期刊
SCIENCE OF THE TOTAL ENVIRONMENT
卷 631-632, 期 -, 页码 1383-1397出版社
ELSEVIER
DOI: 10.1016/j.scitotenv.2018.03.095
关键词
Particulate matter concentrations; Quasi-ultrafine particles; Size segregation; Modal shifts; Metals; Indoor air quality
资金
- University Grant Commission (UGC) New Delhi [MRP-MAJOR-CHEM-2013-25775]
- CSIR (New Delhi) [09/197/ (0006)/2014-EMR-1]
Attempts have been made to comprehend size distribution pattern of Particulate Matter (PM) and associated elemental concentration within coarse (2.5-10 mu m), quasi-accumulation (q-Acc) (0.25-2.5 mu m) and quasi-ultrafine (q-UF) (<0.25 mu m) ranges at indoors and outdoors of residential homes of Agra. Overall, the average mass concentrations of PM10 and PM2.5 in indoors were found to be 263.24 +/- 59.24 and 212.01 +/- 38.06 mu gm(-3) while in outdoors the concentrations accounted to 194.28 +/- 15.25 and 152.88 +/- 16.31 mu gm(-3) respectively; exceeding WHO standards. In view of geographical variation, significantly higher (t = 2.461; P = 0.044) PM mass was found in outdoor samples of roadside location when compared to homes located far away from busy traffic; whereas indoor concentration exhibited non-significant relationship (t = 1.887; P = 0.095) between the two categorized homes. Findings of size partitioning trend through deployment of Sioutas Cascade Impactor evidenced presence of high proportion of PM and elemental concentrations within q-Acc and q-UF modes with their distribution pattern and probable emission sources conferred upon. Absence of modal peak in coarse range indicated predominance of anthropogenic emissions with presumed wash-out of coarse particles during frequent precipitation coincidental with sampling event. Seeming modal shifts for some elements (K, Cd, Zn) from q-Acc to q-UF were perceived during infiltration process. Presence of high traffic emission in homes near busy road stemmed the shifting of particles (Cu, K, Co, Zn) towards finer size (preferably q-UF mode) thus exposing residents to adverse health effects through their penetration (Finf = 0.14) into indoor environment. Flat slopes (0.11) and poor correlation (8.4%) for metals in coarser range obtained through regression model hypothesized their high deposition velocities and low penetration efficiency. Our findings suggest enhanced resident exposure to fine particles (81%) especially q-UF range (37%) through indoor and outdoor (through infiltration) sources along with complexity of size distribution of airborne particles that prerequisites surplus consideration to achieve a healthier environment within residential area. (C) 2018 Elsevier B.V. All rights reserved.
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