Mwangangi Joseph, Shililu Josephat, Muturi Ephantus, Gu Weidong, Mbogo Charles, Kabiru Ephantus, Jacob Benjamin, Githure John, Novak Robert
International Center for Insect Physiology and Ecology (ICIPE), P.O. Box 30772-00100, Nairobi, Kenya.
J Vector Ecol. 2006 Dec;31(2):245-51. doi: 10.3376/1081-1710(2006)31[245:doisoa]2.0.co;2.
We determined changes in species composition and densities of immature stages of Anopheles arabiensis mosquitoes in relation to rice growth cycle in order to generate data for developing larval control strategies in rice ecosystems. Experimental rice paddies (6.3m x 3.15m) exposed to natural colonization of mosquitoes were sampled weekly for two rice growing cycles between February 2004 and March 2005. Overall, 21,325 Anopheles larvae were collected, of which 91.9% were 1st and 2nd instars and 8.1% were 3rd and 4th instars. An. arabiensis was the predominant species (84.1%) with other species, An. pharoensis (13.5%), An. funestus (2.1%), An. coustani (0.3%), and An. maculipalpis (0.1%) accounting for only a small proportion of the anophelines collected. Culex quinquefasciatus (65.7%) was the predominant species among the non-anopheline species. Others species collected included: C. annulioris (9.9%), C. poicilipes (7.3%), C. tigripes (7.2%), C. duttoni (0.6%), Aedes aegypti (5.3%), Ae. cumminsii (3.5%), and Ae. vittatus (0.7%). The densities of the major anopheline species were closely related to rice stage and condition of the rice field. An. arabiensis, the predominant species, was most abundant over a three-week period after transplanting. Low densities of larvae were collected during the late vegetative, reproductive, and ripening phases of rice. An increase in larval density ten days post-transplanting was found to correlate with the application of fertilizer (sulphate of ammonia). Culicine and aedine species densities were significantly higher during the post-harvesting period. Our results suggest that the transplanting stage is favorable for the growth of immature stages of An. arabiensis and provides a narrow window for targeted larval intervention in rice.
我们确定了阿拉伯按蚊未成熟阶段的物种组成和密度与水稻生长周期的关系,以便为制定水稻生态系统中的幼虫控制策略提供数据。在2004年2月至2005年3月期间的两个水稻生长周期内,每周对暴露于蚊子自然定殖的实验稻田(6.3米×3.15米)进行采样。总共收集了21325只按蚊幼虫,其中91.9%为一龄和二龄幼虫,8.1%为三龄和四龄幼虫。阿拉伯按蚊是主要物种(84.1%),其他物种,如法老按蚊(13.5%)、嗜人按蚊(2.1%)、寇氏按蚊(0.3%)和黄斑按蚊(0.1%),在收集到的按蚊中仅占一小部分。致倦库蚊(65.7%)是按蚊以外的主要物种。收集到的其他物种包括:环纹库蚊(9.9%)、刺扰库蚊(7.3%)、迷走库蚊(7.2%)、达氏库蚊(0.6%)、埃及伊蚊(5.3%)、康氏伊蚊(3.5%)和白线伊蚊(0.7%)。主要按蚊物种的密度与水稻生长阶段和稻田状况密切相关。主要物种阿拉伯按蚊在移栽后的三周内最为丰富。在水稻的营养后期、生殖期和成熟期收集到的幼虫密度较低。发现移栽十天后幼虫密度的增加与肥料(硫酸铵)的施用有关。在收获期后,库蚊和伊蚊物种的密度显著更高。我们的结果表明,移栽阶段有利于阿拉伯按蚊未成熟阶段的生长,并为水稻中针对性的幼虫干预提供了一个狭窄的窗口期。
