Abstract
Fireworks burning (FB) constitutes a major but short-lived source of PM(2.5) during the Chinese Spring Festival, significantly deteriorating air quality in certain regions. This study was conducted to evaluate its impact through real-time monitoring of PM(2.5) chemical compositions in a forestry city (Xinyang) during the pre-fireworks and fireworks periods at the Spring Festival of 2023-2025. During the fireworks period, PM(2.5) concentrations increased by 10.5-226.4% compared to pre-fireworks levels, of which the concentrations of secondary inorganic aerosols (SIA), K and Cl(-) rose by 1.6-4.8, 1.9-14.7 and 1.5-8.1 times, and they accounted for 33.2-47.7%, 6.7-12.5% and 3.8-6.4% of PM(2.5), respectively. Correspondingly, PM(2.5)/CO and SIA/CO ratios in 2023-2025 elevated by factors of 1.4-2.3 and 1.1-3.4, indicating distinct enhancements in secondary inorganic aerosols formation. Additionally, acidity of PM(2.5), RH and O(x) also increased during fireworks. Collectively, higher sulfur and nitrogen oxidation ratios (SOR and NOR) during the fireworks period under the combined effects of high RH, O(x) and acidity conditions indicated a greater conversion of secondary inorganic aerosols. Positive Matrix Factorization (PMF) analysis confirmed that FB and secondary aerosols (SA) source levels during fireworks increased by 2.5-19.3 and 1.9-4.4 times compared to pre-fireworks values. This study underscores the need for implementing stringent management of fireworks and secondary formation mitigation to reduce PM(2.5) concentrations during the Spring Festival.