Satellite monitoring of wildfires during the anomalous heat wave of 2010 in Russia

We describe the specific features of the summer 2010 emergency conditions in the European part of the Russian Federation, when an anomalous heat wave (the monthly mean temperatures in the summer months were 5–9°C higher than those for 2002–2009) and prolonged blocking anticyclones led to large wildfires. We analyze their causes and consequences. The features of the satellite system for operational fire monitoring (constructed at the Aerospace Scientific Center) and examples of its application in summer 2010 are presented. On the basis of the results of processing of satellite images of low (250–1000 m), medium (∼30–50 m), and high (∼6 m) resolutions, we found that the total area covered by fire from March to November of 2010 amounted to approximately 10.9 million hectares for the entire territory of the country and and 2.2 million hectares for its European part. Daily histograms of areas covered by fire in the summer months of 2010 were constructed. On the basis of these data and empirical models, we estimate the daily emissions of carbon monoxide (CO) from wildfires in the summer months of 2010 for the European part of Russia and Moscow oblast. On some days in August 2010, these emissions reached 15000–27000 t for the European part of Russia and 3000–7500 t for Moscow oblast. On the basis of analysis of data from the AIRS spectrometer (Aqua satellite), we derived the spatial distribution of CO concentrations at heights of 2 to 10 km above the territory of the Eastern and Central Europe. Moscow was shown to have been most severely affected by smoke from wildfires occurring on August 6–9, 2010, when the concentrations of harmful gases (CO2, CO, CH4, and O3) and aerosols in the air significantly exceeded both the daily and the one-hour maximum allowable concentrations.