ABSTRACT
West Nile fever (WNF) and Rift Valley fever (RVF) are emerging diseases causing epidemics outside their natural range of distribution. West Nile virus (WNV) circulates widely and harmlessly in the old world among birds as amplifying hosts, and horses and humans as accidental dead-end hosts. Rift Valley fever virus (RVFV) re-emerges periodically in Africa causing massive outbreaks. In the Maghreb, eco-climatic and entomologic conditions are favourable for WNV and RVFV emergence. Both viruses are transmitted by mosquitoes belonging to the Culex pipiens complex. We evaluated the ability of different populations of Cx. pipiens from North Africa to transmit WNV and the avirulent RVFV Clone 13 strain. Mosquitoes collected in Algeria, Morocco, and Tunisia during the summer 2010 were experimentally infected with WNV and RVFV Clone 13 strain at titers of 10(7.8) and 10(8.5) plaque forming units/mL, respectively. Disseminated infection and transmission rates were estimated 14-21 days following the exposure to the infectious blood-meal. We show that 14 days after exposure to WNV, all mosquito st developed a high disseminated infection and were able to excrete infectious saliva. However, only 69.2% of mosquito strains developed a disseminated infection with RVFV Clone 13 strain, and among them, 77.8% were able to deliver virus through saliva. Thus, Cx. pipiens from the Maghreb are efficient experimental vectors to transmit WNV and to a lesser extent, RVFV Clone 13 strain. The epidemiologic importance of our findings should be considered in the light of other parameters related to mosquito ecology and biology.
Subject(s)
Culex , Insect Vectors , Rift Valley Fever/transmission , Rift Valley fever virus/pathogenicity , West Nile Fever/transmission , West Nile virus/pathogenicity , Africa, Northern , Animals , Disease Susceptibility , Female , Species SpecificityABSTRACT
BACKGROUND: Culex pipiens L. is the most widespread mosquito vector in temperate regions including North Africa. Cx. pipiens has two recognized forms or biotypes; pipiens and molestus are morphologically indistinguishable with distinct behavior and physiology that may influence their vectorial status. In our study, we prospected for the different forms of Cx. pipiens in Morocco. METHODS: Cx. pipiens larvae were collected in 9 sites throughout Morocco during summer 2010 and reared until imago stage. Cx. pipiens was identified using diagnostic primers designed for the flanking region of microsatellite CQ11. RESULTS: We established the presence of both forms of Cx. pipiens and their hybrids in Morocco. CONCLUSIONS: Molecular identification provides the first evidence of the presence of Cx. pipiens form molestus in Morocco and hybrids between pipiens and molestus forms in North Africa. The epidemiological implications of our findings are discussed.
Subject(s)
Culex/classification , Culex/genetics , Animals , Culex/physiology , Demography , MoroccoABSTRACT
Originating from a natural crossing between mandarin and sweet orange at the end of the 19(th) century, clementine diversified through the selection of spontaneous mutations. Today, it seems almost impossible to distinguish one variety from another. The development of molecular tools for variety identification is thus necessary. Three clementine cultivars, representing distinct groups of fruit maturity, were evaluated. Identification criteria were searched at the phenotypical level (organoleptic characteristics, leaves morphology) as well as the DNA level (isozymes, RAPD, and ISSR). The phenotypical diversity observed is relatively high and contrasted with the low molecular polymorphism. In fact, only the cultivar 'Guerdane' presents profiles of genetic fingerprints different from those of the two other cultivars. The frequency of the genetic modifications would thus be variable from a cultivar to another. Moreover, the specific molecular markers of the cultivar 'Guerdane', added to the phenotypic markers, extend the possibilities of identification to the young nursery plants.
