Publication Date:
2022-05-25
Description:
© The Author(s), 2015. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Biogeosciences 12 (2015): 4841-4860, doi:10.5194/bg-12-4841-2015.
Description:
Hydrolyzable organic carbon (OC) comprises a significant component of sedimentary particulate matter transferred from land into oceans via rivers. Its abundance and nature are however not well studied in Arctic river systems, and yet may represent an important pool of carbon whose fate remains unclear in the context of mobilization and related processes associated with a changing climate. Here, we examine the molecular composition and source of hydrolyzable compounds isolated from sedimentary particles derived from nine rivers across the pan-Arctic. Bound fatty acids (b-FAs), hydroxy FAs, n-alkane-α,ω-dioic acids (DAs) and phenols were the major components released upon hydrolysis of these sediments. Among them, b-FAs received considerable inputs from bacterial and/or algal sources, whereas ω-hydroxy FAs, mid-chain substituted acids, DAs, and hydrolyzable phenols were mainly derived from cutin and suberin of higher plants. We further compared the distribution and fate of suberin- and cutin-derived compounds with those of other terrestrial biomarkers (plant wax lipids and lignin phenols) from the same Arctic river sedimentary particles and conducted a benchmark assessment of several biomarker-based indicators of OC source and extent of degradation. While suberin-specific biomarkers were positively correlated with plant-derived high-molecular-weight (HMW) FAs, lignin phenols were correlated with cutin-derived compounds. These correlations suggest that, similar to leaf-derived cutin, lignin was mainly derived from litter and surface soil horizons, whereas suberin and HMW FAs incorporated significant inputs from belowground sources (roots and deeper soil). This conclusion is supported by the negative correlation between lignin phenols and the ratio of suberin-to-cutin biomarkers. Furthermore, the molecular composition of investigated biomarkers differed between Eurasian and North American Arctic rivers: while lignin dominated in the terrestrial OC of Eurasian river sediments, hydrolyzable OC represented a much larger fraction in the sedimentary particles from Colville River. Hence, studies exclusively focusing on either plant wax lipids or lignin phenols will not be able to fully unravel the mobilization and fate of bound OC in Arctic rivers. More comprehensive, multi-molecular investigations are needed to better constrain the land–ocean transfer of carbon in the changing Arctic, including further research on the degradation and transfer of both free and bound components in Arctic river sediments.
Description:
X. Feng acknowledges support from the
Chinese National Key Development Program for Basic Research
(2014CB954003, 2015CB954201). The ISSS program is supported
by the Knut and Alice Wallenberg Foundation, headquarters of the
Russian Academy of Sciences, the Swedish Research Council, the
US National Oceanic and Atmospheric Administration, the Russian
Foundation of Basic Research (#13-05-12028, 13-05-12041), the
Swedish Polar Research Secretariat and the Nordic Council of Ministers
(Arctic Co-Op and TRI-DEFROST programs). Collection
of the Mackenzie sediment samples was supported by Fisheries
and Oceans Canada and Indian and Northern Affairs Canada as
part of the NOGAP B.6 project. Ö. Gustafsson acknowledges
an Academy Research Fellow grant from the Swedish Royal
Academy of Sciences. I. P. Semiletov and O. V. Dudarev thank
the Government of the Russian Federation (#2013-220-04-157)
for support as well as A. I. Khanchuk personally. T. I. Eglinton acknowledges support from Swiss National Science foundation
(SNF) grant no. 200021_140850, and grants OCE-9907129,
OCE-0137005, and OCE-0526268 from the US National Science
Foundation (NSF), the Stanley Watson Chair for Excellence in
Oceanography, and ETH Zurich. J. E. Vonk is thankful for support
from NWO Rubicon (#825.10.022) and Veni (#863.12.004).
B. E. van Dongen is thankful for support from the UK NERC
(NE/I024798/1). R. M. Holmes acknowledges support from NSF
0436118, NSF 0732555, and NSF 1107774. X. Feng thanks WHOI
for a postdoctoral scholar fellowship and for postdoctoral support
from ETH Zurich.
Repository Name:
Woods Hole Open Access Server
Type:
Article
Format:
application/pdf
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