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Abstract
Peatland fires emit organic carbon rich particulate matter into the atmosphere. Boreal and Arctic peatlands are becoming more vulnerable to wildfires, resulting in a need for better understanding of the emissions of these special fires. Extractable, non-, and low-polar organic aerosol species emitted from laboratory-based boreal and Arctic peat burning experiments are analyzed by direct-infusion atmospheric pressure photoionization (APPI) ultrahigh-resolution mass spectrometry (UHRMS) and compared to time-resolved APPI UHRMS evolved gas analysis from the thermal analysis of peat under inert nitrogen (pyrolysis) and oxidative atmosphere. The chemical composition is characterized on a molecular level, revealing abundant aromatic compounds that partially contain oxygen, nitrogen or sulfur and are formed at characteristic temperatures. Two main structural motifs are identified: single-core and multicore, and their temperature dependent formation is assigned to the thermal degradation of the lignocellulose building blocks and other parts of peat.
Supplementary materials
Title
Supporting Information
Description
Tables: combustion conditions, intensity weighted sum parameters, compound class number and intensity distribution, thermal analysis mass loss, coordinates of DBE vs. #C regions.
Figures: Upset plot comparison PM extracts, mass spectra with compound class distribution of PM extracts, contour DBE vs. #C plots of PM extracts and IRMPD precursor region, DTG curves, mass loss curve comparison of peat layers, time-resolved survey plots of TGA-FT-ICR MS, mass spectra with compound class distribution of TGA-EGA, compound class distribution of peat TGA-FT-ICR MS, contour DBE vs. #C plots of TGA-FT-ICR MS, temperature resolved compound class trends, upset plot comparison of TGA and PM extract data.
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