© Benaki Phytopathological Institute
Stegomyia
mosquito species in Greece
55
prises useful information while organizing
mosquito surveys. Although it is general-
ly believed that the public awareness may
result in exaggeration, fear and unreason-
able reactions and behavior, we also have to
take into account that members of the pub-
lic can also be a great source of information
by reporting new invasions, recording phe-
nological changes associated with invasions
or disease outbreaks, and finally can partici-
pate in management efforts (5).
A recent mosquito surveillance in Ath-
ens, using ovitraps, verified the presence of
both
Stegomyia
species and revealed that
Ae.
albopictus
has currently developed consid-
erably high populations, displaying a trend
of increase over time, in the urban environ-
ment of the Greek capital city (10). Moreover,
the co-occurrence of
Ae. albopictus
and
Ae.
cretinus
, mainly in some Municipalities of At-
tica, arises the need for a better study on the
biology of
Ae. cretinus
and suggests the im-
plementation of surveillance programmes
using ovitraps and other surveillance meth-
ods in order to investigate the population
dynamics of each species and the possible
interspecific competitive interactions.
Surveillance programs will be also use-
ful to prevent the introduction and establish-
ment of other invasive container-breeding
Aedes
species with medical importance such
as
Ae. aegypti, Ae. japonicus, Ae. atropalpus, Ae.
koreicus
and
Ae. triseriatus
. These species have
been reported the recent years as introduced
into various European countries (4, 23).
Literature cited
Adhami, J. and Reiter, P. 1998. Introduction and
1.
establishment of
Aedes
(
Stegomyia
)
albopictus
Skuse (Diptera: Culicidae) in Albania.
Journal of
the American Mosquito Control Association
, 14:
340-343.
Becker, N., Petric´, D., Zgomba, M., Boase, C., Ma-
2.
don, M., Dahl, C. and Kaiser, A. 2010. Mosqui-
toes and Their Control, 2nd ed. Springer, Berlin-
Heidelberg, Germany.
Benedict, M.Q., Levine, R.S., Hawley, W.A. and
3.
Lounibos, L.P. 2007. Spread of the tiger: Global
risk of invasion by the mosquito
Aedes albopic-
tus
.
Vector-Borne and Zoonotic Diseases
, 7: 76-85.
Capelli, G., Drago, A., Martini, S., Montarsi, F.,
4.
Soppelsa, M., Delai, N., Ravagnan, S., Mazzon, L.,
Schaffner, F., Mathis, A., Di Luca, M. and Romi, R.,
Russo, F. 2011. First report in Italy of the exotic
mosquito species
Aedes
(
Finlaya
)
koreicus
, a po-
tential vector of arboviruses and filariae.
Para-
sites and Vectors
, 4: 188-192.
Crowl, T.A., Crist, T.O., Parmenter, R.R., Belovsky,
5.
G. and Lugo, A.E. 2008. The spread of invasive
species and infectious disease as drivers of eco-
system change.
Frontiers in Ecology and the Envi-
ronment
, 6: 238–246.
Darsie, R.F.Jr. and Samanidou-Voyadjoglou, A.
6.
1997. Keys for the identification of the mosqui-
toes of Greece.
Journal of the American Mosquito
Control Association
, 13: 247-254.
Darsie, R.F.Jr. 1999. Description of the pupa of
7.
Aedes cretinus
Edwards, a key to the pupae of
the
Albopictus
subgroup, subgenus
Stegomyia
Theobald, genus
Aedes
Meigen, and characters
to separate the European
Stegomyia
species
(Diptera: Culicidae).
Proceedings of the Entomo-
logical Society of Washington
, 101: 614-618.
ECDC 2009. European Centre for Disease Pre-
8.
vention and Control. Development of
Aedes al-
bopictus
riskmaps. Retrieved online from: http://
-
tions/0905_TER_Development_of_Aedes_Al-
bopictus_Risk_Maps.pdf (last visit 1/5/2012).
Enserink, M. 2008. A mosquito goes global. S
9.
ci-
ence
, 320: 864-866.
Giatropoulos,
10.
Α., Emmanouel, N., Koliopoulos,
G. and Michaelakis A. 2012. A study on distribu-
tion and seasonal abundance of
Aedes albopictus
(Diptera: Culicidae) population in Athens, Greece.
Journal of Medical Entomology
, 49: 262-269.
Gjenero-Margan, I., Aleraj, B., Krajcar, D., Le-
11.
snikar, V., Klobučar, A., Pem-Novosel, I., Kurečić-
Filipović, S., Komparak, S., Martić, R., Đuričić,
S., Betica-Radić, L., Okmadžić, J., Vilibić-Čavlek,
T., Babić-Erceg, A., Turković, B., Avšić-Županc,
T., Radić, I., Ljubić, M., Šarac, K., Benić, N. and
Mlinarić-Galinović, G. 2011. Autochthonous den-
gue fever in Croatia, August–September 2010.
Eurosurveillance
, 16: 19805. Retrieved online
from:
ticle.aspx?ArticleId=19805
(last visit 1/5/2012).
Grandadam, M., Caro V., Plumet S., Thiberge M.,
12.
Souarès Y., Failloux A., Hugues J., Budelot M.,
Cosserat D., Leparc-Goffart I. and Desprès, P.
2011. Chikungunya Virus, Southeastern France.
Emerging Infectious Diseases
, 17: 910-913.
Gratz, N.G. 2004. Critical review of the vector
13.
status of
Aedes albopictus. Medical and Veteri-
nary Entomology
, 18: 215-227.
Knudsen, A.B. 1995. Global distribution and
14.
continuing spread of
Aedes albopictus. Parassi-
tologia
, 37: 91–97.
Knudsen, A.B., Romi, R. and Majori, G. 1996. Oc-
15.
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