TY - JOUR
PY - 2024//
TI - The Diwali festival: short-term high effect of fireworks emissions on particulates and their associated empirically calculated health risk assessment at Bhubaneswar city
JO - Environmental geochemistry and health
A1 - Mishra, Monalin
A1 - Boopathy, Ramasamy
A1 - Mallik, Chinmay
A1 - Das, Trupti
SP - e21
EP - e21
VL - 46
IS - 1
N2 - This article elucidates the role of the short-term combustion of firecrackers and sparklers as a significant source of atmospheric pollutants that deteriorate ambient air quality and increase health risks during the popular Diwali festival. The study was conducted at Bhubaneswar during the festive celebration in early November 2021 (4th Nov) and late October 2022 (24th Oct) to assess the level of particulates (PM(2.5) and PM(10) mass concentration) and the relative health risks associated with them. PM(2.5) (113.83 µg/m(3)) and PM(10) (204.32 µg/m(3)) showed significant rises on D-day at all seven different sites that exceeded the NAAQS in 2021. From 2021 to 2022, an overall decrease in PM(2.5) (41%) and PM(10) (36%) was observed. On D-day, the total concentration of quantified metals in PM(2.5) and PM(10) were found to be 4.83 µg/m(3) 5.97 µg/m(3) (2021) and 5.08 µg/m(3) 5.18 µg/m(3) (2022) respectively. The AQI during both years (2021-2022) was found to be high for PM(2.5) (unhealthy) and PM(10) (moderate), but it was markedly good for all other pollutants on the scale. The overall population in the study area were under a significant health risk was observed in the overall population as PM surpassed the threshold concentration amid the festivities for consecutive years, with PM(2.5) being more potent than PM(10). The total excess health risk in 2022 was found to be decreased lower by ~ 88% from 2021 on D-day. But, metal exposure (through inhalation) in children were more compared to the adults for both the years. However, the exposure risk of both children and adults were high in the year 2022 with inhalation of metals like K, Al, Ba, Fe and Ca found in higher concentration and directly emitted from the firecrackers. Language: en
LA - en
SN - 0269-4042
UR - http://dx.doi.org/10.1007/s10653-023-01810-6
ID - ref1
ER -