Assessing Variability and Interactions of PM2.5-Bound Components in an Indian Desert–Urban Mixed Region
摘要
This study presents a comprehensive characterization of fine particulate matter (PM₂.₅) in an arid desert region of western India influenced by urban emissions. One-year long monitoring revealed that ~ 50% of days exceeded daily average NAAQS limit, underscoring persistent air quality challenges in this environment. Strong seasonality was observed, with organic carbon (OC) and elemental carbon (EC) peaking during post‑monsoon (15 ± 17 μg m⁻3) and winter (6 ± 4 μg m⁻3), and reaching their lowest levels in monsoon (0.5 ± 0.9 μg m⁻3). Water‑soluble inorganic ions dominated PM₂.₅ mass in colder seasons, contributing 51% (45.4 ± 31.8 μg m⁻3) in winter and 42% (32.3 ± 18.5 μg m⁻3) in post-monsoon, driven by aqueous‑phase chemistry under ammonia‑rich conditions. In contrast, neutralization during dust‑prone warmer months was regulated by crustal cations, with saline soils and playa lakes of the Thar Desert consistently supplying