Ampasina-Maningory Air Quality Index (AQI)

Loading live AQI data...

Loading historical AQI trends...

Ampasina-Maningory, nestled within the Toamasina Province of Madagascar, occupies a strategically important coastal position on the Indian Ocean. Located at approximately -17.2166° latitude and 49.4064° longitude, the city’s geography is defined by its proximity to the Mozambique Channel and the Pangalanes Canal, a series of interconnected lakes and waterways that significantly influence local climate and air circulation. The terrain is generally low-lying, transitioning from sandy coastal plains to gently undulating hills inland. This relatively flat topography, combined with the prevailing easterly trade winds, can trap pollutants, particularly during periods of reduced wind speed. The surrounding landscape is a mosaic of coastal forests, mangrove swamps, and agricultural land, primarily dedicated to clove, vanilla, and rice cultivation. To the west, the urban fabric gradually merges into rural agricultural zones, while to the east, the Indian Ocean provides a constant source of sea breezes, though these can also carry maritime pollutants. The city’s position within a region experiencing increasing industrial activity, particularly around Toamasina’s port, contributes to potential air quality challenges. The urban–rural gradient is relatively smooth, with smaller villages and agricultural plots interspersed within the broader Ampasina-Maningory area, impacting local air quality patterns and the dispersal of emissions from both urban and rural sources. The canal system itself can act as a conduit for pollutants, influencing air quality along its banks.

Ampasina-Maningory experiences a tropical climate characterized by distinct wet and dry seasons, profoundly impacting its air quality profile. The wet season, typically spanning from November to April, brings frequent rainfall and high humidity, generally leading to improved air quality as precipitation washes away particulate matter and dilutes gaseous pollutants. However, heavy rainfall can also mobilize dust and soil particles, temporarily degrading air quality. The dry season, from May to October, is often marked by lower rainfall and increased temperatures. This period frequently sees a build-up of pollutants due to reduced precipitation and stagnant air conditions. Temperature inversions, where a layer of warm air traps cooler air near the ground, are more common during the dry season, exacerbating pollution accumulation. The prevailing easterly trade winds, while generally beneficial for dispersing pollutants, can weaken during certain periods, further contributing to stagnation. Months like July and August often experience the most persistent periods of reduced wind, potentially leading to elevated levels of localized pollutants. Sensitive groups, including children, the elderly, and individuals with respiratory conditions, should exercise caution during these months, limiting strenuous outdoor activities and monitoring for any respiratory discomfort. The monsoon season’s arrival brings a welcome respite, but the initial periods of intense rainfall can temporarily worsen air quality due to resuspended dust. Fog, occasionally occurring during the transition periods between seasons, can also trap pollutants, creating localized pockets of poor air quality.