@article{oai:nagasaki-u.repo.nii.ac.jp:00000243,
 author = {Hoshi, Tomonori and Brugman, Victor A. and Sato, Shigeharu and Ant, Thomas and Tojo, Bumpei and Masuda, Gaku and Kaneko, Satoshi and Moji, Kazuhiko and Medlock, Jolyon M. and Logan, James G.},
 issue = {1},
 journal = {Scientific Reports},
 month = {Aug},
 note = {Mosquito surveillance is a fundamental component of planning and evaluating vector control programmes. However, logistical and cost barriers can hinder the implementation of surveillance, particularly in vector-borne disease-endemic areas and in outbreak scenarios in remote areas where the need is often most urgent. The increasing availability and reduced cost of 3D printing technology offers an innovative approach to overcoming these challenges. In this study, we assessed the field performance of a novel, lightweight 3D-printed mosquito light trap baited with carbon dioxide (CO2) in comparison with two gold-standard traps, the Centers for Disease Control and Prevention (CDC) light trap baited with CO2, and the BG Sentinel 2 trap with BG-Lure and CO2. Traps were run for 12 nights in a Latin square design at Rainham Marshes, Essex, UK in September 2018. The 3D-printed trap showed equivalent catch rates to the two commercially available traps. The 3D-printed trap designs are distributed free of charge in this article with the aim of assisting entomological field studies across the world., Scientific Reports, 9(1), art.no.11412; 2019},
 title = {Field testing of a lightweight, inexpensive, and customisable 3D-printed mosquito light trap in the UK},
 volume = {9},
 year = {2019}
}