mm-x traps, Toxicology, chemistry.chemical_compound, aedes-aegypti, integrated pest-management, parasitic diseases, Laboratory of Entomology, Ecology, Evolution, Behavior and Systematics, biology, culex mosquitos, PE&RC, Laboratorium voor Entomologie, biology.organism_classification, Lactic acid, organic-compounds, Mosquito control, chemistry, Olfactometer, Insect Science, Vector (epidemiology), Kairomone, human skin emanations, chemical-composition

Abstract

Anopheles gambiae Giles sensu stricto (Diptera: Culicidae) is the most important vector of human malaria in sub-Saharan Africa, affecting the lives of millions of people. Existing tools such as insecticide-treated nets and indoor-residual sprays are not only effective, but also have limitations as a result of the development of resistance to insecticides and behavioural adaptations in biting time. Therefore, novel mosquito-control tools are needed. Odour-releasing traps have a potential for both trapping and surveillance purposes. Based on the outcome of ex vivo gene expression assays and in vivo electrophysiological assays on hundreds of volatile organic compounds, 29 ‘candidate behaviourally-disruptive organic compounds' (cBDOCs) are selected, belonging to 10 chemical categories, to be assayed in the laboratory using dual-choice olfactometers for the ability to modify the ‘attractiveness’ (i.e. significantly more insects being caught in the associated trap) of a basic volatile blend consisting of ammonia, lactic acid and tetradecanoic acid but without additional carbon dioxide. Compounds that either reduce or increase trap catches by the basic blend in the olfactometer experiments are tested under African conditions in choice experiments in a semi-field facility in Kenya. The release rates of cBDOCs are determined gravimetrically to allow the calculation of aerial concentrations at the trap outlet. Aerial concentrations in the sub-p.p.m. range are reported for the first time to influence mosquito behaviour. The results of the olfactometer and semi-field assays generally correspond. Under semi-field conditions, three compounds, 3-heptanol (0.025 p.p.m.), 2-methylpropanal (0.05 p.p.m.) and 4,5-dimethylthiazole (0.73 p.p.m.), significantly increase trap catches relative to the basic blend consisting of ammonia, lactic acid, tetradecanoic acid and carbon dioxide. 2-Acetylthiophene, 2-nonanone and 2-phenylethanol decrease the number of mosquitoes caught at all concentrations tested under semi-field conditions. These compounds hold promise as attractants and spatial repellents to be applied in mosquito control programmes.

Published

2012

15. Composition of human skin microbiota affects attractiveness to malaria mosquitoes

Author

Donna Berg-Lyons, Hans Beijleveld, Y.T. Qiu, Stefan Schulz, Rob Knight, Roland Mumm, Christian L. Lauber, Chris Maliepaard, Renate C. Smallegange, Willem Verduijn, Frans H.J. Claas, G.W. Haasnoot, Harro J. Bouwmeester, Joop J. A. van Loon, Dan Knights, Willem Takken, Niels O. Verhulst, Marcel Dicke, and Schneider, Bradley S

Subjects

Male, Plasmodium, Anopheles gambiae, Colony Count, Colony Count, Microbial, lcsh:Medicine, Disease, Mosquitoes, Behavioral Ecology, Laboratorium voor Plantenveredeling, Microbial, RNA, Ribosomal, 16S, 2.2 Factors relating to the physical environment, Veröffentlichung der TU Braunschweig, Laboratorium voor Plantenfysiologie, Laboratory of Entomology, Aetiology, lcsh:Science, Skin, Multidisciplinary, biology, Ecology, Middle Aged, PE&RC, major histocompatibility complex, Host-Pathogen Interaction, ddc:57, Infectious Diseases, ddc:54, BIOS Applied Metabolic Systems, Medicine, Milieutechnologie, medicine.symptom, Infection, Laboratory of Plant Physiology, Research Article, Attractiveness, Adult, 16S, mating preferences, General Science & Technology, Zoology, selection, Aedes aegypti, Dermatology, Microbiology, Article, Vector Biology, diversity, Microbial Ecology, spectrometry, aedes-aegypti, Rare Diseases, Body odour, parasitic diseases, Anopheles, medicine, Animals, Humans, Microbiome, ddc:5, human axillary odor, Ribosomal, Chemical Ecology, Bacteria, anopheles-gambiae, lcsh:R, medicine.disease, biology.organism_classification, Laboratorium voor Entomologie, Mating preferences, Malaria, Vector-Borne Diseases, Plant Breeding, Good Health and Well Being, Emerging Infectious Diseases, responses, Environmental Technology, RNA, lcsh:Q, microflora

Abstract

The African malaria mosquito Anopheles gambiae sensu stricto continues to play an important role in malaria transmission, which is aggravated by its high degree of anthropophily, making it among the foremost vectors of this disease. In the current study we set out to unravel the strong association between this mosquito species and human beings, as it is determined by odorant cues derived from the human skin. Microbial communities on the skin play key roles in the production of human body odour. We demonstrate that the composition of the skin microbiota affects the degree of attractiveness of human beings to this mosquito species. Bacterial plate counts and 16S rRNA sequencing revealed that individuals that are highly attractive to An. gambiae s.s. have a significantly higher abundance, but lower diversity of bacteria on their skin than individuals that are poorly attractive. Bacterial genera that are correlated with the relative degree of attractiveness to mosquitoes were identified. The discovery of the connection between skin microbial populations and attractiveness to mosquitoes may lead to the development of new mosquito attractants and personalized methods for protection against vectors of malaria and other infectious diseases. © 2011 Verhulst et al.

Published

2011

16. Sweaty skin: an invitation to bite?

Author

Niels O. Verhulst, Willem Takken, and Renate C. Smallegange

Subjects

Attractiveness, human-body odor, malaria mosquito, Anopheles gambiae, Zoology, Aedes aegypti, pattern-recognition, Pheromones, Host-Parasite Interactions, gas chromatography/mass spectrometry, l-lactic acid, aedes-aegypti, Species Specificity, candidate attractants, Aedes, Anopheles, parasitic diseases, Animals, Humans, volatile compounds, Laboratory of Entomology, Sweat, mosquito anopheles-gambiae, Sensu stricto, Skin, Volatile Organic Compounds, biology, Human blood, integumentary system, Host (biology), Organic chemicals, Ecology, fungi, biology.organism_classification, PE&RC, Laboratorium voor Entomologie, human kin recognition, Infectious Diseases, Odorants, Parasitology

Abstract

Anopheles gambiae sensu stricto and Aedes aegypti have a preference for human blood, which determines their importance as vectors of pathogens responsible for human diseases. Volatile organic chemicals are the principal cues by which humans are being located. Human sweat contains components that are attractive to anthropophilic mosquito species, and variation in sweat composition causes differential attractiveness to mosquitoes within and between individuals and also between humans and other mammals. Characteristics of skin glands and skin microbiota define the odorous organic compounds emitted by sweat, thereby the degree of attractiveness of the host to mosquitoes. Carboxylic acids in particular appear to characterize humans. Thus sweat-associated human volatiles are probably the primary determinant factor in the host preference of anthropophilic mosquitoes.

Published

2011

17. Field Testing of Different Chemical Combinations as Odour Baits for Trapping Wild Mosquitoes in The Gambia

Author

David Jeffries, David J. Conway, Margaret Pinder, Willem Takken, Musa Jawara, Renate C. Smallegange, and Taiwo Samson Awolola

Subjects

Male, malaria mosquito, Anatomy and Physiology, Mosquito Control, Epidemiology, Anopheles gambiae, lcsh:Medicine, yeast, diptera, vector anopheles-gambiae, Mosquitoes, Pheromones, Toxicology, Organic Chemicals, Laboratory of Entomology, Malaria vector, lcsh:Science, education.field_of_study, Multidisciplinary, Ecology, sensu-stricto, PE&RC, culicidae, Mosquito control, Infectious Diseases, Medicine, Female, Gambia, Public Health, Research Article, Disease Ecology, Culex, Population, Endocrine System, Trapping, Biology, carbon-dioxide, Microbiology, Vector Biology, Anopheles, parasitic diseases, Animals, Humans, education, Chemical Ecology, Endocrine Physiology, behavior, lcsh:R, Tropical Diseases (Non-Neglected), Vectors and Hosts, Carbon Dioxide, biology.organism_classification, Laboratorium voor Entomologie, Malaria, Inorganic Chemicals, Vector (epidemiology), Odorants, responses, lcsh:Q, Mansonia, Zoology, Entomology

Abstract

Odour baited traps have potential use in population surveillance of insect vectors of disease, and in some cases for vector population reduction. Established attractants for human host-seeking mosquitoes include a combination of CO(2) with L-lactic acid and ammonia, on top of which additional candidate compounds are being tested. In this field study in rural Gambia, using Latin square experiments with thorough randomization and replication, we tested nine different leading candidate combinations of chemical odorants for attractiveness to wild mosquitoes including anthropophilic malaria vectors, using modified Mosquito Magnet-X (MM-X) counterflow traps outside experimental huts containing male human sleepers. Highest catches of female mosquitoes, particularly of An. gambiae s.l. and Mansonia species, were obtained by incorporation of tetradecanoic acid. As additional carboxylic acids did not increase the trap catches further, this 'reference blend' (tetradecanoic acid with L-lactic acid, ammonia and CO(2)) was used in subsequent experiments. MM-X traps with this blend caught similar numbers of An. gambiae s.l. and slightly more Mansonia and Culex mosquitoes than a standard CDC light trap, and these numbers were not significantly affected by the presence or absence of human sleepers in the huts. Experiments with CO(2) produced from overnight yeast cultures showed that this organic source was effective in enabling trap attractiveness for all mosquito species, although at a slightly lower efficiency than obtained with use of CO(2) gas cylinders. Although further studies are needed to discover additional chemicals that increase attractiveness, as well as to optimise trap design and CO(2) source for broader practical use, the odour-baited traps described here are safe and effective for sampling host-seeking mosquitoes outdoors and can be incorporated into studies of malaria vector ecology.

Published

2011

18. Differential attraction of malaria mosquitoes to volatile blends produced by human skin bacteria

Author

Niels O. Verhulst, Gabriella Bukovinszkiné Kiss, Ulrike Groenhagen, Gosse Schraa, Willem Takken, Renate C. Smallegange, Rob Andriessen, Joop J. A. van Loon, and Stefan Schulz

Subjects

oviposition responses, Anopheles gambiae, lcsh:Medicine, Mosquitoes, Pheromones, l-lactic acid, Behavioral Ecology, Microbiologie, Veröffentlichung der TU Braunschweig, Laboratory of Entomology, lcsh:Science, Skin, pseudomonas-aeruginosa, Multidisciplinary, Ecology, biology, PE&RC, Attraction, Smell, ddc:54, Sex pheromone, Pseudomonas aeruginosa, Biological Assay, medicine.symptom, Research Article, diptera-culicidae, Aedes aegypti, Corynebacterium, Microbiology, Vector Biology, Article, Gas Chromatography-Mass Spectrometry, aedes-aegypti, electrophysiological responses, Anopheles, Body odour, parasitic diseases, medicine, Animals, Humans, Biology, human axillary odor, Microbial Metabolism, ddc:5, Chemical Ecology, Bacteria, anopheles-gambiae, pyruvate fermentation, Host (biology), fungi, lcsh:R, Laboratorium voor Entomologie, biology.organism_classification, Malaria, Culicidae, gambiae-sensu-stricto, Olfactometer, Odorants, lcsh:Q

Abstract

The malaria mosquito Anopheles gambiae sensu stricto is mainly guided by human odour components to find its blood host. Skin bacteria play an important role in the production of human body odour and when grown in vitro, skin bacteria produce volatiles that are attractive to A. gambiae. The role of single skin bacterial species in the production of volatiles that mediate the host-seeking behaviour of mosquitoes has remained largely unknown and is the subject of the present study. Headspace samples were taken to identify volatiles that mediate this behaviour. These volatiles could be used as mosquito attractants or repellents. Five commonly occurring species of skin bacteria were tested in an olfactometer for the production of volatiles that attract A. gambiae. Odour blends produced by some bacterial species were more attractive than blends produced by other species. In contrast to odours from the other bacterial species tested, odours produced by Pseudomonas aeruginosa were not attractive to A. gambiae. Headspace analysis of bacterial volatiles in combination with behavioural assays led to the identification of six compounds that elicited a behavioural effect in A. gambiae. Our results provide, to our knowledge, the first evidence for a role of selected bacterial species, common on the human skin, in determining the attractiveness of humans to malaria mosquitoes. This information will be used in the further development of a blend of semiochemicals for the manipulation of mosquito behaviour.

Published

2010

19. Development and Field Evaluation of a Synthetic Mosquito Lure That Is More Attractive than Humans

Author

Lubandwa R Biswaro, Fredros O. Okumu, Gerry F. Killeen, Cristina J Munk, Willem Takken, Sheila B. Ogoma, Renate C. Smallegange, Wolfgang R Mukabana, Hassan Mshinda, Edgar Mbeyela, Hassan Ngonyani, Emmanuel Titus, and Sarah J. Moore

Subjects

Infectious Diseases/Epidemiology and Control of Infectious Diseases, malaria mosquito, Mosquito Control, Adult male, Anopheles gambiae, Science, 030231 tropical medicine, Public Health and Epidemiology/Infectious Diseases, Zoology, Aedes aegypti, carbon-dioxide, diptera, Host-Parasite Interactions, l-lactic acid, Toxicology, 03 medical and health sciences, aedes-aegypti, 0302 clinical medicine, Chemical Biology, parasitic diseases, Animals, Humans, Laboratory of Entomology, 030304 developmental biology, 0303 health sciences, human sweat, Surveillance, monitoring, evaluation, Multidisciplinary, biology, anopheles-gambiae, behavior, biology.organism_classification, PE&RC, Laboratorium voor Entomologie, Mosquito control, Odor, Evaluation Studies as Topic, Medicine, identification, environment, Research Article

Abstract

BackgroundDisease transmitting mosquitoes locate humans and other blood hosts by identifying their characteristic odor profiles. Using their olfactory organs, the mosquitoes detect compounds present in human breath, sweat and skins, and use these as cues to locate and obtain blood from the humans. These odor compounds can be synthesized in vitro, then formulated to mimic humans. While some synthetic mosquito lures already exist, evidence supporting their utility is limited to laboratory settings, where long-range stimuli cannot be investigated.Methodology and principal findingsHere we report the development and field evaluation of an odor blend consisting of known mosquito attractants namely carbon dioxide, ammonia and carboxylic acids, which was optimized at distances comparable with attractive ranges of humans to mosquitoes. Binary choice assays were conducted inside a large-cage semi-field enclosure using attractant-baited traps placed 20 m apart. This enabled high-throughput optimization of concentrations at which the individual candidate attractants needed to be added so as to obtain a blend maximally attractive to laboratory-reared An. gambiae. To determine whether wild mosquitoes would also be attracted to this synthetic odor blend and to compare it with whole humans under epidemiologically relevant conditions, field experiments were conducted inside experimental huts, where the blend was compared with 10 different adult male volunteers (20-34 years old). The blend attracted 3 to 5 times more mosquitoes than humans when the two baits were in different experimental huts (10-100 metres apart), but was equally or less attractive than humans when compared side by side within same huts.Conclusion and significanceThis highly attractive substitute for human baits might enable development of technologies for trapping mosquitoes in numbers sufficient to prevent rather than merely monitor transmission of mosquito-borne diseases.

Published

2010

20. Optimizing odor-baited trap methods for collecting mosquitoes during the malaria season in The Gambia

Author

David J. Conway, Bart G. J. Knols, Davis Nwakanma, Musa Jawara, David Jeffries, Taiwo Samson Awolola, Willem Takken, and Renate C. Smallegange

Subjects

Infectious Diseases/Epidemiology and Control of Infectious Diseases, Mosquito Control, Anopheles gambiae, lcsh:Medicine, Public Health and Epidemiology/Infectious Diseases, Biology, carbon-dioxide, diptera, vector anopheles-gambiae, mm-x traps, Toxicology, molecular-forms, parasitic diseases, medicine, Animals, Humans, Laboratory of Entomology, Malaria vector, lcsh:Science, semifield conditions, Multidisciplinary, Ecology, lcsh:R, attractiveness, Carbon Dioxide, medicine.disease, biology.organism_classification, PE&RC, volatile organic-compounds, Laboratorium voor Entomologie, Insect Vectors, Malaria, Mosquito control, Culicidae, Odor, Ecology/Population Ecology, Odorants, lcsh:Q, Female, Gambia, Seasons, Public Health and Epidemiology/Epidemiology, human skin, complex, Research Article, Infectious Diseases/Tropical and Travel-Associated Diseases

Abstract

BACKGROUND: Baited traps are potential tools for removal or surveillance of disease vectors. To optimize the use of counter-flow traps baited with human odor (nylon socks that had been worn for a single day) to capture wild mosquitoes in the Gambia, investigations were conducted at a field experimental site. METHODOLOGY/PRINCIPAL FINDINGS: Experiments employing Latin square design were conducted with a set of six huts to investigate the effects of the following on overnight mosquito trap catches: (1) placement of traps indoors or immediately outdoors, CO(2) supply, and presence of a human subject in the hut; (2) trap height for collecting mosquitoes immediately outdoors; (3) height and distance from hut; (4) interaction between multiple traps around a single hut and entry of mosquitoes into huts. A total of 106,600 adult mosquitoes (9.1% Anopheles gambiae s.l., 4.0% other Anopheles species) were collected over 42 nights. The high numbers of An. gambiae s.l. and other mosquitoes collected by odor-baited traps required CO(2) but were largely independent of the presence of a person sleeping in the hut or of trap placement indoors or outdoors. For outdoor collection that is considered less intrusive, traps opening 15 cm above the floor of the hut veranda were more highly effective than traps at other heights or further from the hut. There was no significant evidence of saturation or competition by the traps, with multiple traps around a hut each collecting almost as many mosquitoes as single traps and no effect on the numbers of mosquitoes entering the huts. CONCLUSIONS/SIGNIFICANCE: The outdoor trapping protocol is convenient to compare attractiveness of different odors or synthetic chemicals to malaria vectors and other wild mosquitoes. The finding that such traps are reliably attractive in the presence or absence of a human volunteer encourages their potential development as standardised surveillance tools.

Published

2009

21. Cultured skin microbiota attracts malaria mosquitoes

Author

Gosse Schraa, Bart G. J. Knols, Niels O. Verhulst, Hans Beijleveld, Harro J. Bouwmeester, Renate C. Smallegange, Willem Takken, Infectious diseases, and Faculteit der Geneeskunde

Subjects

Anopheles gambiae, Human skin, mm-x traps, Pheromones, 0302 clinical medicine, Staphylococcus epidermidis, Microbiologie, Bioassay, Laboratorium voor Plantenfysiologie, Laboratory of Entomology, Skin, 0303 health sciences, biology, Behavior, Animal, PE&RC, tsetse-flies, 3. Good health, PRI Bioscience, Infectious Diseases, Laboratory of Plant Physiology, lcsh:Arctic medicine. Tropical medicine, axillary odor, lcsh:RC955-962, 030231 tropical medicine, Aedes aegypti, Microbiology, lcsh:Infectious and parasitic diseases, gas chromatography/mass spectrometry, Agar plate, 03 medical and health sciences, aedes-aegypti, Anopheles, parasitic diseases, Animals, Humans, lcsh:RC109-216, 030304 developmental biology, Volatile Organic Compounds, human sweat, anopheles-gambiae, Research, limburger cheese, biology.organism_classification, volatile organic-compounds, Laboratorium voor Entomologie, Olfactometer, gambiae-sensu-stricto, Odorants, Parasitology, Bacteria

Abstract

Background Host-seeking of the African malaria mosquito, Anopheles gambiae sensu stricto, is guided by human odours. The precise nature of the odours, and the composition of attractive blends of volatiles, remains largely unknown. Skin microbiota plays an important role in the production of human body odours. It is hypothesized that host attractiveness and selection of An. gambiae is affected by the species composition, density, and metabolic activity of the skin microbiota. A study is presented in which the production and constituency of volatile organic compounds (VOCs) by human skin microbiota is examined and the behavioural responses of An. gambiae to VOCs from skin microbiota are investigated. Methods Blood agar plates incubated with skin microbiota from human feet or with a reference strain of Staphylococcus epidermidis were tested for their attractiveness to An. gambiae in olfactometer bioassays and indoor trapping experiments. Entrained air collected from blood agar plates incubated with natural skin microbiota or with S. epidermidis were analysed using GC-MS. A synthetic blend of the compounds identified was tested for its attractiveness to An. gambiae. Behavioural data were analysed by a χ2-test and GLM. GC-MS results were analysed by fitting an exponential regression line to test the effect of the concentration of bacteria. Results More An. gambiae were caught with blood agar plates incubated with skin bacteria than with sterile blood agar plates, with a significant effect of incubation time and dilution of the skin microbiota. When bacteria from the feet of four other volunteers were tested, similar effects were found. Fourteen putative attractants were found in the headspace of the skin bacteria. A synthetic blend of 10 of these was attractive to An. gambiae. Conclusions The discovery that volatiles produced by human skin microorganisms in vitro mediate An. gambiae host-seeking behaviour creates new opportunities for the development of odour-baited trapping systems. Additionally, identification of bacterial volatiles provides a new method to develop synthetic blends, attractive to An. gambiae and possibly other anthropophilic disease vectors.

Published

2009

22. Evaluation of two counterflow traps for testing behaviour-mediating compounds for the malaria vector Anopheles gambiae s.s. under semi-field conditions in Tanzania

Author

Bart G. J. Knols, Renate C. Smallegange, Gerry F. Killeen, Wolfgang H Schmied, and Willem Takken

Subjects

Veterinary medicine, lcsh:Arctic medicine. Tropical medicine, Mosquito Control, lcsh:RC955-962, Anopheles gambiae, 030231 tropical medicine, field-evaluation, western kenya, insect repellents, carbon-dioxide, Tanzania, mm-x traps, 030308 mycology & parasitology, lcsh:Infectious and parasitic diseases, human landing catch, Discriminatory power, 03 medical and health sciences, 0302 clinical medicine, Anopheles gambiae S, light trap, Anopheles, Animals, Humans, lcsh:RC109-216, Laboratory of Entomology, Malaria vector, essential oils, bg-sentinel, 0303 health sciences, biology, Behavior, Animal, Chemotactic Factors, Research, Trap (plumbing), Carbon Dioxide, biology.organism_classification, PE&RC, Laboratorium voor Entomologie, Vector control, 3. Good health, Mosquito control, Infectious Diseases, adult aedes-aegypti, Odorants, Female, Parasitology, Foot (unit), Field conditions

Abstract

Background Evaluation of mosquito responses towards different trap-bait combinations in field trials is a time-consuming process that can be shortened by experiments in contained semi-field systems. Possible use of the BG Sentinel (BGS) trap to sample Anopheles gambiae s.s. was evaluated. The efficiency of this trap was compared with that of the Mosquito Magnet-X (MM-X) trap, when baited with foot odour alone or combinations of foot odour with carbon dioxide (CO2) or lemongrass as behaviour-modifying cues. Methods Female An. gambiae s.s. were released in an experimental flight arena that was placed in a semi-field system and left overnight. Catch rates for the MM-X and BGS traps were recorded. Data were analysed by fitting a generalized linear model to the (n+1) transformed catches. Results Both types of traps successfully captured mosquitoes with all odour cues used. When the BGS trap was tested against the MM-X trap in a choice assay with foot odour as bait, the BGS trap caught about three times as many mosquitoes as the MM-X trap (P = 0.002). Adding CO2 (500 ml/min) to foot odour increased the number of mosquitoes caught by 268% for the MM-X (P < 0.001) and 34% (P = 0.051) for the BGS trap, compared to foot odour alone. When lemongrass leaves were added to foot odour, mosquito catches were reduced by 39% (BGS, P < 0.001) and 38% (MM-X, P = 0.353), respectively. Conclusion The BGS trap shows high potential for field trials due to its simple construction and high catch rate when baited with human foot odour only. However, for rapid screening of different baits in a contained semi-field system, the superior discriminatory power of the MM-X trap is advantageous.

Published

2008

23. Variations in Ixodes ricinus Density and Borrelia Infections Associated with Cattle Introduced into a Woodland in The Netherlands

Author

Renate C. Smallegange, Jeroen Spitzen, Willem Takken, F. Gassner, Patrick Verbaarschot, and Sipke E. van Wieren

Subjects

Woodland, medicine.disease_cause, Applied Microbiology and Biotechnology, Polymerase Chain Reaction, Mice, Grazing, ixodidae, Acari, Laboratory of Entomology, Netherlands, Ecology, biology, transmission, PE&RC, rodents, Borrelia Infections, Ixodidae, Polymorphism, Restriction Fragment Length, infestation, Biotechnology, DNA, Bacterial, Ixodes ricinus, prevalence, Zoology, Animals, Wild, Tick, afzelii, Biointeractions and Plant Health, Borrelia, Infestation, parasitic diseases, medicine, Invertebrate Microbiology, Animals, Population Density, Ixodes, fungi, biology.organism_classification, bacterial infections and mycoses, Laboratorium voor Entomologie, burgdorferi sensu-lato, Tick Infestations, Wildlife Ecology and Conservation, ehrlichia, Cattle, lyme borreliosis, ticks acari, Food Science

Abstract

The effect of introduced large herbivores on the abundance of Ixodes ricinus ticks and their Borrelia infections was studied in a natural woodland in The Netherlands. Oak and pine plots, either ungrazed or grazed by cattle, were selected. Ticks were collected weekly by blanket dragging. Borrelia infections were determined by PCR and restriction fragment length polymorphism. Rodent densities were estimated using mark-release-recapture methods. On occasion, the cattle were inspected for tick infestations. Meteorological data were recorded for each habitat. Significantly more ticks were collected in the ungrazed woodland than in the grazed woodland. The ungrazed oak habitat had higher tick densities than the pine habitat, while in the grazed habitats, tick densities were similar. Borrelia infection rates ranged from zero in larvae to 26% in nymphs to 33% in adult ticks, and B. afzelii , B. burgdorferi sensu stricto, B. garinii , and B. valaisiana were the species involved. Coinfections were found in five ticks. There was no effect of the presence of cattle on Borrelia infections in the ticks. In the ungrazed area, Borrelia infections in nymphs were significantly higher in the oak habitat than in the pine habitat. More mice were captured in the ungrazed area, and these had a significantly higher tick burden than mice from the grazed area. Tick burden on cattle was low. The results suggest that grazing has a negative effect on small rodents as well as on ticks but not on Borrelia infections. Implications of these results for management of woodland reserves and risk of Lyme disease are discussed.

Published

2008

24. Effect of human odours and positioning of CO2 release point on trap catches of the malaria mosquito Anopheles gambiae sensu stricto in an olfactometer

Author

Renate C. Smallegange, Willem Takken, and Jeroen Spitzen

Subjects

Physiology, Release point, Anopheles gambiae, tanzania, Biology, carbon-dioxide, diptera, host-seeking, orientation, Trap (computing), parasitic diseases, Laboratory of Entomology, Ecology, Evolution, Behavior and Systematics, Sensu stricto, Ecology, behavior, fungi, attractiveness, PE&RC, Laboratorium voor Entomologie, biology.organism_classification, culicidae, Plume, Olfactometer, Homogeneous, Insect Science, Kairomone, responses

Abstract

The anthropophilic malaria mosquito Anopheles gambiae sensu stricto responds to CO2 and human skin emanations. How these odorants affect the behaviour of this mosquito species is studied in an olfactometer. Carbon dioxide is released either as an homogeneous plume or in a turbulent fashion at two different positions from the trap entrance. Anopheles gambiae is deterred from entering a trap with CO2 as the only kairomone, when presented as an homogeneous or turbulent plume. This effect is completely overcome by the addition of skin emanations to the CO2 plume, with a high proportion of mosquitoes found in the trap with skin emanations. Rearrangement of the position of the turbulent CO2 source so that it is 5 cm downwind of the trap entrance overcomes the deterrent effect of CO2. Carbon dioxide alone, however, does not elicit higher proportions caught compared with clean air. Further studies with the CO2 source positioned 5 cm downwind of the trap entrance show that skin emanations alone result in fewer mosquitoes entering the trap than CO2+ skin emanations. Skin emanations induce more mosquitoes to fly into a trap than a synthetic blend of NH3+ l-lactic acid when both are combined with CO2. It is concluded that CO2 is a poor kairomone when offered alone and that its presence in the plume at the trap entrance deters mosquitoes from entering. By contrast, when positioned just downwind of the trap entrance, CO2 appears to guide mosquitoes to the vicinity of the trap, where skin emanations then become the principle attractant, causing the mosquito trap entry response. The results of the study have implications for the design of odour-baited traps for this mosquito species

Published

2008

25. Interindividual variation in the attractiveness of human odours to the malaria mosquito Anopheles gambiae s. s

Author

J.J.A. van Loon, Willem Takken, Y.T. Qiu, Renate C. Smallegange, and C.J.F. ter Braak

Subjects

Attractiveness, Male, Age effect, Anopheles gambiae, Zoology, Aedes aegypti, Olfaction, lactic-acid, Wiskundige en Statistische Methoden - Biometris, host-seeking, aedes-aegypti, Anopheles gambiae S, parasitic diseases, Anopheles, medicine, Animals, Humans, Laboratory of Entomology, Mathematical and Statistical Methods - Biometris, Ecology, Evolution, Behavior and Systematics, sensu-stricto diptera, differential attractiveness, human sweat, General Veterinary, biology, Behavior, Animal, Ecology, behavior, biology.organism_classification, medicine.disease, PE&RC, Laboratorium voor Entomologie, culicidae, PRI Biometris, Olfactometer, Insect Science, human skin emanations, Odorants, Parasitology, Female, Malaria, pregnant-women

Abstract

Differences between human individuals in their attractiveness to female mosquitoes have been reported repeatedly, but the underlying mechanisms are not well understood. Skin emanations from 27 human individuals, collected on glass marbles, were tested against ammonia in a dual-choice olfactometer to establish their degrees of attractiveness to anthropophilic Anopheles gambiae s.s. Giles (Diptera: Culicidae) mosquitoes. Ammonia was used as a standard odour source because of its proven attractiveness to An. gambiae s.s. Skin emanations from most volunteers attracted significantly more mosquitoes than ammonia. There were clear differences in the attractiveness of skin emanations from different volunteers relative to that of ammonia, as well as in the strength of the trap entry response. Consistent differences were observed when emanations from the three most and the three least attractive volunteers were tested pairwise. No gender or age effect was found for relative attractiveness or trap entry response. Emanations from volunteers with higher behavioural attractiveness elicited higher electroantennogram response amplitudes in two pairs, but in a third pair a higher electroantennogram response was found for the less attractive volunteer. These results confirm that odour contributes to the differences in attractiveness of humans to mosquitoes.

Published

2006

26. Associative learning of visual and gustatory cues in the large cabbage white butterfly, Pieris brassicae

Author

Renate C. Smallegange, Tjarda C. Everaarts, and Joop J. A. van Loon

Subjects

Papilio xuthus, media_common.quotation_subject, Foraging, papilio-xuthus, Zoology, foraging behavior, Insect, Biology, leaf shape, color preferences, evolution, pipevine swallowtail, Laboratory of Entomology, Ecology, Evolution, Behavior and Systematics, media_common, Pieris brassicae, biology.organism_classification, PE&RC, Laboratorium voor Entomologie, Preference, phytophagous insects, Associative learning, Color preferences, Butterfly, Animal Science and Zoology, helicoverpa-armigera, oviposition, rapae

Abstract

The landing response of the large cabbage white butterfly Pieris brassicae was studied under controlled optical and gustatory stimulus conditions. Experience-based changes in landing behaviour were examined by offering cardboard circles of two different shades of green, treated with either an oviposition stimulant or a deterrent. We employed two training situations. In one situation the two shades of green, carrying either the stimulant or the deterrent, were offered simultaneously, in the other sequentially. During the 1 hour training periods, butterflies were either landing and drumming spontaneously or they were caught at the end of the period and placed on the artificial leaves until tarsal drumming ensued. Our experiments demonstrated that P. brassicae females can learn to associate visually detected substrate characteristics with contact-chemosensory information available only after landing. Furthermore, a learned preference for a substrate could be turned into a preference for the alternative substrate by exposing the insect to a deterrent on the previously preferred substrate. These results provide indications of aversion learning, thus far undocumented in oviposition behaviour of Lepidoptera. Bringing the butterflies into forced contact with the oviposition stimulant resulted in similar effects on landing preference compared to those of spontaneous landing, but spontaneous landing had a stronger effect on preference for associations involving the deterrent. The simultaneous training regime, which supposedly requires a less important role for short-term memory, was more effective in modifying landing preferences.

Published

2006

27. Synergism between ammonia, lactic acid and carboxylic acids as kairomones in the host-seeking behaviour of the malaria mosquito Anopheles gambiae sensu stricto (Diptera: Culicidae)

Author

Willem Takken, Yu Tong Qiu, Renate C. Smallegange, and Joop J. A. van Loon

Subjects

odor, Physiology, Anopheles gambiae, Carboxylic acid, Carboxylic Acids, Aedes aegypti, carbon-dioxide, aedes-aegypti diptera, Pheromones, Host-Parasite Interactions, spectrometry, Behavioral Neuroscience, Ammonia, chemistry.chemical_compound, Physiology (medical), parasitic diseases, Anopheles, Animals, Humans, Lactic Acid, Laboratory of Entomology, olfactory responses, chemistry.chemical_classification, human sweat, Appetitive Behavior, biology, Dose-Response Relationship, Drug, EPS-2, fungi, food and beverages, Drug Synergism, PE&RC, Laboratorium voor Entomologie, biology.organism_classification, Sensory Systems, Lactic acid, Odor, chemistry, Olfactometer, Biochemistry, wind-tunnel, human skin emanations, yellow-fever mosquito, Kairomone, Odorants, identification, Female

Abstract

Host odours play a major role in the orientation and host location of blood-feeding mosquitoes. Anopheles gambiae Giles sensu stricto, which is the most important malaria vector in Africa, is a highly anthropophilic mosquito species, and the host-seeking behaviour of the females of this mosquito is guided by volatiles of human origin. Ammonia, lactic acid and several carboxylic acids are known to be present in the human odour blend. We investigated the effect of these compounds on naive female mosquitoes using a dual-port olfactometer. Ammonia was an attractant on its own, whereas lactic acid was not attractive. Carboxylic acids, offered as a mixture of 12 compounds, were repellent at the concentration tested. The addition of ammonia to the carboxylic acid mixture overruled the repellent effect of the latter. Combining ammonia with either lactic acid or the carboxylic acids did not enhance the attractiveness of ammonia alone. However, a synergistic effect was found when ammonia, lactic acid and the carboxylic acids were applied as a blend. Our findings indicate that An. gambiae s.s. relies on the combination of ammonia, lactic acid and carboxylic acids in its orientation to human hosts. The role of lactic acid in this tripartite synergism differs from that reported for the yellow fever mosquito Aedes aegypti.

Published

2005

28. Behavioural and electrophysiological responses of the malaria mosquito Anopheles gambiae Giles sensu stricto (Diptera: Culicidae) to human emanations

Author

J.J.A. van Loon, S. Hoppe, Renate C. Smallegange, Willem Takken, Y.T. Qiu, and E.-J. Bakker

Subjects

Time Factors, odor, Anopheles gambiae, Zoology, Human skin, olfactometer, Biology, carbon-dioxide, aedes-aegypti diptera, Wiskundige en Statistische Methoden - Biometris, Pheromones, Host-Parasite Interactions, components, l-lactic acid, spectrometry, Anopheles, parasitic diseases, medicine, Animals, Humans, Laboratory of Entomology, Mathematical and Statistical Methods - Biometris, Ecology, Evolution, Behavior and Systematics, Sensu stricto, Skin, human sweat, General Veterinary, Behavior, Animal, Dose-Response Relationship, Drug, Ecology, EPS-2, biology.organism_classification, medicine.disease, PE&RC, Laboratorium voor Entomologie, Attraction, Electrophysiology, Odor, Olfactometer, Insect Science, Kairomone, identification, Parasitology, Malaria, attraction

Abstract

Behavioural and electrophysiological responses of Anopheles gambiae Giles sensu stricto (Diptera: Culicidae) to human skin emanations collected on glass beads were studied using a dual-port olfactometer and electroantannography. Glass beads to which skin emanations from human hands had been transferred elicited a level of attraction similar to a human hand. The attractiveness of these handled glass beads faded away 4 h after transfer onto the beads. Storage at -20 degrees C for up to 8 weeks showed a decreased but still attractive effect of the beads. In a choice test between one individual and four others, the emanations from the reference individual were significantly more attractive in three out of four cases. The headspace of handled glass beads elicited a dose-dependent EAG response. The substances causing EAG activity could be removed partially by dichloromethane, ethanol and pentane-ether. Glass beads provide a suitable neutral substrate for the transfer of human odour to enable chemical analysis of the human skin emanations for identification of kairomones of anthropophilic mosquitoes.

Published

2004

29. Malaria Infected Mosquitoes Express Enhanced Attraction to Human Odor

Author

Robert W. Sauerwein, Willem Takken, Geert-Jan van Gemert, Marga van de Vegte-Bolmer, Renate C. Smallegange, Salvador A. Gezan, and James G. Logan

Subjects

Anopheles gambiae, Plasmodium falciparum, lcsh:Medicine, Context (language use), Microbiology, Mosquitoes, Plasmodium, Poverty-related infectious diseases Infection and autoimmunity [N4i 3], Anopheles, parasitic diseases, Parasitic Diseases, medicine, Animals, Humans, Malaria, Falciparum, Laboratory of Entomology, lcsh:Science, Biology, Evolutionary Biology, Multidisciplinary, Ecology, biology, anopheles-gambiae, Transmission (medicine), lcsh:R, Vectors and Hosts, PE&RC, Laboratorium voor Entomologie, medicine.disease, biology.organism_classification, Virology, Malaria, Insect Vectors, Host-Pathogen Interaction, Smell, Infectious Diseases, Odor, Vector (epidemiology), Odorants, Medicine, lcsh:Q, plasmodium-falciparum, Zoology, vector, Research Article

Abstract

Contains fulltext : 118773.pdf (Publisher’s version ) (Open Access) There is much evidence that some pathogens manipulate the behaviour of their mosquito hosts to enhance pathogen transmission. However, it is unknown whether this phenomenon exists in the interaction of Anopheles gambiae sensu stricto with the malaria parasite, Plasmodium falciparum--one of the most important interactions in the context of humanity, with malaria causing over 200 million human cases and over 770 thousand deaths each year. Here we demonstrate, for the first time, that infection with P. falciparum causes alterations in behavioural responses to host-derived olfactory stimuli in host-seeking female An. gambiae s.s. mosquitoes. In behavioural experiments we showed that P. falciparum-infected An. gambiae mosquitoes were significantly more attracted to human odors than uninfected mosquitoes. Both P. falciparum-infected and uninfected mosquitoes landed significantly more on a substrate emanating human skin odor compared to a clean substrate. However, significantly more infected mosquitoes landed and probed on a substrate emanating human skin odor than uninfected mosquitoes. This is the first demonstration of a change of An. gambiae behaviour in response to olfactory stimuli caused by infection with P. falciparum. The results of our study provide vital information that could be used to provide better predictions of how malaria is transmitted from human being to human being by An. gambiae s.s. females. Additionally, it highlights the urgent need to investigate this interaction further to determine the olfactory mechanisms that underlie the differential behavioural responses. In doing so, new attractive compounds could be identified which could be used to develop improved mosquito traps for surveillance or trapping programmes that may even specifically target P. falciparum-infected An. gambiae s.s. females.

Published

2013

30. Sugar-fermenting yeast as an organic source of carbon dioxide to attract the malaria mosquito Anopheles gambiae

Author

Karel J van Roey, Wolfgang R Mukabana, Wolfgang H. Schmied, Willem Takken, Renate C. Smallegange, Jeroen Spitzen, and Niels O. Verhulst

Subjects

lcsh:Arctic medicine. Tropical medicine, Mosquito Control, lcsh:RC955-962, Anopheles gambiae, western kenya, Aedes aegypti, Biology, mm-x traps, lcsh:Infectious and parasitic diseases, Toxicology, odor plumes, chemistry.chemical_compound, aedes-aegypti, electrophysiological responses, light trap, Yeasts, parasitic diseases, Anopheles, medicine, Animals, Humans, lcsh:RC109-216, Laboratory of Entomology, Sugar, Malaria vector, sensu-stricto diptera, human sweat, Behavior, Animal, Chemotactic Factors, Research, food and beverages, Carbon Dioxide, medicine.disease, biology.organism_classification, PE&RC, Laboratorium voor Entomologie, Yeast, Infectious Diseases, chemistry, human skin emanations, Carbon dioxide, Carbohydrate Metabolism, Fermentation, Parasitology, Female, Malaria, chromatography-mass-spectrometry

Abstract

Background Carbon dioxide (CO2) plays an important role in the host-seeking process of opportunistic, zoophilic and anthropophilic mosquito species and is, therefore, commonly added to mosquito sampling tools. The African malaria vector Anopheles gambiae sensu stricto is attracted to human volatiles augmented by CO2. This study investigated whether CO2, usually supplied from gas cylinders acquired from commercial industry, could be replaced by CO2 derived from fermenting yeast (yeast-produced CO2). Methods Trapping experiments were conducted in the laboratory, semi-field and field, with An. gambiae s.s. as the target species. MM-X traps were baited with volatiles produced by mixtures of yeast, sugar and water, prepared in 1.5, 5 or 25 L bottles. Catches were compared with traps baited with industrial CO2. The additional effect of human odours was also examined. In the laboratory and semi-field facility dual-choice experiments were conducted. The effect of traps baited with yeast-produced CO2 on the number of mosquitoes entering an African house was studied in the MalariaSphere. Carbon dioxide baited traps, placed outside human dwellings, were also tested in an African village setting. The laboratory and semi-field data were analysed by a χ2-test, the field data by GLM. In addition, CO2 concentrations produced by yeast-sugar solutions were measured over time. Results Traps baited with yeast-produced CO2 caught significantly more mosquitoes than unbaited traps (up to 34 h post mixing the ingredients) and also significantly more than traps baited with industrial CO2, both in the laboratory and semi-field. Adding yeast-produced CO2 to traps baited with human odour significantly increased trap catches. In the MalariaSphere, outdoor traps baited with yeast-produced or industrial CO2 + human odour reduced house entry of mosquitoes with a human host sleeping under a bed net indoors. Anopheles gambiae s.s. was not caught during the field trials. However, traps baited with yeast-produced CO2 caught similar numbers of Anopheles arabiensis as traps baited with industrial CO2. Addition of human odour increased trap catches. Conclusions Yeast-produced CO2 can effectively replace industrial CO2 for sampling of An. gambiae s.s.. This will significantly reduce costs and allow sustainable mass-application of odour-baited devices for mosquito sampling in remote areas.

Published

2010

31. Evaluation of low density polyethylene and nylon for delivery of synthetic mosquito attractants

Author

Benedict Orindi, Philemon Omusula, Joop J. A. van Loon, Renate C. Smallegange, Willem Takken, Wolfgang R Mukabana, and Collins K. Mweresa

Subjects

Mosquito Control, Time Factors, odor, Anopheles gambiae, carbon-dioxide, vector anopheles-gambiae, Attractant, lcsh:Infectious and parasitic diseases, Toxicology, Mosquito, Anopheles, parasitic diseases, Animals, lcsh:RC109-216, Laboratory of Entomology, sensu-stricto diptera, semifield conditions, Chemotactic Factors, biology, behavior, Research, biology.organism_classification, PE&RC, culicidae, Laboratorium voor Entomologie, Kenya, Nylons, Low-density polyethylene, human skin microbiota, volatiles, Infectious Diseases, Odour release system, Polyethylene, Trapping, Parasitology, Post treatment, traps, Field conditions

Abstract

Background Synthetic odour baits present an unexploited potential for sampling, surveillance and control of malaria and other mosquito vectors. However, application of such baits is impeded by the unavailability of robust odour delivery devices that perform reliably under field conditions. In the present study the suitability of low density polyethylene (LDPE) and nylon strips for dispensing synthetic attractants of host-seeking Anopheles gambiae mosquitoes was evaluated. Methods Baseline experiments assessed the numbers of An. gambiae mosquitoes caught in response to low density polyethylene (LDPE) sachets filled with attractants, attractant-treated nylon strips, control LDPE sachets, and control nylon strips placed in separate MM-X traps. Residual attraction of An. gambiae to attractant-treated nylon strips was determined subsequently. The effects of sheet thickness and surface area on numbers of mosquitoes caught in MM-X traps containing the synthetic kairomone blend dispensed from LDPE sachets and nylon strips were also evaluated. Various treatments were tested through randomized 4 × 4 Latin Square experimental designs under semi-field conditions in western Kenya. Results Attractant-treated nylon strips collected 5.6 times more An. gambiae mosquitoes than LDPE sachets filled with the same attractants. The attractant-impregnated nylon strips were consistently more attractive (76.95%; n = 9,120) than sachets containing the same attractants (18.59%; n = 2,203), control nylon strips (2.17%; n = 257) and control LDPE sachets (2.29%; n = 271) up to 40 days post-treatment (P Conclusion Nylon strips continuously dispense synthetic mosquito attractants several weeks post treatment. This, added to the superior performance of nylon strips relative to LDPE material in dispensing synthetic mosquito attractants, opens up the opportunity for showcasing the effectiveness of odour-baited devices for sampling, surveillance and control of disease vectors.

32. Improvement of a synthetic lure for Anopheles gambiae using compounds produced by human skin microbiota

Author

Wolfgang R Mukabana, Joop J. A. van Loon, Phoebe A Mbadi, Gabriella Bukovinszkiné Kiss, Niels O. Verhulst, Willem Takken, and Renate C. Smallegange

Subjects

malaria mosquito, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, Anopheles gambiae, Aedes aegypti, Biology, lactic-acid, carbon-dioxide, Myristic Acid, mm-x traps, Pheromones, lcsh:Infectious and parasitic diseases, chemistry.chemical_compound, aedes-aegypti, Pentanols, electrophysiological responses, Ammonia, Botany, Anopheles, parasitic diseases, Bioassay, Animals, Humans, lcsh:RC109-216, Food science, Lactic Acid, Laboratory of Entomology, sensu-stricto diptera, Skin, Volatile Organic Compounds, Bacteria, Behavior, Animal, Research, Phenylethyl Alcohol, biology.organism_classification, PE&RC, culicidae, Laboratorium voor Entomologie, Lactic acid, Infectious Diseases, Olfactometer, chemistry, Sex pheromone, yellow-fever mosquito, Fermentation, Parasitology, host-odor

Abstract

Background Anopheles gambiae sensu stricto is considered to be highly anthropophilic and volatiles of human origin provide essential cues during its host-seeking behaviour. A synthetic blend of three human-derived volatiles, ammonia, lactic acid and tetradecanoic acid, attracts A. gambiae. In addition, volatiles produced by human skin bacteria are attractive to this mosquito species. The purpose of the current study was to test the effect of ten compounds present in the headspace of human bacteria on the host-seeking process of A. gambiae. The effect of each of the ten compounds on the attractiveness of a basic blend of ammonia, lactic and tetradecanoic acid to A. gambiae was examined. Methods The host-seeking response of A. gambiae was evaluated in a laboratory set-up using a dual-port olfactometer and in a semi-field facility in Kenya using MM-X traps. Odorants were released from LDPE sachets and placed inside the olfactometer as well as in the MM-X traps. Carbon dioxide was added in the semi-field experiments, provided from pressurized cylinders or fermenting yeast. Results The olfactometer and semi-field set-up allowed for high-throughput testing of the compounds in blends and in multiple concentrations. Compounds with an attractive or inhibitory effect were identified in both bioassays. 3-Methyl-1-butanol was the best attractant in both set-ups and increased the attractiveness of the basic blend up to three times. 2-Phenylethanol reduced the attractiveness of the basic blend in both bioassays by more than 50%. Conclusions Identification of volatiles released by human skin bacteria led to the discovery of compounds that have an impact on the host-seeking behaviour of A. gambiae. 3-Methyl-1-butanol may be used to increase mosquito trap catches, whereas 2-phenylethanol has potential as a spatial repellent. These two compounds could be applied in push-pull strategies to reduce mosquito numbers in malaria endemic areas.