Biomass burning spatiotemporal variations over South and Southeast Asia

• Published in: Environment international Vol. 145; p. 106153
• Main Author: Yin, Shuai
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier Ltd 01.12.2020; Elsevier
• Subjects: Air Pollutants - analysis; Asia; Asia, Southeastern; Biomass; Crop residue burning; Environmental Monitoring; Fires; Forest fire; Seasons; Siegel’s repeated median; Standard deviation ellipse; Time series; Asia, Southeastern; Asia; Crop residue burning; Siegel’s repeated median; Forest fire; Standard deviation ellipse; Time series
• ISSN: 0160-4120; 1873-6750
• DOI: 10.1016/j.envint.2020.106153

[Display omitted] •Two indicators of biomass burning are integrated into analysis, fire spots and FRP.•Siegel’s repeated median is adopted to reduce the influence of outliers.•Crop residue burning in South Asia significantly increased by 844 spots/yr.•Crop residue burning in Punjab-Haryana presented a substantial declining trend.•ENSO events highly affected biomass burning in Sumatra and Boneo. In this study, Moderate Resolution Imaging Spectroradiometer active fire and land use products were integrated to extract and classify biomass burning (BB) data for South Asia (SA) and Southeast Asia (SEA). Several trend and geographic distribution analyses were conducted at the grid (0.25° × 0.25°) and regional scales. As the principal local form of BB, crop residue burning (CRB) in SA increased by 844 spots/yr, and the Mann–Kendall (MK) τ reached 0.61. Additionally, the CRB in Punjab-Haryana, a region a well-known for severest CRB, presented a significant declining trend. BB in mainland SEA was much more intense and was dominated by forest and shrubland fires. Forest fires in mainland SEA declined at a rate of −209 spots/yr, and shrubland fire conversely grew at a rate of 803 spots/yr, which was likely related to the dramatic land cover change induced by the local swidden agriculture. Unlike other regions, BB in equatorial SEA primarily occurred in the second half of the year (August to October), and it was extremely vulnerable to El Niño events. When the annual sea surface temperature anomalies within the Niño 3 region improved by 1 °C, the annual BB spots and fire radiative power in equatorial SEA increased by 5.18 × 104 and 2.40 × 106 MW, respectively. Although the interannual variations in equatorial SEA were dramatic, the robust Siegel’s repeated median estimator still revealed that equatorial SEA BB significantly declined by −1825 spots/yr. This regional decline reflects government endeavors to curb indigenous BB. However, regions with enhanced BB still need to draw more attention, and it is imperative for the Indonesian government to take substantial measures to reduce anthropogenic fire sources during El Niño events.