Measuring the influence of environmental conditions on dissolved organic matter biodegradability and optical properties: a combined field and laboratory study


TitleMeasuring the influence of environmental conditions on dissolved organic matter biodegradability and optical properties: a combined field and laboratory study
Publication TypeJournal Article
Year of Publication2020
AuthorsLandsman-Gerjoi, M, Perdrial, JN, Lancellotti, B, Seybold, EC, Schroth, AW, Adair, EC, Wymore, A
JournalBiogeochemistry
Volume149
Start Page37
Pagination37-52
Date Published2020/04
Abstract

Fluorescence spectroscopy is a common tool to assess optical dissolved organic matter (DOM) and a number of characteristics, including DOM biodegradability, have been inferred from these analyses. However, recent findings on soil and DOM dynamics emphasize the importance of ecosystem-scale factors, such as physical separation of substrate from soil microbial communities and soil physiochemical cycles driving DOM stability. We apply this principle to soil derived DOM and hypothesize that optical properties can only supply information on biodegradability when evaluated in the larger ecosystem because substrate composition and the activity/abundance of the microbial community ultimately drive DOM degradation. To evaluate biodegradability in this context, we assessed aqueous soil extracts for water extractable organic carbon (WEOC) content, biodegradability, microbial biomass and DOM characteristics using fluorescence spectroscopy across a range of environmental conditions (covariant with season and land use) in northern Vermont, USA. Our results indicate that changes in environmental conditions affect composition, quantity, and biodegradability of DOM. WEOC concentrations were highest in the fall and lowest in the summer, while no significant differences were found between land covers; however, DOM biodegradability was significantly higher in the agricultural site across seasons. Despite a shift in utilized substrate from less aromatic DOM in summer to more aromatic DOM in winter, biodegradability was similar for all seasons. The only exception was cold temperature incubations where microbial activity was depressed, and processing was slowed. These results provide examples on how fluorescence based metrics can be combined with context relevant environmental parameters to evaluate bioavailability in the context of the larger ecosystem.

URLhttps://link.springer.com/article/10.1007/s10533-020-00664-9
DOI10.1007/s10533-020-00664-9
Refereed DesignationRefereed
Status: 
Published
Attributable Grant: 
BREE
Grant Year: 
Year5 StatusChanged
Acknowledged VT EPSCoR: 
Ack-Yes