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评估不同营养条件下库蚊幼虫的发育成功率:饮食质量、食物量和幼虫密度的影响。

Assessment of the developmental success of Anopheles coluzzii larvae under different nutrient regimes: effects of diet quality, food amount and larval density.

机构信息

Institut de Recherche en Sciences de la Santé/Centre Muraz, Bobo-Dioulasso, Burkina Faso.

Liverpool School of Tropical Medicine (LSTM), Liverpool, UK.

出版信息

Malar J. 2018 Oct 22;17(1):377. doi: 10.1186/s12936-018-2530-z.

DOI:10.1186/s12936-018-2530-z
PMID:30348155
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6198522/
Abstract

BACKGROUND

In a context of increasing resistance of both vectors toward main classes of insecticides used in public health and parasites toward anti-malarial drugs, development of new and complementary molecules or control approaches is fundamental to achieve the objective of controlling or even eliminating malaria. Concerning vector control, the sterile insect technique and other genetic control approaches are among promising complementary tools in an integrated management strategy for malaria control. These approaches rely not only on a good understanding of vector biology (especially during larval stages), but also on the availability of adequate supplies and protocols for efficient mosquito rearing. The aim of this study was to assess the factors impacting the life history of Anopheles coluzzii mosquitoes at the larval stage, in the context of genetic and sterile insect approaches to control malaria vectors.

METHODS

The effect of different larval diets and larval rearing densities on the development of An. coluzzii were evaluated in the laboratory. Emergence rate (ER), pre-imaginal developmental time (DT) and adult wing length (WL) were measured under different food regimes. Four diets were tested among which three were provided by the Insect Pest Control Laboratory (IPCL) of the FAO/IAEA Joint division.

RESULTS

Data showed significant differences in the quality of the different diets and suggested a negative density dependence in all three life history parameters measured under tested rearing conditions. ER and WL increased with food availability, but decreased with increasing larval density. Conversely DT was shortened with increasing food availability but increased with larval density. These data demonstrates intraspecific larval competition modulated by food amount and space availability. Of the four diets tested, the one made of a mix of tuna meal, bovine liver powder, brewer's yeast, squid liver powder and vitamin mix (diet 2) yielded the best results as it produced a good balance between ER, DT and WL. Food availability for optimal development (highest survival at shortest time) was in the range of 180-400 µg/larvae/day for the three diets provided by the IPCL.

CONCLUSION

There is an interaction between diet type, diet concentration and larval density. Best results in terms of optimal larvae development parameters happen when moderately high values of those three variables are observed.

摘要

背景

在主要用于公共卫生的杀虫剂以及抗疟药物的寄生虫对两者的抗性都在不断增加的情况下,开发新的和互补的分子或控制方法对于实现控制甚至消除疟疾的目标至关重要。就病媒控制而言,不育昆虫技术和其他遗传控制方法是疟疾控制综合管理战略中有希望的补充工具之一。这些方法不仅依赖于对媒介生物学(尤其是幼虫阶段)的良好理解,还依赖于是否有足够的供应品和有效的蚊子饲养协议。本研究旨在评估在控制疟疾媒介的遗传和不育昆虫方法的背景下,影响按蚊幼虫期生活史的因素。

方法

在实验室中评估了不同的幼虫饲料和幼虫饲养密度对按蚊生长发育的影响。在不同的食物制度下,测量了出蚊率(ER)、预蛹期发育时间(DT)和成虫翅长(WL)。在其中三个由粮农组织/国际原子能机构联合司昆虫害虫控制实验室(IPCL)提供的三种饲料中进行了测试。

结果

数据显示不同饮食的质量存在显著差异,并表明在测试饲养条件下,所有三个生命史参数都存在负密度依赖性。ER 和 WL 随食物的可用性而增加,但随幼虫密度的增加而减少。相反,DT 随食物的可用性而缩短,但随幼虫密度的增加而增加。这些数据表明,种内幼虫竞争受食物数量和空间可用性的调节。在所测试的四种饮食中,由金枪鱼粉、牛肝粉、酵母、鱿鱼肝粉和维生素混合物(饮食 2)制成的饮食产生了最好的结果,因为它在 ER、DT 和 WL 之间产生了良好的平衡。最佳发育所需的食物供应(最短时间内最高存活率)在 IPCL 提供的三种饮食中为 180-400µg/幼虫/天。

结论

饮食类型、饮食浓度和幼虫密度之间存在相互作用。当这三个变量的中等值较高时,最佳幼虫发育参数的结果最佳。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5157/6198522/e6eae1738fde/12936_2018_2530_Fig6_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5157/6198522/99431240dbb4/12936_2018_2530_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5157/6198522/b1102d82c3d2/12936_2018_2530_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5157/6198522/9190718b501c/12936_2018_2530_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5157/6198522/f581738ce4c5/12936_2018_2530_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5157/6198522/45da897cee8e/12936_2018_2530_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5157/6198522/e6eae1738fde/12936_2018_2530_Fig6_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5157/6198522/99431240dbb4/12936_2018_2530_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5157/6198522/b1102d82c3d2/12936_2018_2530_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5157/6198522/9190718b501c/12936_2018_2530_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5157/6198522/f581738ce4c5/12936_2018_2530_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5157/6198522/45da897cee8e/12936_2018_2530_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5157/6198522/e6eae1738fde/12936_2018_2530_Fig6_HTML.jpg

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