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六种桡足类(桡足纲:剑水蚤科)的繁殖力和存活率的比较评估,与针对埃及伊蚊的候选生物防治剂的选择相关。

Comparative evaluation of fecundity and survivorship of six copepod (Copepoda: Cyclopidae) species, in relation to selection of candidate biological control agents against Aedes aegypti.

作者信息

Phong Tran Vu, Tuno Nobuko, Kawada Hitoshi, Takagi Masahiro

机构信息

Department of Vector Ecology and Environment, Institute of Tropical Medicine, Nagasaki University, Nagasaki 852-8523, Japan.

出版信息

J Am Mosq Control Assoc. 2008 Mar;24(1):61-9. doi: 10.2987/5672.1.

Abstract

The fecundity and survival of 6 copepod species were assessed under laboratory conditions in order to choose the best candidates to control the aquatic stages of dengue mosquitoes in the field. Females of all the 6 species (Mesocyclops aspericornis, Mesocyclops pehpeiensis, Mesocyclops woutersi, Mesocyclops thermocyclopoides, Mesocyclops ogunnus, and Megacyclops viridis) mated more than once. Multiple mating resulted in increased egg production. The reproductive ability and longevity varied among the species, and M. aspericornis had the highest values. The lowest values were observed in M. thermocyclopoides. Multiple mating of males of M. aspericornis was also observed. The paternal fecundity decreased with each additional mating. There was no difference in the paternal fecundity between the males that mated at low and high female frequencies. The sperm stored in the M. aspericornis females remained viable for 30 days after storage under moist conditions at 25 degrees C or 15 degrees C. This feature in M. aspericornis represents an additional positive factor indicating that this species is a good biological agent for controlling mosquito larvae, especially in domestic water containers that may dry intermittently.

摘要

为了挑选出在野外控制登革热蚊子水生阶段的最佳候选物种,在实验室条件下评估了6种桡足类动物的繁殖力和生存能力。所有6个物种(粗糙中剑水蚤、台湾中剑水蚤、伍氏中剑水蚤、拟温中剑水蚤、奥贡中剑水蚤和大尾真剑水蚤)的雌体均多次交配。多次交配导致产卵量增加。各物种的繁殖能力和寿命各不相同,粗糙中剑水蚤的值最高。拟温中剑水蚤的值最低。还观察到粗糙中剑水蚤雄体的多次交配情况。随着交配次数的增加,父本繁殖力下降。在低雌体频率和高雌体频率下交配的雄体之间,父本繁殖力没有差异。在25摄氏度或15摄氏度潮湿条件下储存后,粗糙中剑水蚤雌体储存的精子在30天内仍具活力。粗糙中剑水蚤的这一特性是另一个积极因素,表明该物种是控制蚊子幼虫的良好生物制剂,特别是在可能间歇性干涸的家庭水容器中。

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