Changes to Modern and Aged Dissolved Organic Matter Inputs into the Kolyma River

Climate change is radically altering the Arctic. These alterations are expected to have immense and cascading implications on the carbon cycling of the region. In particular, our interest lies in the Kolyma River (KR) as it is the largest Arctic watershed entirely lined below with continuous organic...

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Other Authors: Rogers, Jennifer A. (author), Spencer, Robert G. M. (professor directing thesis), Chanton, Jeffrey P. (committee member), Mason, Olivia Underwood (committee member), Florida State University (degree granting institution), College of Arts and Sciences (degree granting college), Department of Earth, Ocean and Atmospheric Science (degree granting department)
Format: Master Thesis
Language:English
Published: Florida State University 2020
Subjects:
Online Access:https://diginole.lib.fsu.edu/islandora/object/fsu%3A777106/datastream/TN/view/Changes%20to%20Modern%20and%20Aged%20Dissolved%20Organic%20Matter%20Inputs%20into%20the%20Kolyma%20%20%20%20%20%20%20%20%20%20River.jpg
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Summary:Climate change is radically altering the Arctic. These alterations are expected to have immense and cascading implications on the carbon cycling of the region. In particular, our interest lies in the Kolyma River (KR) as it is the largest Arctic watershed entirely lined below with continuous organic-rich permafrost and is equally subject to shrubification. On one hand, it appears that permafrost is predicted to thaw with the potential to release large quantities of ancient organic carbon. On the other hand, nutrient liberation, increased moisture, and warming allow vegetation to colonize more effectively increasing modern sources of organic carbon. The decomposition of permafrost soil organic matter has been postulated to release permafrost-derived dissolved organic matter (DOM) into stream and riverine networks that is exceptionally old and aliphatic in nature. We aimed to improve the evaluation of permafrost dissolved organic carbon (DOC) inputs and fate by implementing ramped pyrolysis oxidation (RPO) and isotopic analysis coupled with ultrahigh-resolution mass spectrometry. Bioincubation analyses were fundamental in replicating the transformations that occur to DOM during riverine transport. We found that highly aliphatic molecular formulae identified in undegraded permafrost DOM contrasts with the comparatively aliphatic-poor composition of KR DOM, suggesting that limited quantities of undegraded permafrost DOM are present in the KR. RPO radiocarbon analysis of KR DOC fractions exhibited no “hidden” aged component indicative of permafrost influence. Consistent with radiocarbon results, thermostability analysis indicated limited biodegraded permafrost DOC in the KR. A mixing model allowed us to estimate permafrost inputs to the KR DOC. Ultimately, our findings highlight that export of modern terrestrial DOM is currently overwhelming any permafrost DOM signature in the KR. This emphasizes the important ramifications of vegetation changes on the composition and biolability of transported DOM in this region ...