Santa Brígida Air Quality Index (AQI)

Loading live AQI data...

Loading historical AQI trends...

Santa Brígida, nestled in the heart of Bahia, Brazil, occupies a geographically significant position within the broader Salvador-Recife urban corridor. Located at approximately -9.7358° latitude and -38.1258° longitude, the city sits within a gently undulating terrain characteristic of the Baixo Sul da Bahia region. Its elevation averages around 30 meters above sea level, placing it within a coastal plain influenced by the Atlantic Ocean. The surrounding landscape is a mosaic of small-scale agriculture, primarily sugarcane and cassava cultivation, interspersed with patches of Atlantic Forest remnants. This agricultural activity, while vital to the local economy, contributes to potential particulate matter emissions. Santa Brígida’s proximity to the Rio de Contas, a significant river system, influences local humidity and temperature patterns. The urban fabric is relatively compact, reflecting its smaller population of 14,965, exhibiting a gradual urban-rural gradient as one moves outwards. While not directly adjacent to major industrial belts, Santa Brígida benefits from its connection to the broader Bahia state infrastructure, which includes transportation routes facilitating the movement of goods and potentially contributing to vehicle emissions. The prevailing winds, generally easterly, play a crucial role in dispersing pollutants, though localized topography can sometimes create pockets of stagnant air, particularly during periods of reduced wind speed. The Atlantic influence moderates temperatures, but also introduces the possibility of coastal fog, which can trap pollutants near the surface.

Santa Brígida’s tropical climate dictates a distinct wet and dry season pattern, profoundly impacting air quality dynamics. The dry season, typically spanning from September to March, is characterized by reduced rainfall and increased sunshine hours. While this might seem beneficial, the drier conditions often lead to elevated levels of particulate matter, particularly from agricultural burning practices used for land clearing and sugarcane cultivation. Wind speeds tend to be lower during this period, hindering pollutant dispersion and increasing the likelihood of localized stagnation. The months of October and November often experience the highest concentrations of these particles. Conversely, the wet season, from April to August, brings frequent rainfall and higher humidity. These conditions naturally cleanse the atmosphere, washing away particulate matter and reducing overall pollution levels. However, periods of prolonged fog, common during the transition months (May and September), can trap pollutants close to the ground, creating temporary episodes of reduced visibility and potentially impacting respiratory health. Temperature inversions, though less frequent than in temperate climates, can occasionally occur during the cooler months (July and August), further exacerbating air quality issues by preventing vertical mixing. Sensitive groups, including children, the elderly, and individuals with pre-existing respiratory conditions, should exercise caution during the dry season, particularly during agricultural burning periods. Limiting outdoor exertion and wearing masks can mitigate potential health risks. During the wet season, while air quality is generally improved, vigilance is still advised during foggy periods.