Characteristics of organic components in PM2.5 emitted from peatland fires on Sumatra in 2015: Significance of humic-like substances

Characteristics of organic components in PM2.5 emitted from peatland fires on Sumatra in 2015: Significance of humic-like substances

We characterize fine particulate matter (PM2.5) emitted from Indonesian peatland fires using ground-based source-dominated samplings of PM2.5 near peatland fire sources at two Regencies in Riau, Sumatra, Indonesia (number of samples = 13). Organic carbon (OC), elemental carbon, water-soluble OC (WSO...

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Bibliographic Details
Published in:Atmospheric Environment: X Vol. 11; p. 100116
Main Authors: Fujii, Yusuke, Tohno, Susumu, Kurita, Hiroki, Huboyo, Haryono Setiyo, Zaman, Badrus
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-10-2021
Elsevier
Subjects:
Biomass burning
HULIS
Indonesia
Peatland fire
PM2.5
Source profile
Biomass burning
Peatland fire
PM2.5
HULIS
Indonesia
Source profile
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Summary:We characterize fine particulate matter (PM2.5) emitted from Indonesian peatland fires using ground-based source-dominated samplings of PM2.5 near peatland fire sources at two Regencies in Riau, Sumatra, Indonesia (number of samples = 13). Organic carbon (OC), elemental carbon, water-soluble OC (WSOC), the carbon content of humic-like substances (HULIS-C), and biomass burning tracers are determined. The carbon mass ratios of WSOC to OC (0.085 ± 0.015) and HULIS-C to WSOC (0.55 ± 0.085) are fairly constant and independent of the peatland fire sampling sites. By comparing diagnostic ratios using OC, WSOC, and HULIS-C at the peatland fire source and the receptor site (Malaysia) during peatland fire-induced haze periods, secondary WSOC and HULIS-C formation during transport from the source to the receptor site is highly possible. Interestingly, the mass ratio of syringic acid to levoglucosan (0.045 ± 0.0075) is fairly constant at Indonesian peatland fire sources. Because syringic acid is less stable than levoglucosan, this ratio is an aging indicator for Indonesian peatland fires at receptor sites. By comparing the mass fraction of each organic compound in the present study and previous studies, it is evident that the source profile for the coburning of peat with surface vegetation is significantly different compared with the burning of peat alone. Further knowledge of peat burning emissions is needed, particularly with respect to burning conditions, peat composition, and the effects of vegetative burning on peatland. Improved knowledge of these factors would lead to more reliable speciated emission inventories of Indonesian peatland fires, advancing chemical transport and radiative forcing modeling, as well as health risk assessment. •Key organic components in PM2.5 are characterized at peatland fire sources.•WSOC/OC and HULIS-C/WSOC ratios are fairly constant among peatland fire sources.•HULIS formation during transport from peatland fire source is likely.•Syringic acid/levoglucosan ratio is an aging indicator for peatland fire aerosols.
ISSN:2590-1621
2590-1621
DOI:10.1016/j.aeaoa.2021.100116