Not all mosquitoes are created equal: A synthesis of vector competence experiments reinforces virus associations of Australian mosquitoes

Kain, Morgan P.; Skinner, Eloise B; Athni, Tejas S.; Ramírez, Ana L.; Mordecai, Erin A.; Hurk, Andrew van den

doi:10.1371/journal.pntd.0010768

Cited by 12 publications

(13 citation statements)

References 70 publications

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“…Some studies have begun to scale this gap: one study compiled a table of results from several dozen studies of Aedes aegypti and various arboviruses (see Table 6) 27 . More recently, another study compiled a dataset of 68 experimental studies that tested 111 combinations of Australian mosquitoes and arboviruses, and analyzed biological signals in the aggregated data 28 . These types of efforts are painstaking, requiring substantial manual curation of metadata, and hundreds more experiments are reported in the literature, yet remain unsynthesized due to this barrier.…”

Section: Discussionmentioning

confidence: 99%

A minimum data standard for vector competence experiments

Chen

Christofferson

et al. 2022

Sci Data

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The growing threat of vector-borne diseases, highlighted by recent epidemics, has prompted increased focus on the fundamental biology of vector-virus interactions. To this end, experiments are often the most reliable way to measure vector competence (the potential for arthropod vectors to transmit certain pathogens). Data from these experiments are critical to understand outbreak risk, but – despite having been collected and reported for a large range of vector-pathogen combinations – terminology is inconsistent, records are scattered across studies, and the accompanying publications often share data with insufficient detail for reuse or synthesis. Here, we present a minimum data and metadata standard for reporting the results of vector competence experiments. Our reporting checklist strikes a balance between completeness and labor-intensiveness, with the goal of making these important experimental data easier to find and reuse in the future, without much added effort for the scientists generating the data. To illustrate the standard, we provide an example that reproduces results from a study of Aedes aegypti vector competence for Zika virus.

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Section: Discussionmentioning

confidence: 99%

A minimum data standard for vector competence experiments

Chen

Christofferson

et al. 2022

Sci Data

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“…Finally, our study highlights that a substantial breadth and depth of vector competence data are published every year in the peer-reviewed literature, but currently, the results of these experiments have no standardized home. Other recent studies highlight that synthesis of these data is possible, despite the complexity of metadata required to describe variation in experimental protocols 6 ; however, our study highlights the challenges of recovering "findable" data from the vector competence literature. Limitations we encountered included 1) Web of Science is not a comprehensive record of this research area, and older studies in particular appear to be missing; 2) keywords we used may not have captured all of the relevant studies because of variable terminology; 3) a handful of non-English-language publications-in particular, Spanish and French language publications from Latin America and Africa, respectively-were not captured by our search terms; and 4) not all studies reported reusable experimental results and metadata.…”

Section: Discussionmentioning

confidence: 90%

“…Experimental studies simplify real-world complexities of transmission and can be used to test not only the basic compatibility of a given virus and arthropod vector species but also vector competence-the relative ability of arthropod vectors to be infected by a virus and then disseminate and transmit it to a susceptible host. 2 Despite arboviruses' evolutionary tendencies toward broad host and vector range, 1,3,4 there are complex genetic underpinnings that govern vector competence, 5 which can manifest as variation in competence between closely related species of the vector 6 or even among populations of the same species. 7 Vector competence experiments are often conducted in response to the emergence of novel pathogens or the emergence of a known pathogen in a new location with previously untested vectors.…”

Section: Introductionmentioning

confidence: 99%

Exploring the Mosquito–Arbovirus Network: A Survey of Vector Competence Experiments

Chen

Sweeny

et al. 2023

The American Journal of Tropical Medicine and Hygiene

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Arboviruses receive heightened research attention during major outbreaks or when they cause unusual or severe clinical disease, but they are otherwise undercharacterized. Global change is also accelerating the emergence and spread of arboviral diseases, leading to time-sensitive questions about potential interactions between viruses and novel vectors. Vector competence experiments help determine the susceptibility of certain arthropods to a given arbovirus, but these experiments are often conducted in real time during outbreaks, rather than with preparedness in mind. We conducted a systematic review of reported mosquito–arbovirus competence experiments, screening 570 abstracts to arrive at 265 studies testing in vivo arboviral competence. We found that more than 90% of potential mosquito–virus combinations are untested in experimental settings and that entire regions and their corresponding vectors and viruses are undersampled. These knowledge gaps stymie outbreak response and limit attempts to both build and validate predictive models of the vector–virus network.

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“…Drivers of these shifts may include a reduction in natural breeding habitats or resources that may favor more generalist or disturbance‐tolerant species often adapted to humans and their environment (Thongsripong et al, 2013), a redistribution of host species available for blood feeding (Burkett‐Cadena et al, 2013), and processes that favor greater adaptation of pathogens to common hosts (Burkett‐Cadena et al, 2013). Community shifts matter because many mosquito‐borne pathogens may be transmitted by multiple species (Kain et al, 2022; Turell et al, 2005), and interspecific variations in vector competency within mosquito assemblages can affect pathogen circulation and transmission outcomes (McMillan et al, 2020; Roche et al, 2013). Given the involvement of multiple species in these disease systems, a continued focus on individual vector species is insufficient for understanding and predicting transmission hazard and public health risk.…”

Section: Introductionmentioning

confidence: 99%

Land use predicts proportion of West Nile virus vector‐competent mosquitoes

Bauer,

Guralnick,

Whitehead

et al. 2024

Ecosphere

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Land use and land cover (LULC) change has been identified as an important driver of emerging mosquito‐borne zoonotic diseases. However, studies are often limited to individual vector species, despite the potential for interspecific variation in vector competency within mosquito assemblages. This variation can affect transmission hazard, particularly in complex multi‐vector disease systems. Here, we used a joint species distribution modeling approach that included mosquito species vector competency for West Nile virus (WNV) as a trait to understand community‐level responses to land cover and predict joint species distributions in Manatee County, Florida. We assembled species presence/absence data across 61 sites and 44 species sampled from 2016 to 2020 and percent land cover within 2500 m of trap locations for five common land cover types. These data were used to investigate patterns in species richness and community‐weighted proportions of WNV‐competent vector species. The results revealed that land cover effects on individual species aligned with known habitat associations: the highest proportions of WNV‐competent species were predicted in less diverse urbanized areas, and species richness increased as urbanized areas decreased. Our findings highlight the value of community‐level analyses to predict joint vector distributions that can inform where greatest transmission hazard may occur. This information can be used by public health agencies, mosquito control, and land managers to plan more effective and optimized prevention and control efforts.

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Not all mosquitoes are created equal: A synthesis of vector competence experiments reinforces virus associations of Australian mosquitoes

Cited by 12 publications

References 70 publications

A minimum data standard for vector competence experiments

A minimum data standard for vector competence experiments

Exploring the Mosquito–Arbovirus Network: A Survey of Vector Competence Experiments

Land use predicts proportion of West Nile virus vector‐competent mosquitoes

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