Plant organic matter inputs exert a strong control on soil organic matter decomposition in a thawing permafrost peatland
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FINAL_STOTEN_Peatland plants ...
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Author
Wilson, Rachel MHough, Moira A
Verbeke, Brittany A
Hodgkins, Suzanne B
Tyson, Gene
Sullivan, Matthew B
Brodie, Eoin
Riley, William J
Woodcroft, Ben
McCalley, Carmody
Dominguez, Sky C
Crill, Patrick M
Varner, Ruth K
Frolking, Steve
Cooper, William T
Chanton, Jeff P
Saleska, Scott D
Rich, Virginia I
Tfaily, Malak M
Affiliation
University of Arizona, Department of Environmental ScienceIssue Date
2022-01-11
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Elsevier B.V.Citation
Wilson, R. M., Hough, M. A., Verbeke, B. A., Hodgkins, S. B., Tyson, G., Sullivan, M. B., Brodie, E., Riley, W. J., Woodcroft, B., McCalley, C., Dominguez, S. C., Crill, P. M., Varner, R. K., Frolking, S., Cooper, W. T., Chanton, J. P., Saleska, S. D., Rich, V. I., Tfaily, M. M., & IsoGenie Coordinators. (2022). Plant organic matter inputs exert a strong control on soil organic matter decomposition in a thawing permafrost peatland. Science of the Total Environment.Journal
Science of the total environmentRights
Copyright © 2021. Published by Elsevier B.V.Collection Information
This item from the UA Faculty Publications collection is made available by the University of Arizona with support from the University of Arizona Libraries. If you have questions, please contact us at repository@u.library.arizona.edu.Abstract
Peatlands are climate critical carbon (C) reservoirs that could become a C source under continued warming. A strong relationship between plant tissue chemistry and the soil organic matter (SOM) that fuels C gas emissions is inferred, but rarely examined at the molecular level. Here we compared Fourier transform infrared (FT-IR) spectroscopy measurements of solid phase functionalities in plants and SOM to ultra-high-resolution mass spectrometric analyses of plant and SOM water extracts across a palsa-bog-fen thaw and moisture gradient in an Arctic peatland. From these analyses we calculated the C oxidation state (NOSC), a measure which can be used to assess organic matter quality. Palsa plant extracts had the highest NOSC, indicating high quality, whereas extracts of Sphagnum, which dominated the bog, had the lowest NOSC. The percentage of plant compounds that are less bioavailable and accumulate in the peat, increases from palsa (25%) to fen (41%) to bog (47%), reflecting the pattern of percent Sphagnum cover. The pattern of NOSC in the plant extracts was consistent with the high number of consumed compounds in the palsa and low number of consumed compounds in the bog. However, in the FT-IR analysis of the solid phase bog peat, carbohydrate content was high implying high quality SOM. We explain this discrepancy as the result of low solubilization of bog SOM facilitated by the low pH in the bog which makes the solid phase carbohydrates less available to microbial decomposition. Plant-associated condensed aromatics, tannins, and lignin-like compounds declined in the unsaturated palsa peat indicating decomposition, but lignin-like compounds accumulated in the bog and fen peat where decomposition was presumably inhibited by the anaerobic conditions. A molecular-level comparison of the aboveground C sources and peat SOM demonstrates that climate-associated vegetation shifts in peatlands are important controls on the mechanisms underlying changing C gas emissions.Note
24 month embargo; available online: 11 January 2022EISSN
1879-1026PubMed ID
35031367Version
Final accepted manuscriptae974a485f413a2113503eed53cd6c53
10.1016/j.scitotenv.2021.152757
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