Schistosomiasis mansoni in urban Northeast Brazil : infl uence of rainfall regime on the population dynamics of Biomphalaria sp .

Introduction: Our objective was to evaluate the infl uence of rainfall regime on the population dynamics of Biomphalaria in a potential urban focus of schistosomiasis in Aracaju, Brazil, during 2009-2010. Methods: Snails were collected monthly and were counted, measured and identifi ed; the level of infection and fecal contamination at the sampling sites was determined; rainfall data were obtained. Results: High levels of fecal contamination were observed, and the abundance of Biomphalaria glabrata increased during the rainy and post-rainy seasons. The snails’ size was variable, and infected snails were identifi ed independently of rainfall. Conclusions: These results provide evidence of anthropogenic and climate interference in an urban focus of schistosomiasis in the Aracaju metropolitan area.

Brazil has a high prevalence of schistosomiasis mansoni, which is endemic in 19 states.It is estimated that approximately eight million individuals are infected 1 .Freshwater snails of the genus Biomphalaria participate in the life cycle of Schistosoma mansoni, for which Biomphalaria glabrata is the most important vector species in northeastern Brazil 2 .
The establishment and maintenance of new transmission foci of the disease are related to poor socio-environmental conditions and the presence of Biomphalaria snails.Additionally, rural exodus and rural tourism combined with environmental changes have driven the urbanization of this parasitic infection.Belo Horizonte, Maceió, Salvador, Recife and Aracaju are among the Brazilian state capitals in which foci of schistosomiasis are present in urban areas 3,4 .
The objective of this study was to evaluate the infl uence of the rainfall regime on the population dynamics of Biomphalaria sp.during the period 2009-2010 in a potential urban focus of schistosomiasis.The aim of this study was to obtain information that can be used to obtain grants for the effective planning and implementation of control measures for endemic schistosomiasis.
The municipalities of Nossa Senhora do Socorro and São Cristóvão are located in the Aracaju metropolitan area.
Collection sites were selected according to information provided by the Schistosomiasis Control Program.The snails were harvested between January 2009 and December 2010.The snail specimens were counted, and the diameter of the shell was measured at its widest point.A sample of four snails from each collection area was randomly chosen for identifi cation 4 .After 48h, the collected snails were individually exposed to incandescent light to observe cercariae elimination.This procedure was repeated weekly for three consecutive weeks to determine the absence or presence of S. mansoni infection.
A water sample was taken at each collection point during the pre-and post-rainy periods.The levels of fecal and thermotolerant coliform bacteria were determined by the multiple-tube method and compared with the limits set by the Conselho Nacional do Meio Ambiente (CONAMA) Resolution 357 5 (freshwater considered fi t for bathing and leisure).
Precipitation data and rainfall patterns were obtained from the Secretary of Water Resources.The rainfall distribution is as follows: January, February and March are considered lowrainfall months (the pre-rainy season); April, May, June and July are high-rainfall months (the rainy season); and the remaining fi ve months are low-rainfall months (the post-rainy season).
Analysis of variance (ANOVA) tests were performed at a 5% signifi cance level between the groups of snails collected during each rainfall period.The Tukey test was used to determine  Both study sites are considered to be marginal slum areas; wastewater is dumped into ditches near houses, forming a network of open sewers.The snail vectors are fed and infected by waste released into ditches and form foci around residential dwellings.The fi rst area studied is located in the municipality of Nossa Senhora do Socorro, specifically, in the Parque dos Faróis residential, a location that is greatly affected by the Poxim River during the rainy season.The second area corresponds to the Baixa da Divinéia region in the municipality of São Cristóvão, and fl ooding occurred in the collection area during the rainy season.
Depending on their proximity to the water, small walkways made of wood or concrete slabs can retain the snails that have accumulated around them during rainfall; snails were collected from these ditches and streams.Evaluation of the internal structures of the snails allowed us to identify them as the species Biomphalaria glabrata.
The water analysis for the Parque dos Faróis residential area showed a total coliform index of 2.2x10 4 most probable number per 100ml (MPN/100ml) in the dry season and 7.9x10 5 MPN/100ml during the rainy season, which are both greater than the recommended levels 5 .In the Baixa da Divinéia region, water analysis showed fecal coliform bacteria levels of 1.7x10² MPN/100ml during the dry season and 1.0x10 7 MPN/100ml during the rainy season (the latter value is above the recommended level 5 ).There was an increase in fecal coliform bacteria levels during the rainy season at both sampling sites.
Snails infected with S. mansoni were found at both study sites independent of rainfall patterns, with a higher prevalence in the municipality of São Cristóvão (Table 1).
In the municipality of São Cristóvão, 7,544 snails were collected, which was the largest number collected during the post-rainy season (Table 1 and Figure 1A).Although there was a tendency for snails to be more abundant in the rainy and post-rainy season, this correlation was not statistically signifi cant.
In the Parque dos Faróis residential area, we collected a total of 12,396 snails, and the number of snails collected during the 2010 pre-rainy season was almost double that collected in 2009.Comparing the rainy and post-rainy seasons, we found that the number of snails collected was higher in 2009 for both seasons (Table 1 and Figure 1B).
The differences between the diameters of snails collected in the Parque dos Faróis residential area during the pre-rainy/ rainy seasons in 2009 and the rainy/post-rainy seasons in 2010 were not statistically signifi cant (p>0.05),but the diameters were signifi cantly different for the remaining rainfall seasons (p<0.05)(Figure 2A).
In the Baixa da Divinéia region, snail diameters also did not follow a discernible pattern (Figure 2B).Diameters during the 2009 pre-rainy season were signifi cantly larger than in other seasons (p<0.05).
Our collection of B. glabrata in these areas emphasizes the epidemiological importance of this species as one of the most important vectors of schistosomiasis along the northeastern coast of Brazil 6 .The presence of fecal coliform bacteria shows that the collection areas are subject to contamination, likely due to a lack of sanitation.Moreover, the increase in fecal coliform bacteria in the two areas, especially during the rainy season, can be explained by overfl owing septic tanks.The presence of infected snails indicates that endemic schistosomiasis is established in both communities, strengthening the evidence for urban foci of schistosomiasis in the Aracaju metropolitan area.The decrease in the total number of snails and the total number of infected snails during the rainy season may be explained by the increased rainfall, which causes ditches to overfl ow, fl oods the streets and carries snails to distant locations.This phenomenon allows for the dispersal of infected snails, which can expose residents living outside known foci to S. mansoni and lead to the establishment of new foci 3 .
The snail population fl uctuated throughout the study period; the snails' numbers normally peak during the rainy season, when washed-in snails appear and begin to reproduce, as has been noted by other authors 2,7 .During the study period, the number of snails was infl uenced by rainfall patterns, although other external factors, such as the cleaning of the ditches and canals by residents before and during the rainy season, may have altered the abundance of snails.
Data on the size of the schistosomiasis-transmitting snails are important for understanding population dynamics under natural conditions 7,8 because smaller snails are more susceptible to S. mansoni infection.
The data presented in this report show that the diameter of the snails does not follow a particular pattern, which is most likely a result of human intervention and weather conditions.A tendency to fi nd smaller snails was observed during the rainy and post-rainy seasons, which can be explained by the high levels of reproduction observed during this period.
Schistosomiasis mansoni demonstrates an ability to expand in spite of control efforts; undoubtedly, the complex nature of establishing new foci is infl uenced by the interactions between humans and snail vectors and by the abiotic factors that clearly infl uence the population dynamics of Biomphalaria 7 .
Behavioral changes in Biomphalaria that are associated with its establishment in urban areas have been the primary cause of the spread of schistosomiasis.A lack of infrastructure, such as paved streets and sidewalks, enables the accumulation of water and the growth of vegetation, which create environments that support the proliferation of snails.A lack of sanitation leads

Oliveira
DS et al -Schistosomiasis foci in an urban area of northeastern Brazil

FIGURE 2 -
FIGURE 2 -Diameter in millimeters(mm) of the Biomphalaria glabrata snails collected according to the rainfall pattern from January 2009 to December 2010.A: Parque dos Faróis residential area, municipality of Nossa Senhora do Socorro, State of Sergipe, Brazil.B: Baixa da Divinéia community, municipality of São Cristóvão, State of Sergipe, Brazil.

TABLE 1 -
Biomphalaria glabrata snails collected during 2009 and 2010.Prevalence of positive snails during the pre-rainy, rainy and postrainy seasons in the Parque dos Faróis residential area, municipality of Nossa Senhora do Socorro, State of Sergipe, Brazil, and the Baixa da Divinéia community, municipality of São Cristóvão, State of Sergipe, Brazil.