SOUTHWESTERN ENTOMOLOGIST, ISSN 0147-1724, 09/2017, Volume 42, Issue 3, pp. 795 - 803
Peridomestic water containers such as livestock water troughs are considered important reservoirs of mosquito larvae. This study identified environmental...
DIPTERA-CULICIDAE | STEGOMYIA AEGYPTI | ENTOMOLOGY | VECTOR | CLIMATE
DIPTERA-CULICIDAE | STEGOMYIA AEGYPTI | ENTOMOLOGY | VECTOR | CLIMATE
Journal Article
Infection, Genetics and Evolution, ISSN 1567-1348, 01/2019, Volume 67, pp. 191 - 209
is the primary transmitter of the four viruses that have had the greatest impact on human health, the viruses causing yellow fever, dengue fever, chikungunya,...
STEGOMYIA-AEGYPTI | ORAL INFECTION | COMPARATIVE SUSCEPTIBILITY | GENETIC-STRUCTURE | INFECTIOUS DISEASES | YELLOW-FEVER VIRUS | CULEX-QUINQUEFASCIATUS | MOSQUITOS DIPTERA | DIPTERA-CULICIDAE | CHIKUNGUNYA VIRUS | DENGUE VIRUS
STEGOMYIA-AEGYPTI | ORAL INFECTION | COMPARATIVE SUSCEPTIBILITY | GENETIC-STRUCTURE | INFECTIOUS DISEASES | YELLOW-FEVER VIRUS | CULEX-QUINQUEFASCIATUS | MOSQUITOS DIPTERA | DIPTERA-CULICIDAE | CHIKUNGUNYA VIRUS | DENGUE VIRUS
Journal Article
The American journal of tropical medicine and hygiene, ISSN 0002-9637, 02/2019, Volume 100, Issue 2, pp. 434 - 437
The mosquito Aedes (Stegomyia) aegypti (L.) is the primary vector of dengue, chikungunya, and Zika viruses in the United States. Surveillance for adult Ae....
STEGOMYIA-AEGYPTI | UNITED-STATES | TRANSMISSION | IMPACT | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | DIPTERA | VIRUS | TEMPERATURE | ALBOPICTUS | TROPICAL MEDICINE
STEGOMYIA-AEGYPTI | UNITED-STATES | TRANSMISSION | IMPACT | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | DIPTERA | VIRUS | TEMPERATURE | ALBOPICTUS | TROPICAL MEDICINE
Journal Article
Ecological Modelling, ISSN 0304-3800, 10/2018, Volume 385, pp. 96 - 105
is the main vector of multiple diseases, such as dengue, Zika, and chikungunya. Due to modifications in weather patterns, its geographical range is...
Mosquito abundance | Rainfall | Mathematical modeling | Aedes | Taiwan | SURVIVAL | STEGOMYIA AEGYPTI | TRENDS | VECTOR | DENGUE | TEMPERATURE | ALBOPICTUS DIPTERA | ECOLOGY | CULICIDAE LARVAE | ZIKA VIRUS | CLIMATE
Mosquito abundance | Rainfall | Mathematical modeling | Aedes | Taiwan | SURVIVAL | STEGOMYIA AEGYPTI | TRENDS | VECTOR | DENGUE | TEMPERATURE | ALBOPICTUS DIPTERA | ECOLOGY | CULICIDAE LARVAE | ZIKA VIRUS | CLIMATE
Journal Article
American Journal of Tropical Medicine and Hygiene, ISSN 0002-9637, 01/2016, Volume 94, Issue 1, pp. 231 - 235
Aedes aegypti is an invasive, highly anthropophilic mosquito and a major vector for dengue and chikungunya. Population persistence in the continental United...
PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | PHYLOGEOGRAPHY | GENETICS | MOSQUITO | STEGOMYIA AEGYPTI | TROPICAL MEDICINE | VECTOR | Aedes - physiology | District of Columbia | Animals | Time Factors | Genotype | Animal Distribution | Phylogeny | Seasons | Aedes - genetics | Microsatellite Repeats - genetics
PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | PHYLOGEOGRAPHY | GENETICS | MOSQUITO | STEGOMYIA AEGYPTI | TROPICAL MEDICINE | VECTOR | Aedes - physiology | District of Columbia | Animals | Time Factors | Genotype | Animal Distribution | Phylogeny | Seasons | Aedes - genetics | Microsatellite Repeats - genetics
Journal Article
JOURNAL OF MEDICAL ENTOMOLOGY, ISSN 0022-2585, 11/2019, Volume 56, Issue 6, pp. 1745 - 1749
Mosquito-borne diseases are on the rise globally, and have the potential to thrive along the Gulf Coast of the United States, where subtropical conditions may...
ENCEPHALITIS-VIRUS | REPORTED DISTRIBUTION | COMPETENCE | Alabama | STEGOMYIA AEGYPTI | ENTOMOLOGY | EXPERIMENTAL TRANSMISSION | BREEDING MOSQUITOS | mosquito | arbovirus | DENGUE | INVASION | CHIKUNGUNYA | J. JAPONICUS | VETERINARY SCIENCES | surveillance
ENCEPHALITIS-VIRUS | REPORTED DISTRIBUTION | COMPETENCE | Alabama | STEGOMYIA AEGYPTI | ENTOMOLOGY | EXPERIMENTAL TRANSMISSION | BREEDING MOSQUITOS | mosquito | arbovirus | DENGUE | INVASION | CHIKUNGUNYA | J. JAPONICUS | VETERINARY SCIENCES | surveillance
Journal Article
JOURNAL OF MEDICAL ENTOMOLOGY, ISSN 0022-2585, 11/2019, Volume 56, Issue 6, pp. 1715 - 1725
Resistance status of Aedes albopictus (Diptera: Culicidae) collected from Sabah, East Malaysia, was evaluated against four major classes of adulticides, namely...
organophosphate | Borneo | MOSQUITOS | INSECTICIDE RESISTANCE | CULEX-QUINQUEFASCIATUS | carbamate | organochlorine | STEGOMYIA AEGYPTI | ENTOMOLOGY | SUSCEPTIBILITY STATUS | DDT | MUTATION | DENGUE VECTOR SURVEILLANCE | VETERINARY SCIENCES | RESIDENTIAL AREAS | pyrethroid
organophosphate | Borneo | MOSQUITOS | INSECTICIDE RESISTANCE | CULEX-QUINQUEFASCIATUS | carbamate | organochlorine | STEGOMYIA AEGYPTI | ENTOMOLOGY | SUSCEPTIBILITY STATUS | DDT | MUTATION | DENGUE VECTOR SURVEILLANCE | VETERINARY SCIENCES | RESIDENTIAL AREAS | pyrethroid
Journal Article
JOURNAL OF MEDICAL ENTOMOLOGY, ISSN 0022-2585, 09/2019, Volume 56, Issue 5, pp. 1395 - 1403
Vector-borne diseases in the United States have recently increased as a result of the changing nature of vectors, hosts, reservoirs, pathogens, and the...
UNITED-STATES | EFFICACY | Oklahoma | WEST-NILE-VIRUS | Great Plains | ENTOMOLOGY | mosquito | VECTOR | RECORDS | TRANSMISSION | ALBOPICTUS DIPTERA-CULICIDAE | DISEASE | VETERINARY SCIENCES | surveillance | AEDES STEGOMYIA AEGYPTI
UNITED-STATES | EFFICACY | Oklahoma | WEST-NILE-VIRUS | Great Plains | ENTOMOLOGY | mosquito | VECTOR | RECORDS | TRANSMISSION | ALBOPICTUS DIPTERA-CULICIDAE | DISEASE | VETERINARY SCIENCES | surveillance | AEDES STEGOMYIA AEGYPTI
Journal Article
Journal of Medical Entomology, ISSN 0022-2585, 05/2019, Volume 56, Issue 3, pp. 737 - 743
In temperate regions, the populations of Aedes aegypti (L.) remain in the egg stage during the cold season. The ability of these eggs to survive until the next...
Arthropods | Winter season | Predation | Mosquito eggs | MORTALITY | SURVIVAL | arthropods | winter season | BEHAVIOR | BUENOS-AIRES CITY | predation | FORMICIDAE | BREEDING SITES | STEGOMYIA AEGYPTI | ENTOMOLOGY | IMPACT | ALBOPICTUS DIPTERA | mosquito eggs | VETERINARY SCIENCES | SOLENOPSIS-INVICTA HYMENOPTERA
Arthropods | Winter season | Predation | Mosquito eggs | MORTALITY | SURVIVAL | arthropods | winter season | BEHAVIOR | BUENOS-AIRES CITY | predation | FORMICIDAE | BREEDING SITES | STEGOMYIA AEGYPTI | ENTOMOLOGY | IMPACT | ALBOPICTUS DIPTERA | mosquito eggs | VETERINARY SCIENCES | SOLENOPSIS-INVICTA HYMENOPTERA
Journal Article
Journal of Medical Entomology, ISSN 0022-2585, 01/2019, Volume 56, Issue 1, pp. 291 - 296
Abstract The 2015–2016 epidemic of Zika virus in the Americas raised concerns about the range of Aedes albopictus (Skuse) in the United States. In response,...
ovitrap | INVASION | TIRES | VETERINARY SCIENCES | first record | INTRODUCED MOSQUITO | STEGOMYIA AEGYPTI | ENTOMOLOGY | Asian tiger mosquito | LARVAL | TIGER
ovitrap | INVASION | TIRES | VETERINARY SCIENCES | first record | INTRODUCED MOSQUITO | STEGOMYIA AEGYPTI | ENTOMOLOGY | Asian tiger mosquito | LARVAL | TIGER
Journal Article
PLoS Biology, ISSN 1544-9173, 05/2017, Volume 15, Issue 5, p. e2001894
Dengue-suppressing Wolbachia strains are promising tools for arbovirus control, particularly as they have the potential to self-spread following local...
STEGOMYIA-AEGYPTI | DISPERSAL | MARK-RELEASE-RECAPTURE | DISEASE-CONTROL | AUSTRALIA | YELLOW-FEVER MOSQUITO | WMEL WOLBACHIA | BIOCHEMISTRY & MOLECULAR BIOLOGY | BIOLOGY | RIO-DE-JANEIRO | DYNAMICS | DAILY SURVIVAL RATES | Wolbachia - isolation & purification | Humans | Infection Control | Colony Collapse - microbiology | Male | Wolbachia - physiology | Parks, Recreational | Aedes - virology | Wolbachia - growth & development | Female | Spatio-Temporal Analysis | Colony Collapse - virology | Aedes - physiology | Global Health | Dengue - virology | Health Transition | Aedes - microbiology | Dengue - prevention & control | Dengue Virus - growth & development | Biological Control Agents - isolation & purification | Animals | Models, Biological | Computer Heuristics | Urbanization | Dengue - transmission | Dengue Virus - physiology | Dengue Virus - isolation & purification | Disease Vectors | Aedes - growth & development | Queensland | Vector-borne diseases | Retarding | Medical research | Transformation | Funding | Dengue | Spatial discrimination | Spatial analysis | Roles | Aquatic insects | Disease control | Vectors (Biology) | Interpolation | Heterogeneity | Population (statistical) | Mosquitoes | Wolbachia | Urban populations | Data collection | Population | Software | Mathematical models | Supervision | Fitness
STEGOMYIA-AEGYPTI | DISPERSAL | MARK-RELEASE-RECAPTURE | DISEASE-CONTROL | AUSTRALIA | YELLOW-FEVER MOSQUITO | WMEL WOLBACHIA | BIOCHEMISTRY & MOLECULAR BIOLOGY | BIOLOGY | RIO-DE-JANEIRO | DYNAMICS | DAILY SURVIVAL RATES | Wolbachia - isolation & purification | Humans | Infection Control | Colony Collapse - microbiology | Male | Wolbachia - physiology | Parks, Recreational | Aedes - virology | Wolbachia - growth & development | Female | Spatio-Temporal Analysis | Colony Collapse - virology | Aedes - physiology | Global Health | Dengue - virology | Health Transition | Aedes - microbiology | Dengue - prevention & control | Dengue Virus - growth & development | Biological Control Agents - isolation & purification | Animals | Models, Biological | Computer Heuristics | Urbanization | Dengue - transmission | Dengue Virus - physiology | Dengue Virus - isolation & purification | Disease Vectors | Aedes - growth & development | Queensland | Vector-borne diseases | Retarding | Medical research | Transformation | Funding | Dengue | Spatial discrimination | Spatial analysis | Roles | Aquatic insects | Disease control | Vectors (Biology) | Interpolation | Heterogeneity | Population (statistical) | Mosquitoes | Wolbachia | Urban populations | Data collection | Population | Software | Mathematical models | Supervision | Fitness
Journal Article
PLoS Neglected Tropical Diseases, ISSN 1935-2727, 03/2015, Volume 9, Issue 3, p. e0003545
Background The presence of the recently introduced primary dengue virus vector mosquito Aedes aegypti in Nepal, in association with the likely indigenous...
COUNT DATA | GEOGRAPHIC-DISTRIBUTION | TRANSMISSION | VIRUS | HEMORRHAGIC-FEVER | MOSQUITO-BORNE DISEASE | SINGAPORE-CITY | TEMPERATURE TRENDS | STEGOMYIA AEGYPTI | PARASITOLOGY | TROPICAL MEDICINE | LYMPHATIC FILARIASIS | Aedes - virology | Animals | Demography | Climate Change | Cross-Sectional Studies | Humans | Risk Factors | Dengue - transmission | Insect Vectors - virology | Nepal | Chikungunya Fever - transmission | Aedes albopictus | Chikungunya fever | Dengue | Risk factors | Distribution | Confidence intervals | Medical research | Mosquitoes | Disease | Urban areas | Dengue fever | Data collection | Sea level | Tropical diseases
COUNT DATA | GEOGRAPHIC-DISTRIBUTION | TRANSMISSION | VIRUS | HEMORRHAGIC-FEVER | MOSQUITO-BORNE DISEASE | SINGAPORE-CITY | TEMPERATURE TRENDS | STEGOMYIA AEGYPTI | PARASITOLOGY | TROPICAL MEDICINE | LYMPHATIC FILARIASIS | Aedes - virology | Animals | Demography | Climate Change | Cross-Sectional Studies | Humans | Risk Factors | Dengue - transmission | Insect Vectors - virology | Nepal | Chikungunya Fever - transmission | Aedes albopictus | Chikungunya fever | Dengue | Risk factors | Distribution | Confidence intervals | Medical research | Mosquitoes | Disease | Urban areas | Dengue fever | Data collection | Sea level | Tropical diseases
Journal Article
Climatic Change, ISSN 0165-0009, 2/2018, Volume 146, Issue 3, pp. 487 - 500
The mosquito Aedes (Ae). aegypti transmits the viruses that cause dengue, chikungunya, Zika and yellow fever. We investigate how choosing alternate emissions...
Earth Sciences | Climate Change/Climate Change Impacts | Atmospheric Sciences | SYSTEM | ENVIRONMENTAL SCIENCES | CHIKUNGUNYA | DIPTERA | TEMPERATURE | MODELS | COMPETITION | DENGUE-FEVER | CULICIDAE | METEOROLOGY & ATMOSPHERIC SCIENCES | GLOBAL DISTRIBUTION | STEGOMYIA AEGYPTI | Vector-borne diseases | Control | Environmental aspects | Climatic changes | Air quality management | Health aspects | Methods | Human diseases | Population growth | Human exposure | Socio-economic aspects | Viral diseases | Rainfall | Viruses | Exposure | Aquatic insects | Socioeconomics | Fever | Emissions | Earth | Climate change | Precipitation | Mosquitoes | Pathways | Air temperature | Population changes | Population dynamics | Public health | Yellow fever | Aedes aegypti | BRACE | dengue | chikungunya
Earth Sciences | Climate Change/Climate Change Impacts | Atmospheric Sciences | SYSTEM | ENVIRONMENTAL SCIENCES | CHIKUNGUNYA | DIPTERA | TEMPERATURE | MODELS | COMPETITION | DENGUE-FEVER | CULICIDAE | METEOROLOGY & ATMOSPHERIC SCIENCES | GLOBAL DISTRIBUTION | STEGOMYIA AEGYPTI | Vector-borne diseases | Control | Environmental aspects | Climatic changes | Air quality management | Health aspects | Methods | Human diseases | Population growth | Human exposure | Socio-economic aspects | Viral diseases | Rainfall | Viruses | Exposure | Aquatic insects | Socioeconomics | Fever | Emissions | Earth | Climate change | Precipitation | Mosquitoes | Pathways | Air temperature | Population changes | Population dynamics | Public health | Yellow fever | Aedes aegypti | BRACE | dengue | chikungunya
Journal Article
Medical and Veterinary Entomology, ISSN 0269-283X, 2014, Volume 28, Issue 4, pp. 407 - 413
Mosquito repellents are used around the globe to protect against nuisance biting and disease-transmitting mosquitoes. Recently, there has been renewed interest...
culicidae | identification | anopheles-gambiae | behavioral-response | human skin | diptera | aedes | carbon-dioxide | odor | malaria mosquito | bioassay | behaviour | repellent | Anopheles gambiae | Aedes aegypti (Stegomyia aegypti) | semiochemical | Repellent | Bioassay | Behaviour | Semiochemical | DIPTERA | HUMAN SKIN | MALARIA MOSQUITO | ANOPHELES-GAMBIAE | IDENTIFICATION | BEHAVIORAL-RESPONSE | ENTOMOLOGY | CULICIDAE | VETERINARY SCIENCES | AEDES | ODOR | CARBON-DIOXIDE | Aedes - drug effects | Animals | Anopheles - drug effects | Humans | Insect Repellents - pharmacology | Odorants | Malaria | Analysis | Lactones | Pest control | Mosquitoes | Disease control | Tropical diseases
culicidae | identification | anopheles-gambiae | behavioral-response | human skin | diptera | aedes | carbon-dioxide | odor | malaria mosquito | bioassay | behaviour | repellent | Anopheles gambiae | Aedes aegypti (Stegomyia aegypti) | semiochemical | Repellent | Bioassay | Behaviour | Semiochemical | DIPTERA | HUMAN SKIN | MALARIA MOSQUITO | ANOPHELES-GAMBIAE | IDENTIFICATION | BEHAVIORAL-RESPONSE | ENTOMOLOGY | CULICIDAE | VETERINARY SCIENCES | AEDES | ODOR | CARBON-DIOXIDE | Aedes - drug effects | Animals | Anopheles - drug effects | Humans | Insect Repellents - pharmacology | Odorants | Malaria | Analysis | Lactones | Pest control | Mosquitoes | Disease control | Tropical diseases
Journal Article