Studies were conducted to determine the selection of humans, chickens
and rabbits by Culicidae in three different environments in the province of
Chaco, Argentina. Mosquitoes were collected fortnightly using cylindrical metal
traps containing animal bait (chickens and rabbits). The mosquitoes were
collected between June 2001-May 2002. During the same period and with the same
frequency, mosquitoes biting the human operators of the traps were collected
during the first 15 min of exposure within different time intervals: from 09:00
am-11:00 am, 01:00 pm-03:00 pm, 05:00 pm-07:00 pm and 09:00 pm-10:00 pm. A total
of 19,430 mosquitoes of 49 species belonging to 10 genera were collected.
Culex species mainly selected chicken bait and
Wyeomyia species selected rabbit bait.
Ochlerotatus and Psorophora species were
more abundant in rabbit-baited traps. Anopheles triannulatus,
Coquillettidia nigricans, Ochlerotatus
scapularis, Mansonia titillans and
Psorophora albigenu showed a strong attraction for human
bait. The Anopheles, Coquillettidia,
Culex and Mansonia species were more
active between 05:00 pm-09:00 pm, while Ochlerotatus,
Psorophora, Haemagogus and
Wyeomyia were most active from 09:00 am-07:00 pm. This
study provides additional information about the biology and ecology of arbovirus
vectors in Chaco.
OBJETIVO: Estudiar la fluctuación estacional de Aedes aegypti y correlacionar su abundancia con factores ambientales. MÉTODOS: Las colectas fueron realizadas entre octubre de 2002 y noviembre de 2003, en la ciudad de Resistencia, província del Chaco, Argentina. Fueron hechos muestreos semanales empleando ovitrampas. El número de huevos colectados fue correlacionado con la temperatura, humedad relativa ambiente, evaporación y precipitaciones registradas en dicha localidad. Se utilizó el test de correlación de Pearson con los respectivos datos climáticos semanales, realizándose correlaciones simples y múltiples. RESULTADOS: La ocurrencia de huevos fue registrada de manera discontinua, desde la última semana de octubre de 2002, hasta la última de junio de 2003, a partir de la cual no fueron encontrados hasta noviembre de 2003. Se observó un pico de abundancia (70%) en noviembre y diciembre, que coincidió con el período de temperaturas altas y mayores precipitaciones. Otro pico, aunque de menor importancia, fue observado en abril y coincidió con las lluvias de otoño. Las correlaciones fueron significativas solamente para las precipitaciones acumuladas mensuales (r=0,57; P<0,05). No se registraron oviposturas en invierno cuando la temperatura media semanal fue inferior a 16,5ºC. CONCLUSIONES: Los resultados muestran correlación entre la oviposición y las precipitaciones, pues los períodos de mayor actividad de Aedes aegypti ocurrieron en el final de la primavera, comienzos del verano y en el inicio del otoño. Estos serían los períodos de mayor riesgo epidemiológico especialmente ante la aparición de personas infectadas.
The geographical distributions of Culex (Carrollia) secundus, Cx. (Microculex) davisi, Cx. (Phytotelmatomyia) castroi, Cx. (Phy.) renatoi, Lutzia (Lutzia) allostigma, Sabethes (Peytonulus) undosus, Sa. (Sabethoides) glaucodaemon, Toxorhynchites (Lynchiella) bambusicola, Tx. (Lyn.) theobaldi, Wyeomyia (Dodecamyia) aphobema, Wy. (Miamyia) codiocampa and Wy. serratoria (subgenus uncertain) are extended, including new records for four provinces in Argentina and four new records for the country, increasing the number of species known to occur in Argentina from 242 to 246.
We evaluated species richness, abundance, alpha diversity, and true diversity of Phlebotominae sand fl ies temporal changes in domiciles within the northern Argentina city of Corrientes. A total of 16 sampling nights were conducted seasonally throughout the years 2012-2014 through light traps supplemented with CO 2 . Meteorological and remote sensing environmental factors were used to assessed for vectors implications in disease transmission through Generalized Mixt Models. Lutzomyia longipalpis was the most abundant and common species, followed by Nyssomyia neivai and Migonemyia migonei. Lutzomyia longipalpis was more abundant in urban areas, Ny. neivai was associated with vegetation in periurban areas, both were found all sampling years with higher abundance during the rainy season. Positive association of Lu. longipalpis with precipitation and relative humidity and negative association with temperature were observed. Models showed humidity and vegetation as making effects on Lu. longipalpis abundance. Precipitation was signifi cant for Mg. migonei models, with higher abundance in periurban and periurban-rural environments. For Ny. neivai models, relative humidity was the most important variable, followed by precipitation frequency. Our fi ndings led to identify high risk areas and develop predictive models. These are useful for public health stakeholders giving tolls to optimized resources aim to prevent leshmaniasis transmission on the area.
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