Mercury in Sediment Core Samples From Deep Siberian Ice-Rich Permafrost

Rutkowski, Clara; Lenz, Josefine; Lang, Andreas; Wolter, Juliane; Mothes, Sybille; Reemtsma, Thorsten; Grosse, Guido; Ulrich, Mathias; Fuchs, Matthias; Schirrmeister, Lutz; Fedorov, Alexander N.; Grigoriev, Mikhail N.; Lantuit, Hugues; Strauß, Jens

doi:10.3389/feart.2021.718153

Cited by 5 publications

(1 citation statement)

References 93 publications

(146 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Thus, contaminants during the industrial period could be assumed to have a stronger effect on the lake ecosystem than natural Hg supply before increased anthropogenic activity (Huang et al, 2022). Studies on deep permafrost soils 435 in Siberia showed that average Hg concentrations of 9.7 μg kg −1 could be used as a baseline for natural Hg concentrations (Rutkowski et al, 2021). However, as Hg binds to lake organic carbon (Braaten et al, 2018), lake bioproductivity is likely increasing the mercury load within sediments, explaining the overall high concentrations in older sections.…”

Section: Correlation Between Carbon Diatoms and Mercury Accumulationmentioning

confidence: 99%

Diatom responses and geochemical feedbacks to environmental changes at Lake Rauchuagytgyn (Far East Russian Arctic)

Biskaborn

Forster²,

Pfalz³

et al. 2022

Preprint

Self Cite

View full text Add to dashboard Cite

Abstract. This study is based on multiproxy data gained from a 14C-dated 6.5 m long sediment core and a 210Pb-dated 23 cm short core retrieved from Lake Rauchuagytgyn in Chukotka, Arctic Russia. The main objectives are to reconstruct the environmental history and ecological development of the lake during the last 29k years and to investigate the main drivers behind bioproduction shifts. The methods comprise age-modeling and accumulation rate estimation, light-microscope diatom species analysis (74 samples), organic carbon, nitrogen, and mercury analysis. Diatoms have appeared in the lake since 21.8 cal ka BP and are dominated by planktonic Lindavia ocellata and L. cyclopuncta. Around the Pleistocene-Holocene boundary, other taxa including planktonic Aulacoseira and benthic fragilarioid (Staurosira) and achnanthoid species increase in their abundance. There is strong correlation between variations of diatom valve accumulation rates (DAR, mean 176.1 109 valves m2 a1), organic carbon accumulation rates (OCAR, mean 4.6 g m-2 a-1), and mercury accumulation rates (HgAR, mean 63.4 µg m-2 a-1). We discuss the environmental forcings behind shifts in diatom species and found responses of key-taxa to the cold glacial period, postglacial warming, Younger Dryas, and the Holocene Thermal Maximum. The short core data likely suggest recent change of the diatom community at 1907 CE related to human-induced environmental change. Significant correlation between DAR and OCAR in the Holocene interglacial indicates within-lake bioproduction as the main source of carbon deposited in the lake sediment. During both glacial and interglacial episodes HgAR is mainly bound to organic matter in the lake associated to biochemical substrate conditions. There were only ambiguous signs of increased HgAR during the industrialization period. We conclude that pristine Arctic lake systems can serve as CO2 and Hg sinks during warming climate driven by insolation-enhanced within-lake primary productivity. Maintaining intact natural lake ecosystems should therefore be of interest to future environmental policy.

show abstract

Section: Correlation Between Carbon Diatoms and Mercury Accumulationmentioning

confidence: 99%

Diatom responses and geochemical feedbacks to environmental changes at Lake Rauchuagytgyn (Far East Russian Arctic)

Biskaborn

Forster²,

Pfalz³

et al. 2022

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

Mercury geochemistry of marine sediments from the eastern Laptev Sea: The spatial distribution, levels, and contamination assessment

Kim¹,

Sattarova²,

Аксентов³

et al. 2023

Marine Pollution Bulletin

View full text Add to dashboard Cite

Mercury in Frozen Quaternary Sediments of the Spitsbergen Archipelago

Demidov,

Guzeva,

Nikulina

et al. 2023

Izv. Atmos. Ocean. Phys.

View full text Add to dashboard Cite

The climate warming-related degradation of permafrost can lead to the entry of climatically and biologically active substances, including mercury, into the biosphere; this work focuses on the analysis of the total content of mercury and organic carbon in 15 cores drilled in frozen Quaternary deposits of the Arctic Archipelago of Spitsbergen. The mercury content was additionally analyzed in bedrock samples, because the studied Quaternary deposits are formed by the weathering of the bedrock of the area. The results show that mercury concentrations in 157 studied samples of frozen Quaternary deposits range from 21 to 94 ng/g, with an average value of 40 ng/g. The expected correlation of mercury content with organic carbon content is not revealed. There are no trends in the accumulation of mercury depending on the lithological facies, geomorphological position, the time of sedimentation, or the freezing conditions. The average content of mercury in bedrock is relatively low, with a mean value of 8 ng/g. This means that the main source of mercury in frozen Quaternary deposits is not bedrock, but the formation of organic matter complexes or sorption on clay particles. In terms of the ongoing discussion about mercury input from permafrost to ecosystems, the results obtained from boreholes can be considered preindustrial background values.

show abstract

Mercury in Sediment Core Samples From Deep Siberian Ice-Rich Permafrost

Cited by 5 publications

References 93 publications

Diatom responses and geochemical feedbacks to environmental changes at Lake Rauchuagytgyn (Far East Russian Arctic)

Diatom responses and geochemical feedbacks to environmental changes at Lake Rauchuagytgyn (Far East Russian Arctic)

Mercury geochemistry of marine sediments from the eastern Laptev Sea: The spatial distribution, levels, and contamination assessment

Mercury in Frozen Quaternary Sediments of the Spitsbergen Archipelago

Contact Info

Product

Resources

About