Lignin phenol quantification from machine learning‐assisted decomposition of liquid chromatography‐absorbance spectroscopy data

Author:

Bruhn Anders Dalhoff1ORCID,Wünsch Urban1ORCID,Osburn Christopher L.2ORCID,Rudolph Jacob C.23ORCID,Stedmon Colin A.1ORCID

Affiliation:

1. National Institute of Aquatic Resources, Technical University of Denmark Denmark

2. Department of Marine, Earth, and Atmospheric Sciences North Carolina State University Raleigh North Carolina

3. Department of Environmental Biology Smithsonian Environmental Research Center Edgewater Maryland

Abstract

AbstractAnalysis of lignin in seawater is essential to understanding the fate of terrestrial dissolved organic matter (DOM) in the ocean and its role in the carbon cycle. Lignin is typically quantified by gas or liquid chromatography, coupled with mass spectrometry (GC‐MS or LC‐MS). MS instrumentation can be relatively expensive to purchase and maintain. Here we present an improved approach for quantification of lignin phenols using LC and absorbance detection. The approach applies a modified version of parallel factor analysis (PARAFAC2) to 2nd derivative absorbance chromatograms. It is capable of isolating individual elution profiles of analytes despite co‐elution and overall improves sensitivity and specificity, compared to manual integration methods. For most lignin phenols, detection limits below 5 nmol L−1 were achieved, which is comparable to MS detection. The reproducibility across all laboratory stages for our reference material showed a relative standard deviation between 1.47% and 16.84% for all 11 lignin phenols. Changing the amount of DOM in the reaction vessel for the oxidation (dissolved organic carbon between 22 and 367 mmol L−1), did not significantly affect the final lignin phenol composition. The new method was applied to seawater samples from the Kattegat and Davis Strait. The total concentration of dissolved lignin phenols measured in the two areas was between 4.3–10.1 and 2.1–3.2 nmol L−1, respectively, which is within the range found by other studies. Comparison with a different oxidation approach and detection method (GC‐MS) gave similar results and underline the potential of LC and absorbance detection for analysis of dissolved lignin with our proposed method.

Funder

Danmarks Frie Forskningsfond

National Science Foundation

Publisher

Wiley

Subject

Ocean Engineering

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