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Urban Air Quality Deterioration in Manaus During the 2023 Drought: Long-Range Wildfire Smoke Transport and Urban Sustainability

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  • Yu-Woon Jang

    (Institute of Latin American Studies, Hankuk University of Foreign Studies, Seoul 02450, Republic of Korea)

  • Juram Jun

    (Institute of Latin American Studies, Hankuk University of Foreign Studies, Seoul 02450, Republic of Korea)

Abstract

Sustainable urban air quality in tropical cities is threatened by interactions between climate change, extreme drought, and long-range wildfire smoke transport. This study investigated the causes of PM 2.5 pollution in Manaus, Brazil, under El Niño conditions during the 2023 drought, focusing on long-range wildfire smoke transport. The links among hydroclimatic drying, wildfire activity, and urban air quality were examined using hourly PM 2.5 observations, meteorological data, long-term climate records, MODIS hotspot and fire radiative power (FRP) data, and air-mass trajectory analyses. Significant long-term warming, decreasing precipitation, and a declining standardized precipitation evapotranspiration index were observed around Manaus during 1981–2024, indicating persistent drying. In 2023, severe drought and increased wildfire activity caused an annual mean PM 2.5 concentration of 15.09 µg m −3 . Directional analyses, upwind FRP, potential source contribution function, and backward trajectories consistently highlighted the eastern and southeastern source regions approximately 500–2200 km from Manaus. These results indicated that PM 2.5 levels were more sensitive to spatial alignment between upwind fires and prevailing winds than to total fire activity alone. In conclusion, the 2023 PM 2.5 surge was driven by long-range wildfire smoke transport under intensified drying and drought, with implications for urban sustainability, public health, and climate-resilient early warning systems.

Suggested Citation

  • Yu-Woon Jang & Juram Jun, 2026. "Urban Air Quality Deterioration in Manaus During the 2023 Drought: Long-Range Wildfire Smoke Transport and Urban Sustainability," Sustainability, MDPI, vol. 18(12), pages 1-17, June.
  • Handle: RePEc:gam:jsusta:v:18:y:2026:i:12:p:6146-:d:1967865
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