Oviposition and Development of Anopheles coluzzii coetzee and Wilkerson in Salt Water

Q2 Medicine

Malaria Research and Treatment Pub Date : 2019-10-09 DOI:10.1155/2019/9523962

E. Nwaefuna, Ibalafake Ibisobia Bagshaw, F. Gbogbo, M. Osae

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引用次数: 5

Abstract

Anopheles coluzzii is an important vector of malaria in sub-Saharan Africa particularly of the most dangerous malaria parasite. It completes its life cycle in water and a change in physicochemical properties particularly that of salinity of water may affect egg laying and perhaps the development of eggs to maturity. Studies have shown that climate change may alter the transmission of many vector-borne diseases in different parts of the world and global warming will also raise sea levels which will lead to an increase in saline and brackish water body in coastal areas. This study investigated the salinity tolerance level of An. coluzzii. It involved creation of artificial environments of different salinity gradients using rainwater and sea water and the subsequent exposure of the media to An. coluzzii for laying of eggs and development of larvae to adult. Anopheles coluzzii showed ovipositional preference for less saline media as there was significant negative correlation between number of eggs laid and salinity of oviposition media. Effect of salinity was evident in egg development and larval survival, as no egg hatched in >30% sea water, all L3 larvae died in >40% seawater, and the maximum seawater concentration for L4 survival was 30%. An LC50 of 17.51% (95% CI: 9.31–24.56)% and 23.4% (95% CI: 16.76–22.30)% were calculated for L3 and L4 larvae respectively. Adults emerging from fresh and low saline water of 10% seawater had greater energy reserve than those emerging from 20% and 30% seawater. Increasing salinity did not affect wing length of the emerging adult. Despite the increased stress on larval development, some individuals survived and went on to emerge as adults in conditions that seem to be representative of brackish water. This may imply that an increase in brackish water sites caused by rising sea levels might create more suitable breeding sites for this species.

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古氏按蚊和威尔克森按蚊在咸水中的产卵发育

科鲁兹按蚊是撒哈拉以南非洲地区疟疾的重要媒介，尤其是最危险的疟疾寄生虫。它在水中完成它的生命周期，物理化学性质的变化，特别是水的盐度的变化，可能会影响卵的产卵，也许会影响卵的发育到成熟。研究表明，气候变化可能改变世界不同地区许多病媒传播疾病的传播，全球变暖也将导致海平面上升，这将导致沿海地区咸水和微咸水体的增加。本研究研究了红枣的耐盐水平。coluzzii。它涉及利用雨水和海水创造不同盐度梯度的人工环境，并随后将介质暴露于An中。用于产卵和幼虫到成虫的发育。科氏按蚊产卵偏好盐度较低的产卵介质，产卵数与产卵介质盐度呈显著负相关。盐度对卵发育和幼虫存活的影响明显，>30%的海水中没有卵孵化，>40%的海水中L3幼虫全部死亡，L4存活的最大海水浓度为30%。L3和L4幼虫的LC50分别为17.51% (95% CI: 9.31 ~ 24.56)%和23.4% (95% CI: 16.76 ~ 22.30)%。10%海水环境下的成虫能量储备大于20%和30%海水环境下的成虫能量储备。盐度的增加对羽化成虫的翅长没有影响。尽管对幼虫发育的压力越来越大，但一些个体存活下来，并在似乎代表微咸水的条件下长成成人。这可能意味着海平面上升导致的咸淡水地区的增加可能为这种物种创造更合适的繁殖地点。

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来源期刊

Malaria Research and Treatment Medicine-Infectious Diseases

CiteScore

5.20

自引率

0.00%

发文量

期刊介绍： Malaria Research and Treatment is a peer-reviewed, Open Access journal that publishes original research articles, review articles, and clinical studies related to all aspects of malaria.