Abstract:
The succession of mosquito species and abiotic factors affecting their distribution and abundance in rice (Oryza spp.) Þelds was investigated over a 16-wk rice growing cycle covering the period between January and May 2006. Fifteen experimental rice plots were sampled for mosquito larvae and characterized based on rice height, number of tillers, ßoating vegetation cover, water depth, water temperature, turbidity, salinity, pH, dissolved oxygen, total dissolved solids, and conductivity. Microscopic identiÞcation of 3,025 larvae yielded nine mosquito species predominated by Anopheles arabiensis Patton (45.0%), Culex quinquefasciatus Say (35.8%), Anopheles pharoensis Theobald (9.0%) and Ficalbia splendens Theobald (7.1%). Other species, including Anopheles rufipes Gough, Anopheles coustani Laveran, Anonopheles maculipalpis Giles, Culex annulioris Theobald, and Culex poicilipes Theobald made up 3.1% of the total collection. Anopheles gambiae s.l., Cx. quinquefasciatus, and An. pharoensis occurred throughout the cycle, but they were more abundant up to 4 wk posttransplanting
with peaks after fertilizer application. As rice plants became established, three groups of mosquitoes were recognized: the Þrst groups included An. rufipes, Fl. splendens, and Cx. annulioris, which occurred throughoutmuchof the second half of the rice cycle, whereas the second group included Cx. poicilipes, which was found in the middle of the rice cycle. An. coustani and An. maculipalpis formed the third
group occurring toward the end of the cycle. Dissolved oxygen, number of tillers, and rice height were negatively associated with the abundance of An. arabiensis and Cx. quinquefasciatus larvae. In addition, Cx. quinquefasciatus also was associated with water depth ( ve) and turbidity ( ve). Abundance of An. pharoensis larvae was signiÞcantly associated with water temperature ( ve), the number of tillers ( ve), and rice height ( ve), whereas Fl. splendens was signiÞcantly associated with the number of tillers ( ve). The results demonstrate a complex nature of the interactions between some of the factors in the ecosystem and mosquito species abundance and calls for time-dependent and speciesspeciÞc
mosquito control operations.