1.Population analysis of Aedes albopictus (Skuse) (Diptera:Culicidae) under uncontrolled laboratory conditions.
H Nur Aida ; A Abu Hassan ; A T Nurita ; M R Che Salmah ; B Norasmah
Tropical biomedicine 2008;25(2):117-25
A semi laboratory experiment using 3 cohorts of Aedes albopictus adults was performed to obtain age-specific mortality and fecundity information and to derive statistical estimates of some population growth parameters. Life expectancy was calculated for both males and females. The following population parameters were estimated: intrinsic rate of increase (rm= 0.21), net reproductive (replacement) rate (Ro= 68.70), age at mean cohort reproduction (To=10.55 days), birth rate (B=0.23), death rate (D=0.02) and generation time (G=20.14 days). The high rm/B (0.91) and B/D (11.50) ratios indicated the high colonizing ability of Ae. albopictus in nature.
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Aedes albopictus
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Culicidae
2.The biology and demographic parameters of Aedes albopictus in northern peninsular Malaysia.
H Nur AIDA ; Hamady DIENG ; Abu Hassan AHMAD ; Tomomitsu SATHO ; A T NURITA ; M R Che SALMAH ; Fumio MIAKE ; B NORASMAH
Asian Pacific Journal of Tropical Biomedicine 2011;1(6):472-477
<b>OBJECTIVEb>To generate life table characteristics for the dengue vector Aedes albopictus (A. albopictus) under uncontrolled conditions, incorporating both the aquatic and the adult stages.
<b>METHODSb>Ten females derived from wild pupae were allowed to fully blood-feed on restrained mice. 774 eggs were hatched in seasoned water. F1 larvae were followed for development until their F2 counterparts emerged as adults. Some population parameters were monitored (F1) or estimated (F2).
<b>RESULTSb>A. albopictus exhibited increased fecundity and egg hatch success. Immature development was quick. Immature survival was high, with lowest rate in the pupal stage. Adult emergence was about 81% and sex ratio was close to 1:1. Generational mortality (K) was about 28%. A high proportion of females completed a reproductive cycle and the obtained parity rate was predicted to lead to higher fecundity in the next generation.
<b>CONCLUSIONSb>It can be concluded that natural A. albopictus populations in Penang seem largely determined by quick development in combination with low immature loss and increased oviposition.
Aedes ; growth & development ; physiology ; Animals ; Female ; Insect Vectors ; Malaysia ; Male ; Mice ; Vital Statistics