TY - JOUR T1 - Creating a National Vector Surveillance System: Integrated mosquito trap data and digital epidemiology JF - bioRxiv DO - 10.1101/096875 SP - 096875 AU - Samuel S.C. Rund AU - Micaela Elvira Martinez Y1 - 2017/01/01 UR - http://biorxiv.org/content/early/2017/01/06/096875.abstract N2 - Fluctuating population dynamics and shifting ranges, behavior, and phenology make monitoring of mosquito populations essential in controlling emerging pathogens. Despite ~1000 US mosquito control agencies, there is no centralized collation of their data. We provide a roadmap for the creation of a National Vector Surveillance System, for mosquito control agencies to routinely report standardized data. We characterized the extent of current monitoring, and collated mosquito abundance between 2009-2016. Despite a minority of agencies publically reporting data, our data set consists of records on >12 million mosquitoes. We demonstrate the utility of a National Vector Surveillance System by providing novel insight into nationwide mosquito ecology and show that Digital Epidemiology could provide indirect mosquito monitoring, with Google queries for “mosquito” covarying with mosquito abundance. We demonstrate a National Vector Surveillance System would provide a cost effective means to combat vector borne disease emergence and can be integrated with wide-scale Digital Epidemiology.Classification Biological sciences: Population Biology ER -