Martin Estelle, Medeiros Matthew C I, Carbajal Ester, Valdez Edwin, Juarez Jose G, Garcia-Luna Selene, Salazar Aaron, Qualls Whitney A, Hinojosa Steven, Borucki Monica K, Manley Heather A, Badillo-Vargas Ismael E, Frank Matthias, Hamer Gabriel L
Department of Entomology, Texas A&M University, College Station, TX, United States.
Pacific Biosciences Research Center, University of Hawaii at Mānoa, Honolulu, HI, United States.
Acta Trop. 2019 Apr;192:129-137. doi: 10.1016/j.actatropica.2019.02.006. Epub 2019 Feb 11.
The yellow fever mosquito, Aedes aegypti, has facilitated the re-emergence of dengue virus (DENV) and emergence of chikungunya virus (CHIKV) and Zika virus (ZIKV) in the Americas and the Caribbean. The recent transmission of these arboviruses in the continental United States has been limited, to date, to South Florida and South Texas despite Ae. aegypti occurring over a much larger geographical region within the country. The main goal of our study was to provide the first long term longitudinal study of Ae. aegypti and enhance the knowledge about the indoor and outdoor relative abundance of Ae. aegypti as a proxy for mosquito-human contact in South Texas, a region of the United States that is at high risk for mosquito-borne virus transmission. Here, the relative abundance of indoors and outdoors mosquitoes of households in eight different communities was described. Surveillance was done weekly from September 2016 to April 2018 using the CDC Autocidal Gravid Ovitraps in low- and middle-income communities. A total of 69 houses were included in this survey among which 36 were in the low-income communities (n = 11 for Donna, n = 15 for Progresso, n = 5 for Mesquite, n = 5 for Chapa) and 33 in middle-income communities (n = 9 for La Feria, n = 8 for Weslaco, n = 11 for McAllen, and n = 5 for Rio Rico). Overall, Ae. aegypti was the dominant species (59.2% of collections, n = 7255) followed by Culex spp. mosquitoes (27.3% of collections, n = 3350). Furthermore, we demonstrated for Ae. aegypti that 1) outdoor relative abundance was higher compared to indoor relative abundance, 2) low-income communities were associated with an increase in mosquito relative abundance indoors when compared to middle-income communities, 3) no difference was observed in the number of mosquitoes collected outdoors between low-income and middle-income communities, and 4) warmer months were positively correlated with outdoor relative abundance whereas no seasonality was observed in the relative abundance of mosquitoes indoors. Additionally, Ae. aegypti mosquitoes collected in South Texas were tested using a specific ZIKV/CHIKV multiplex real-time PCR assay, however, none of the mosquitoes tested positive. Our data highlights the occurrence of mosquitoes indoors in the continental United States and that adults are collected nearly every week of the calendar year. These mosquito data, obtained concurrently with local ZIKV transmission of 10 locally acquired cases in nearby communities, represent a baseline for future studies in the Lower Rio Grande Valley (LRGV) including vector control interventions relying on the oviposition behavior to reduce mosquito populations and pathogen transmission.
埃及伊蚊促成了登革热病毒(DENV)在美洲和加勒比地区的再度出现以及基孔肯雅病毒(CHIKV)和寨卡病毒(ZIKV)的出现。尽管埃及伊蚊在美国境内的地理分布范围更广,但迄今为止,这些虫媒病毒在美大陆的传播仅限于南佛罗里达和南得克萨斯。我们研究的主要目标是首次对埃及伊蚊进行长期纵向研究,并增进对埃及伊蚊室内外相对丰度的了解,以此作为美国高风险蚊媒病毒传播地区——南得克萨斯州蚊虫与人类接触情况的一个指标。在此,我们描述了八个不同社区家庭室内外蚊子的相对丰度。2016年9月至2018年4月期间,在低收入和中等收入社区每周使用美国疾病控制与预防中心(CDC)的自动杀蚊孕卵诱捕器进行监测。此次调查共纳入69所房屋,其中36所在低收入社区(唐娜11所、普罗格雷索15所、豆科灌丛5所、查帕5所),33所在中等收入社区(拉费里亚9所、韦斯拉科8所、麦卡伦11所、里约里科5所)。总体而言,埃及伊蚊是优势物种(占捕获量的59.2%,n = 7255),其次是库蚊属蚊子(占捕获量的27.3%,n = 3350)。此外,对于埃及伊蚊,我们发现:1)室外相对丰度高于室内相对丰度;2)与中等收入社区相比,低收入社区室内蚊子相对丰度有所增加;3)低收入和中等收入社区室外捕获的蚊子数量没有差异;4)温暖月份与室外相对丰度呈正相关,而室内蚊子相对丰度未观察到季节性变化。此外,使用特定的寨卡病毒/基孔肯雅病毒多重实时聚合酶链反应检测法对在南得克萨斯采集的埃及伊蚊进行检测,但未发现任何蚊子呈阳性。我们的数据突出了美大陆室内蚊子的存在情况,以及全年几乎每周都能捕获成年蚊子。这些蚊子数据是在附近社区同时出现10例本地传播的寨卡病毒病例时获得的,为下里奥格兰德河谷(LRGV)未来的研究提供了基线,包括依赖产卵行为来减少蚊子数量和病原体传播的病媒控制干预措施。
