Vector Potential Index: Bridging Competence and Contribution as an Integrative Measure of Relative Transmission Capability
Amely M. Bauer, Nathan D. Burkett‐Cadena, Lawrence E. Reeves, Barry W. Alto, Lindsay P. Campbell

TL;DR
The paper introduces a new tool called the Vector Potential Index (VPI) to assess how different insect species contribute to spreading zoonotic diseases like West Nile virus.
Contribution
The VPI is a novel integrative metric combining vector competence and host use data to evaluate transmission potential in multi-vector disease systems.
Findings
Most vector species had low transmission potential according to the VPI.
Culex species, not Aedes species, were ranked highest in West Nile virus transmission potential.
The VPI aligns with recent findings on vector roles in natural transmission cycles.
Abstract
Vector‐borne diseases (VBD) pose a major concern for public health worldwide. Identifying putative vectors and their potential contribution to transmission is a crucial step in understanding vector‐borne disease hazard. However, existing metrics are limited in their utility to inform transmission hazard in zoonotic multi‐vector, multi‐host VBD systems. We present the Vector Potential Index (VPI), a novel metric for evaluating and comparing the potential of blood‐feeding arthropod vectors to contribute to zoonotic VBD transmission. Taking a meta‐analysis approach, the VPI combines vector competence and host use data obtained from scientific literature to assign relative and absolute VPI ranks across species and transmission cycles. Using West Nile virus (WNV) in the eastern United States as a model system, our results demonstrate the ability of VPI to provide a representative assessment…
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Taxonomy
TopicsMosquito-borne diseases and control · Zoonotic diseases and public health · Malaria Research and Control
