Derek Charlwood J, Nenhep Somalay, Sovannaroth Siv, Morgan John C, Hemingway Janet, Chitnis Nakul, Briët Olivier J T
Liverpool School of Tropical Medicine, Pembroke Place, Liverpool, L3 5QA, UK.
PAMVERC, P.O. Box 10, Muleba, Tanzania.
Malar J. 2016 Jul 12;15(1):356. doi: 10.1186/s12936-016-1389-0.
Mosquito survival, oviposition interval and gonotrophic concordance are important determinants of vectorial capacity. These may vary between species or within a single species depending on the environment. They may be estimated by examination of the ovaries of host-seeking mosquitoes.
Landing collections, Furvela tent-trap and CDC light-trap collections were undertaken sequentially in four locations in Cambodia between February 2012 and December 2013 and samples from the collected mosquitoes were dissected to determine parity, sac stage (indicative of time spent prior to returning to feed) and egg stage.
A total of 27,876 Anopheles from 15 species or species groups were collected in the four locations and 2883 specimens were dissected. Both the density and predominant species collected varied according to location and trapping method. Five species were dissected in sufficient numbers to allow comparisons between locations. Estimated oviposition interval differed markedly between species but less within species among different locations. Anopheles aconitus had the shortest cycle, which was 3.17 days (95 % CI 3-3.64), and Anopheles barbirostris had the longest cycle, which took four days (95 % CI 3.29-4). Anopheles minimus had a higher sac rate in weeks leading up to a full moon but there was apparently little effect of moon phase on Anopheles dirus. Despite the fact that many of the species occurred at very low densities, there was no evidence of gonotrophic dissociation in any of them, even during sustained hot, dry periods. The principal Cambodian malaria vector, An. dirus, was only common in one location where it was collected in miniature light-traps inside houses. It did not appear to have an exceptional survival rate (as judged by the low average parous rate) or oviposition cycle.
Differences in the oviposition interval were more pronounced among species within locations than within species among ecologically diverse locations. A nationwide survey using CDC light-traps for the collection of An. dirus inside houses may help in determining patterns of malaria transmission in Cambodia.
蚊子的生存、产卵间隔和生殖营养协调一致是媒介能量的重要决定因素。这些因素可能因物种不同或同一物种在不同环境中而有所变化。可通过检查寻找宿主的蚊子的卵巢来估计这些因素。
2012年2月至2013年12月期间,在柬埔寨的四个地点依次进行着陆采集、富韦拉帐篷诱捕和疾控中心灯光诱捕,并对采集到的蚊子样本进行解剖,以确定其是否已产卵、卵巢发育阶段(表明再次进食前度过的时间)和卵的发育阶段。
在这四个地点共采集到来自15个物种或物种组的27,876只按蚊,并解剖了2883个样本。采集到的蚊子密度和优势物种因地点和诱捕方法而异。对五个物种进行了足够数量的解剖,以便在不同地点之间进行比较。估计的产卵间隔在不同物种之间差异显著,但在同一物种的不同地点之间差异较小。乌头按蚊的周期最短,为3.17天(95%置信区间3 - 3.64),须喙按蚊的周期最长,为4天(95%置信区间3.29 - 4)。微小按蚊在满月前几周的卵巢发育率较高,但月相对大劣按蚊显然几乎没有影响。尽管许多物种的密度非常低,但没有证据表明它们中的任何一个存在生殖营养分离,即使在持续炎热干燥的时期也是如此。柬埔寨主要的疟疾传播媒介大劣按蚊仅在一个地点较为常见,在该地点是在房屋内用微型灯光诱捕器采集到的。它似乎没有特别高的生存率(从低平均经产率判断)或产卵周期。
产卵间隔的差异在同一地点的不同物种之间比在生态多样的不同地点的同一物种之间更为明显。在柬埔寨全国范围内使用疾控中心灯光诱捕器在房屋内采集大劣按蚊,可能有助于确定疟疾传播模式。
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