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Papers
61,005 resultsShowing papers similar to Chemical Ecology and Management of Dengue Vectors
ClearFemale mosquito-a potential vector for transporting plastic residues to humans
Researchers found that mosquito larvae accumulate microplastics from sewage environments and retain them through metamorphosis into adult females, suggesting that mosquitoes could serve as vectors for transporting plastic residues to humans through biting.
Chemical cues for intraspecific chemical communication and interspecific interactions in aquatic environments: applications for fisheries and aquaculture
This review explores how aquatic organisms use chemical cues for communication, mating, feeding, and danger detection, and how this knowledge applies to aquaculture and fisheries. Researchers noted that global environmental changes, including ocean acidification and increasing plastic pollution, can disrupt these chemosensory behaviors. The study discusses practical applications such as using pheromones to improve breeding success and developing low-cost attractants for sustainable fishing.
Ontogenetic Transfer of Microplastics in Bloodsucking Mosquitoes Aedes aegypti L. (Diptera: Culicidae) Is a Potential Pathway for Particle Distribution in the Environment
Researchers demonstrated that Aedes aegypti mosquitoes can transfer microplastics across life stages from larvae through pupae to flying adults, identifying bloodsucking mosquitoes as a potential pathway for distributing plastic particles through the environment.
A perspective on the impacts of microplastics on mosquito biology and their vectorial capacity
This perspective paper explored how microplastic pollution in aquatic environments could affect mosquito biology and their ability to transmit diseases. Researchers suggest that microplastics in the water where mosquito larvae develop could influence their growth, survival, and potentially their capacity to carry pathogens, representing an understudied intersection between plastic pollution and public health.
Analyses of Lymantria dispar Mate-Finding Behavior in Support of Management in the STS Program
Not relevant to microplastics — this paper reviews pheromone-based mating disruption strategies for managing spongy moth (Lymantria dispar) populations as part of a US forest pest control programme.
Microplastics on the menu; exploring interactions between two mosquitoes species and microplastics
Researchers exposed larvae of two mosquito species with contrasting feeding ecologies (Anopheles gambiae and Aedes albopictus) to varying concentrations, sizes, and densities of polystyrene and polyethylene microplastics, finding that ingestion risk was primarily determined by particle size rather than larval ecology, and that microplastics affected survival only in An. gambiae adults at the highest concentration, with no physical or chemical alteration of microplastics detected post-digestion.
Microplastics affect mosquito from aquatic to terrestrial lifestyles and are transferred to mammals through mosquito bites
In a striking finding, researchers showed that mosquitoes exposed to microplastics as larvae carried the particles throughout their entire life cycle, and when those adult mosquitoes bit mice, fluorescent microplastic signals were detected in the animals' blood and skin. The microplastics also reduced the effectiveness of insecticides against the mosquitoes and altered their gut bacteria. This study reveals a previously unknown pathway for microplastics to enter mammals, including potentially humans, through mosquito bites.
Ontogenetic transfer of microplastics and nanoplastics in mosquitoes: a scoping review of environmental and health implications
This scoping review examines the role of mosquitoes as vectors for transferring microplastics and nanoplastics from aquatic to terrestrial ecosystems through their life cycle. Researchers found evidence that mosquito larvae ingest micro- and nanoplastics in water, which are retained through metamorphosis and carried into terrestrial environments by adult mosquitoes. The study highlights an underappreciated pathway for microplastic dispersal and raises questions about potential implications for organisms that feed on mosquitoes.
Tracking micro- and nanoplastics in Aedes albopictus: From ingestion to metabolic disruption
Researchers tracked the fate of polystyrene micro- and nanoplastics in the Asian tiger mosquito Aedes albopictus from larval ingestion through adult development. They found that ingested particles crossed the gut barrier, persisted in tissues, and were retained through metamorphosis, while causing reduced body weight and significant metabolic disruptions. The study suggests that plastic pollution may affect mosquito biology through endocrine disruption and altered energy metabolism pathways.
Microplastic pollution differentially affects development of disease-vectoring Aedes and Culex mosquitoes
Researchers tested how polyethylene microplastics affect the development and survival of two disease-carrying mosquito species, Aedes albopictus and Culex quinquefasciatus. They found that microplastic exposure had different effects on each species, with Culex showing increased development time while Aedes was relatively unaffected. The study suggests that microplastic pollution in aquatic habitats may alter mosquito population dynamics, with potential implications for disease transmission.
Microplastic ingestion perturbs the microbiome of Aedes albopictus (Diptera: Culicidae) and Aedes aegypti
Researchers fed mosquito larvae polystyrene microplastics and found the particles accumulated in their guts, caused physical damage, and disrupted both bacterial and fungal communities in their bodies. The microplastics persisted through the larval stage into adulthood and were shed in adult feces. While focused on mosquitoes, this study shows how microplastics can alter the microbiome of insects that interact closely with humans and spread disease.
Characterization of microplastics found in mosquito oviposition habitats
Researchers found microplastics in 36 potential mosquito breeding sites in Texas, with higher concentrations in artificial containers and tires than in natural water bodies. Fragments and fibers were the most common forms, and scanning electron microscopy revealed microbial biofilms forming on the plastic surfaces. This study raises a novel concern: microplastic pollution in standing water may interact with mosquito biology and breeding, potentially affecting disease transmission dynamics.
Stimulation of insect vectors of pathogens by sublethal environmental contaminants: A hidden threat to human and environmental health?
Researchers reviewed evidence showing that sublethal doses of environmental contaminants, including microplastics and pesticides, can stimulate rather than inhibit insect disease vectors such as mosquitoes and agricultural pests. The study suggests these hormetic responses could enhance pathogen transmission and disease spread, representing an underappreciated threat to public health and food security that warrants further investigation.
Effects of microplastics on the physiology of living organisms on the example of laboratory reared bloodsucking mosquitoes Aedes aegypti L.
Researchers studied the effects of three types of microplastics on mosquito larvae and found that even at low concentrations, the particles suppressed immune responses and reduced the activity of protective enzymes. While survival rates were unaffected, the microplastics disrupted key biological processes including defensive enzyme function and immune response. The study suggests that microplastic exposure could make disease-carrying mosquitoes more vulnerable to other stressors, with unpredictable ecological consequences.
Can microplastic contamination affect the wing morphology and wingbeat frequency of Aedes aegypti (Diptera: Culicidae) mosquitoes?
Researchers tested whether polyethylene microplastic exposure during larval development affects wing morphology and wingbeat frequency in Aedes aegypti mosquitoes, a species relevant to disease transmission. They found that while larval survival was unaffected, female mosquitoes reared in microplastic-contaminated water had smaller wings, and male mosquitoes showed altered wingbeat frequency and wing morphology. The study suggests that microplastic pollution could have sex-specific effects on mosquito traits related to their capacity as disease vectors.
The effects of nano– and microplastic ingestion on the survivorship and reproduction of Aedes aegypti (L.) and Aedes albopictus (Skuse)
This study investigated whether ingesting micro- and nanoplastics affects the survival and reproduction of two disease-carrying mosquito species, Aedes aegypti and Aedes albopictus. Nanoplastics at the smallest tested size (0.03 µm) reduced pupal survival and egg production in Ae. aegypti, while larger microplastics had limited effects on survivorship. The results raise concerns that widespread microplastic and nanoplastic contamination in aquatic breeding habitats could affect mosquito population dynamics, with potential implications for vector-borne disease transmission.
Microplastic ingestion perturbs the microbiome of Aedes albopictus and Aedes aegypti
Researchers exposed Aedes aegypti and Aedes albopictus mosquito larvae to polystyrene microplastics and found that ingestion altered adult emergence rates, caused gut tissue damage, and disrupted the gut microbiome, demonstrating that microplastic contamination can impair mosquito development.
The influence of microplastics on trophic interaction strengths and oviposition preferences of dipterans
Microplastic pollution in freshwater environments was found to alter predator-prey interactions and oviposition site preferences in aquatic dipteran insects, with implications for food web structure. The study highlights that microplastics can have indirect ecological effects by interfering with animal behavior and species interactions beyond direct toxicity.
Review: Synergistic effects of environmental pollutants: Multiple stressors driving the transmission of vector-borne diseases and the vicious cycle
This review examines how multiple environmental pollutants, including microplastics, heavy metals, and pesticides, work together to increase the transmission risk of mosquito-borne diseases. Researchers found that microplastics can act as "Trojan horses" carrying other contaminants, amplifying ecological and health risks through combined exposure. The study proposes multi-level intervention strategies that integrate source control, process interruption, and ecological restoration.
Interactions between microplastics and Culex sp. larvae in wastewater
Researchers studied the interaction between microplastics and mosquito larvae in Egyptian wastewater treatment plants, finding that the larvae actively ingest plastic particles. They documented seasonal variation in microplastic abundance at the treatment facilities and showed that contaminated larvae could transfer plastics to adult mosquitoes. The study highlights an overlooked pathway by which microplastics in wastewater can spread into terrestrial ecosystems through flying insects.
No Effect of Realistic Microplastic Exposure on Growth and Development of Wild-caught Culex (Diptera: Culicidae) Mosquitoes
Researchers exposed wild-caught Culex mosquito larvae to polystyrene microplastics at environmentally realistic concentrations. The study found no significant effects on body size, development time, or growth rate in either species tested, suggesting that microplastic levels typically found in nature may have minimal impact on these fitness-related traits in mosquitoes.
Ontogenetic transfer of microplastics in natural populations of malaria mosquitoes in Western Siberia
Researchers studied how malaria-carrying mosquitoes in Western Siberia take up microplastics during their aquatic larval stage and carry them through metamorphosis into adulthood. Larvae accumulated millions of polystyrene particles within days, but the number dropped dramatically during each life stage transition, with only a few particles remaining in adult mosquitoes. The study confirms that flying insects can transfer waterborne microplastic pollution into terrestrial environments.
Interactions between microplastics and insects in terrestrial ecosystems—A systematic review and meta-analysis
This meta-analysis with phylogenetic control found that microplastic exposure impairs key biological traits of insects, primarily behavior and reproduction, with effects varying by polymer type and particle size. Field evidence confirmed that insects ingest and transfer microplastics along food chains, and also contribute to bio-fragmentation of larger plastic debris into smaller particles.
Accumulation of microplastics and anthropogenic fibers in natural populations of blood-sucking mosquitoes of the genus Aedes in the environs of Tomsk (Western Siberia, Russia)
Researchers monitored microplastic accumulation in blood-sucking mosquitoes of the genus Aedes across multiple habitats near Tomsk, Russia, over three years. They found microplastics present at all life stages, with quantities varying by habitat type and year. The study demonstrates that mosquitoes can serve as both bioaccumulators and vectors for microplastic transfer through food webs.