BackgroundThe scarcity of information on the immature stages of sand flies and their preferred breeding sites has resulted in the focus of vectorial control on the adult stage using residual insecticide house-spraying. This strategy, along with the treatment of human cases and the euthanasia of infected dogs, has proven inefficient and visceral leishmaniasis continues to expand in Brazil. Identifying the breeding sites of sand flies is essential to the understanding of the vector's population dynamic and could be used to develop novel control strategies.Methodology/Principal findingIn the present study, an intensive search for the breeding sites of Lutzomyia longipalpis was conducted in urban and peri-urban areas of two municipalities, Promissão and Dracena, which are endemic for visceral leishmaniasis in São Paulo State, Brazil. During an exploratory period, a total of 962 soil emergence traps were used to investigate possible peridomiciliary breeding site microhabitats such as: leaf litter under tree, chicken sheds, other animal sheds and uncovered debris. A total of 160 sand flies were collected and 148 (92.5%) were L. longipalpis. In Promissão the proportion of chicken sheds positive was significantly higher than in leaf litter under trees. Chicken shed microhabitats presented the highest density of L. longipalpis in both municipalities: 17.29 and 5.71 individuals per square meter sampled in Promissão and Dracena respectively. A contagious spatial distribution pattern of L. longipalpis was identified in the emergence traps located in the chicken sheds.ConclusionThe results indicate that chicken sheds are the preferential breeding site for L. longipalpis in the present study areas. Thus, control measures targeting the immature stages in chicken sheds could have a great effect on reducing the number of adult flies and consequently the transmission rate of Leishmania (Leishmania) infantum chagasi.
Sandflies were captured in a secondary forest zone in the county of Teodoro Sampaio, São Paulo, during 12 months as from May 1994. Two houses located respectively at 240 m and 850 m from the semi-deciduous forest were selected. Night Center of Disease Control trap captures were performed fortnightly from twilight to dawn intradomiciliarily, in the edge and the interior of the forest and in the peridomicile of each one of the houses. Captures were realized as well in the peridomicile using Shannon traps during 6 hour for 24 captures and 4 quarter captures from twilight to dawn. The dominant species was Lutzomyia intermedia (93.5%). A larger number of insects were captured in the traps located in the edge of the forest. In the peridomicile of both houses an equivalent number of insects were captured, although a clear predominance of males was observed in the more distant located house. In the interior of the house located near the forest a larger number of specimens predominantly female were captured. L. intermedia and L. whitmani peaks occurred in the first hour and were characteristically more abundant in May, September and December when the mean temperature varied from 21 to 25.7 degrees C and the pluviometric index as from 66.7 to 195.1 mm.
Following reports of two autochthonous cases of sylvatic yellow fever in the State of São Paulo, Brazil, in 2000, entomological surveys were conducted with the objective of verifying the occurrence of vector species in forest environments close to or associated with riparian areas located in the western and northwestern regions of the State. Culicidae were captured in 39 sites distributed in four regions. Haemagogus leucocelaenus and Aedes albopictus were the most abundant species and were captured in all the regions studied. H. leucocelaenus was the most abundant species in the municipalities of Santa Albertina and Ouroeste, where the two cases of sylvatic yellow fever had been reported. Mosquitoes from the janthinomys/capricornii group were only found at eight sites in the São José do Rio Preto region, while Sabethes chloropterus was found at one site in Ribeirão Preto. H. leucocelaenus showed its capacity to adapt to a secondary and degraded environment. Our results indicate a wide receptive area for yellow fever transmission in the State of São Paulo, with particular emphasis on the possibility of H. leucocelaenus being involved in the maintenance of this sylvatic focus of the disease.
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