Issue 4, 2020

Use of optical properties for evaluating the presence of pyrogenic organic matter in thermally altered soil leachates

Abstract

The increased frequency and severity of wildfires in forested watersheds has the potential to significantly impact the quantity and quality of water extractable organic matter (WEOM) exported from these ecosystems. This study examined the optical properties of WEOM from laboratory heated soil in order to understand physicochemical changes occurring in the organic matter as a result of heating, as well as test the usefulness of optical parameters for assessing the presence of pyrogenic organic matter. WEOM absorbance and fluorescence spectral shape and intensity varied systematically as a function of soil heating temperature. Notably, absorbance and fluorescence intensity, specific ultraviolet absorbance, apparent fluorescence quantum yield, specific fluorescence emission intensity, and maximum fluorescence emission wavelength exhibited consistent changes with heating temperature and indicated that WEOM in heated soil leachates was lower in molecular weight and more aromatic than in unheated samples. The lower molecular weight in heated soil WEOM was corroborated with size-exclusion chromatography measurements. This work increases the understanding of the molecular changes occurring in WEOM as a result of wildfire and indicates that optical measurements (i.e., absorbance and fluorescence) could be used for watershed monitoring of post-fire pyrogenic organic matter.

Graphical abstract: Use of optical properties for evaluating the presence of pyrogenic organic matter in thermally altered soil leachates

  • This article is part of the themed collection: Geochemistry

Supplementary files

Article information

Article type
Paper
Submitted
11 syys 2019
Accepted
10 helmi 2020
First published
11 helmi 2020

Environ. Sci.: Processes Impacts, 2020,22, 981-992

Author version available

Use of optical properties for evaluating the presence of pyrogenic organic matter in thermally altered soil leachates

G. McKay, A. K. Hohner and F. L. Rosario-Ortiz, Environ. Sci.: Processes Impacts, 2020, 22, 981 DOI: 10.1039/C9EM00413K

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