Manompana Air Quality Index (AQI)

Loading live AQI data...

Loading historical AQI trends...

Manompana, nestled within the Toamasina Province of Madagascar, occupies a geographically significant position along the eastern coast. Located at approximately -16.6871 latitude and 49.7385 longitude, the city’s immediate surroundings are characterized by a blend of coastal plains and gently undulating terrain. The proximity to the Indian Ocean exerts a powerful influence on the local climate and, consequently, air quality. Manompana sits within a region dominated by the Betsimisaraka Plateau, a relatively low-lying area that facilitates the movement of air masses. The surrounding landscape is a mosaic of small-scale agriculture, primarily focused on rice cultivation and vanilla production, interspersed with pockets of dense, littoral forest. This agricultural activity, while vital to the local economy, can contribute to localized air pollution through the burning of agricultural waste and the use of fertilizers. The urban–rural gradient transitions rapidly, with the city itself being a relatively small settlement, quickly giving way to rural agricultural lands and coastal ecosystems. There are no major industrial belts immediately adjacent to Manompana, though Toamasina, a larger port city approximately 50km north, represents a potential source of transboundary pollution. The elevation is generally low, rarely exceeding 30 meters above sea level, which can exacerbate the trapping of pollutants during periods of stable atmospheric conditions. The prevailing easterly trade winds, typical of Madagascar’s eastern coast, generally provide some degree of ventilation, but their effectiveness is modulated by local topography and seasonal weather patterns.

Manompana’s tropical climate dictates a distinct wet and dry season pattern, profoundly impacting air quality. The wet season, typically spanning from November to April, brings frequent rainfall and high humidity. While the rain itself can help to cleanse the atmosphere by removing particulate matter, the increased humidity can trap pollutants closer to the ground, particularly during periods of reduced wind. The dry season, from May to October, is characterized by lower rainfall and generally clearer skies, but also a greater risk of stagnant air. During this period, the lack of rainfall means pollutants accumulate, and temperature inversions – where a layer of warm air sits above cooler air – can occur, preventing vertical mixing and trapping pollutants near the surface. The months of July and August often experience the most persistent inversions, leading to a noticeable increase in localized air quality concerns. Fog, common during the dry season, further exacerbates this issue by reducing visibility and trapping pollutants. Agricultural burning, a common practice during the dry season to clear land for planting, significantly contributes to particulate matter pollution. Sensitive groups, including children, the elderly, and individuals with respiratory conditions, should exercise caution during the dry season, particularly during periods of fog or temperature inversions. Outdoor activities are generally more favorable during the wet season, although heavy rainfall can still impact visibility and air quality. The strength and direction of the trade winds are crucial; periods of calm winds during either season will lead to poorer air quality.