Aedes albopictus Introduction into Continental Africa, 1991
From April 15 through July 20, 1991, an epidemic of yellow
fever (YF) occurred in Delta State, Nigeria. In September 1991, as
part of a follow-up investigation, mosquito oviposition cups were
deployed in four rural communities with YF, all within a
24-kilometer radius of the principal town of Agbor (Figure 1).
Based on findings from the follow-up investigation, this report
documents the first record of breeding populations of Ae.
albopictus--a competent YF virus vector--in continental Africa.
The cups were deployed approximately 200 meters from human
dwellings at the edge of deciduous forest strips that separate
villages and farmlands. Cup liners were collected after 48 hours,
and those containing eggs of Aedes mosquitoes were sent to CDC for
specific identification. Eggs were hatched and larvae mass-reared
to the adult stage.
Ae. albopictus were present in collections from three
communities (Igbodo, Owa-Alero, and Egbudu-Aka). The combined 271
specimens from Igbodo and Owa-Alero included the following: Ae.
aegypti, 74%; Ae. albopictus, 18%; Ae. apicoargenteus, 4%; Ae.
lilii, 3%; and Ae. simpsoni subgroup, 2%. The 14 specimens from
Egbudu-Aka represented two taxa: Ae. albopictus, 64%; and Ae.
africanus, 36%. In addition, eight adults were reared from Mbiri;
all were identified as Ae. africanus.
Reported by: VI Ezike, ACN Nwankwo, National Arbovirus and Vectors
Research Div, Federal Ministry of Health, Enugu; US Agency for
International Development, Lagos, Nigeria. Combatting Childhood
Communicable Diseases Program, Div of Field Svcs, International
Health Program Office; Div of Vector-Borne Infectious Diseases,
National Center for Infectious Diseases, CDC.
Editorial Note
Editorial Note: The colonization history of Ae. albopictus in other
areas suggests a likelihood for further spread of Ae. albopictus in
Africa (1,2). Ae. albopictus has colonized both urban and rural
forested areas in Delta State, and--with its ability to adapt to a
variety of oviposition sites, its biting habits, and its competence
as a YF virus vector in the laboratory--Ae. albopictus may link
sylvan and urban YF transmission cycles.
Live larvae of Ae. albopictus recently entered South Africa in
used tires imported from Japan (3), and Ae. albopictus was
previously introduced into the United States and Brazil in used
tires imported from Asia (4). This would suggest that importation
of used tires was the likely method of introduction into Nigeria.
However, in Africa, imported cargo is not routinely inspected for
mosquitoes, and other undetected populations of Ae. albopictus may
now exist.
Field and laboratory data indicate that Ae. albopictus is an
efficient laboratory vector of a number of viruses that cause human
disease--including dengue (DEN), YF, chikungunya, Rift Valley
fever, and West Nile--in Africa (5,6). Of particular concern to
public health officials is its potential role in DEN and YF
transmission, two viruses that continue to cause epidemic disease
in Africa. Strains of Ae. albopictus from Asia and strains
introduced into North America are efficient vectors of DEN and YF
(6,7). In addition to the role of Ae. albopictus in epidemic DEN
transmission, its ability to transmit DEN viruses vertically as a
reservoir host may facilitate endemic transmission (8).
Ae. albopictus may displace Ae. aegypti in parts of Africa, as
it has in some areas of the southern United States (9), and alter
established arbovirus transmission cycles. Virus transmission
studies with African strains of YF virus and Ae. albopictus from
Nigeria are in progress. The distribution of Ae. albopictus in
Nigeria and throughout continental Africa needs to be further
characterized.
References
Hawley WA. The biology of Aedes albopictus. J Am Mosq Control
Assoc Suppl 1988;1:1-40.
Moore CG, Francy DB, Eliason DA, Monath TP. Aedes albopictus in
the United States: rapid spread of a potential disease vector. J Am
Mosq Control Assoc 1988;4:356-61.
Cornel AJ, Hunt RH. Aedes albopictus in Africa?: first records
of live specimens in imported tires in Cape Town. J Am Mosq Control
Assoc 1991;7:107-8.
Reiter P, Sprenger D. The used tire trade: a mechanism for the
worldwide dispersal of container breeding mosquitoes. J Am Mosq
Control Assoc 1987;3:494-501.
Shroyer DA. Aedes albopictus and arboviruses: a concise review
of the literature. J Am Mosq Control Assoc 1986;2:424-8.
Mitchell CJ. Vector competence of North and South American
strains of Aedes albopictus for certain arboviruses: a review. J Am
Mosq Control Assoc 1991;7:446-51.
Gubler DJ, Rosen L. Variation among geographic strains of Aedes
albopictus in susceptibility to infection with dengue viruses. Am
J Trop Med Hyg 1976;25:318-35.
Rosen L, Shroyer DA, Tesh RB, Freier JE, Lien JC. Transovarial
transmission of dengue viruses by mosquitoes: Aedes albopictus and
Aedes aegypti. Am J Trop Med Hyg 1983;32:1108-19.
Hobbs JH, Hughes EA, Eichold BH II. Replacement of Aedes aegypti
by Aedes albopictus in Mobile, Alabama. J Am Mosq Control Assoc
1991;7:488-9.
Disclaimer
All MMWR HTML documents published before January 1993 are electronic conversions from ASCII text into HTML. This conversion may have resulted in character translation or format errors in the HTML version. Users should not rely on this HTML document, but are referred to the original MMWR paper copy for the official text, figures, and tables. An original paper copy of this issue can be obtained from the Superintendent of Documents, U.S. Government Printing Office (GPO), Washington, DC 20402-9371; telephone: (202) 512-1800. Contact GPO for current prices.
**Questions or messages regarding errors in formatting should be addressed to [email protected].
