Fire activity in central Africa was monitored with NOAA advanced very high resolution radiometer (AVHRR) satellite imagery, acquired in situ during the 1996 dry season campaign of the Experiment for Regional Sources and Sinks of Oxidants (EXPRESSO). The extent of the area affected by fire was estimated with a contextual active fire detection algorithm, and with a burnt area mapping approach, based on multiple fuzzy thresholds. The latter was considered to produce more accurate results. In a study area of 2¿106 km2, and during a 5-week period, the areas affected were estimated at 112,578 and 525,820 km2 by the active fires and burnt area algorithms, respectively. Biomass densities, combustion factors, and emissions factors for Sudanian savanna, Guinean savanna, and dense tropical forest vegetation types were obtained from the literature, and used to estimate biomass burnt (228--371 Tg), and pyrogenic emissions of aerosols (1.8--2.6 Tg) and of the trace gases CO2 (374--609 Tg), CO (29.2--39.0 Tg), CH4 (2.05--2.73 Tg), and NOx (1.1--1.4 Tg). Because of its high biomass density, the tropical forest was a major source of atmospheric emissions, in spite of the relatively small extent of area burnt in this ecosystem. This highlights the need for particularly accurate estimates of area burnt, biomass density, combustion factor, and emissions factor for the dense tropical forest, as well as the potential for a significant increase in regional pyrogenic emissions as a consequence of deforestation. ¿ 1999 American Geophysical Union