Abstract
Wildfire emissions in the boreal forests yield an important contribution to the chemical budget of the troposphere. To assess the contribution of wildfire to the emissions of atmospheric trace species in the Great Xing’an Mountains (GXM), which is also the most severe fire-prone boreal forest region in China, we estimated various wildfire activities by combining explicit spatio-temporal remote sensing data with fire-induced emission models. We observed 9998 fire scars with 46,096 km2 in the GXM between the years 1986 and 2010. The years 1987 and 2003 contributed 33.2% and 22.9%, respectively, in burned area during the 25 years. Fire activity is the strongest in May. Most large fires occurred in the north region of the GXM between 50° N and 54° N latitude due to much drier weather and higher fire danger in the northern region than in the southern region of the study domain. Evergreen and deciduous needleleaf forest and deciduous broadleaf forest are the main sources of emissions, accounting for 84%, 81%, 84%, 87%, 89%, 86%, 85% and 74% of the total annual CO2, CH4, CO, PM10, PM2.5, SO2, BC and NOx emissions, respectively. Wildfire emissions from shrub, grassland and cropland only account for a small fraction of the total emissions level (approximately 4%–11%). Comparisons of our results with other published estimates of wildfire emissions show reasonable agreement.
Highlights
Wildfire is a critical disturbance factor in the boreal forests, which acts as a double-edged sword in the natural context
9998 fire scars were observed in the Great Xing’an Mountains (GXM) between the years 1986 and 2010
Total, 9998 fire scars were observed in the GXM between the years 1986 and 2010
Summary
Wildfire is a critical disturbance factor in the boreal forests, which acts as a double-edged sword in the natural context. Wildfire always releases some emissions of gases and aerosols to the atmosphere [1]. It is considered a major source of aerosol that affects air quality, atmospheric composition and the. Wildfire contributes approximately 50% of the total direct CO emissions and approximately 15% of surface NOx emissions [6]. Most of these particular matters and trace gases can have significant effects, on human health and affect the climate, with potential feedback on air quality. Some species have significant and far-reaching consequences due to their long lifetime
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