Trace element composition of PM2.5 and PM10 from Kolkata - a heavily polluted Indian metropolis

Author

Reshmi DAS, Nanyang Technological University
Bahareh KHEZRI, Nanyang Technological University
Bijayen SRIVASTAVA, Indian Institute of Social Welfare and Business Management
Subhajit DATTA, Singapore Management UniversityFollow
Pradip Kumar SIKDAR, Indian Institute of Social Welfare and Business Management
Richard D. WEBSTER, Nanyang Technological University
Xianfeng WANG, Nanyang Technological University

Publication Type

Journal Article

Version

publishedVersion

Publication Date

9-2015

Abstract

Elemental composition of PM_2.5 and PM₁₀ was measured from 16 locations in Greater Kolkata in Eastern India. Sampling was carried out in the winter months of 2013–2014. PM_2.5 and PM₁₀ mass concentrations ranged from 83–783 μg/m³ and 167–928 μg/m³ respectively. 20 elements were measured with an Agilent 7700 series ICP–MS equipped with a 3^rd generation He reaction/collision cell following closed vessel microwave digestion. In both size fractions Fe, Na, Al, K, Ca were present in high concentrations (>1 000 ng/m³), Mn, Zn and Pb demonstrated medium concentrations (>100 ng/m³), and Sc, V, Co, Ni, Mo, Cd, Sn and Sb had low concentrations (<100 ng/m³). Ca, Al, Mg, Sc, Ti, Mn and Fe were concentrated in the PM₁₀ fraction, while the toxic metals (Cr, Ni, Zn, Mo, Sn, Sb, V, Co, Cu, Cd and Pb) were concentrated in the PM_2.5 fraction. Al normalized Enrichment Factors (EF) showed EF<10 for Ti, Mg, Sc, Fe, Mn, Na, K, Ca, V, Co which is indicative of crustal sources, 100>EF>10 for Ni, Cr, Cu is possibly industrial influence and 1 000>EF>100 for Sn, Zn, Mo, Sb, Pb, Cd is related to industrial, high temperature combustion and vehicle sources. Factor analysis identified three possible sources for PM₁₀; (1) abraded vehicular part related road dust, exhaust gases of car and municipal waste incineration (2) industrial emissions, and (3) coal combustion and non-ferrous metal smelting and three possible sources for PM_2.5; (1) abraded vehicular part related road dust and industrial emissions (2) exhaust gases of cars and municipal waste incineration, and (3) coal combustion and non-ferrous metal smelting. In a risk evaluation using a U.S. EPA IRIS, chromium was found to have the highest excess cancer risk.

Keywords

Particulate matter, heavy metals, enrichment factor, factor analysis, excess cancer risk

Discipline

Environmental Sciences | Numerical Analysis and Scientific Computing

Research Areas

Software and Cyber-Physical Systems

Publication

Atmospheric Pollution Research

Volume

6

Issue

5

First Page

742

Last Page

750

ISSN

1309-1042

Identifier

10.5094/APR.2015.083

Publisher

Elsevier

Embargo Period

6-23-2021

Citation

DAS, Reshmi; KHEZRI, Bahareh; SRIVASTAVA, Bijayen; DATTA, Subhajit; SIKDAR, Pradip Kumar; WEBSTER, Richard D.; and WANG, Xianfeng. Trace element composition of PM2.5 and PM10 from Kolkata - a heavily polluted Indian metropolis. (2015). Atmospheric Pollution Research. 6, (5), 742-750.
Available at: https://ink.library.smu.edu.sg/sis_research/6005

Copyright Owner and License

Authors

Creative Commons License

This work is licensed under a Creative Commons Attribution 3.0 License.

Additional URL

https://doi.org/10.5094/APR.2015.083