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Iron dynamics of boreal lakes inferred from iron speciation analysis of varved lake sediments

Björnerås, Caroline LU ; Ojala, Antti E.K. ; Hammarlund, Dan LU orcid ; Persson, Per LU and Kritzberg, Emma S. LU (2025) In Journal of Paleolimnology 73(5). p.403-418
Abstract

Iron (Fe) concentrations are increasing in lakes on a wide geographical scale, contributing to recent browning of lake waters. As available time series on lake-water Fe concentrations are relatively short, covering the past few decades only, varved lake sediments may provide extended and precisely dated records to study temporal Fe dynamics in lakes in response to environmental drivers, such as changes in catchment land use and atmospheric sulphur deposition. Here, we present and discuss temporal changes in Fe speciation and accumulation rates during the last three centuries as revealed by sub-annually resolved X-ray absorption spectroscopy analyses of varved sediments from three lakes in southern Finland. Iron speciation in sediments... (More)

Iron (Fe) concentrations are increasing in lakes on a wide geographical scale, contributing to recent browning of lake waters. As available time series on lake-water Fe concentrations are relatively short, covering the past few decades only, varved lake sediments may provide extended and precisely dated records to study temporal Fe dynamics in lakes in response to environmental drivers, such as changes in catchment land use and atmospheric sulphur deposition. Here, we present and discuss temporal changes in Fe speciation and accumulation rates during the last three centuries as revealed by sub-annually resolved X-ray absorption spectroscopy analyses of varved sediments from three lakes in southern Finland. Iron speciation in sediments is dominated by Fe-bearing silicate fractions in two of the lakes, while the third lake has contributions of organically complexed Fe and Fe-(oxy)hydroxides. Long-term changes in sediment Fe accumulation correspond with documented shifts in land use from agriculture to spruce forestry in the lake catchments, and in one of the lakes with water-level lowering. An overall poor correspondence between monitored aqueous Fe concentrations and sediment-inferred Fe accumulation rates is likely linked to the dominance in the sediments of particulate Fe phases that are not prevalent in suspended form in the water column. This suggests that sediment records are unsuitable for reconstructions of past lake-water Fe concentrations in these lakes. However, the study provides valuable insight into how major land-use changes in the past have affected both the supply and speciation of Fe accumulated in lake sediments.

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author
; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Iron biogeochemistry, Iron speciation, Micro X-ray fluorescence, Palaeolimnological reconstruction, X-ray absorption spectroscopy
in
Journal of Paleolimnology
volume
73
issue
5
pages
16 pages
publisher
Springer Science and Business Media B.V.
external identifiers
  • scopus:105008010721
ISSN
0921-2728
DOI
10.1007/s10933-025-00367-x
language
English
LU publication?
yes
additional info
Publisher Copyright: © The Author(s) 2025.
id
2bc85757-13c7-447a-83cd-5220057c2825
date added to LUP
2025-10-13 14:29:52
date last changed
2025-11-27 09:25:16
@article{2bc85757-13c7-447a-83cd-5220057c2825,
  abstract     = {{<p>Iron (Fe) concentrations are increasing in lakes on a wide geographical scale, contributing to recent browning of lake waters. As available time series on lake-water Fe concentrations are relatively short, covering the past few decades only, varved lake sediments may provide extended and precisely dated records to study temporal Fe dynamics in lakes in response to environmental drivers, such as changes in catchment land use and atmospheric sulphur deposition. Here, we present and discuss temporal changes in Fe speciation and accumulation rates during the last three centuries as revealed by sub-annually resolved X-ray absorption spectroscopy analyses of varved sediments from three lakes in southern Finland. Iron speciation in sediments is dominated by Fe-bearing silicate fractions in two of the lakes, while the third lake has contributions of organically complexed Fe and Fe-(oxy)hydroxides. Long-term changes in sediment Fe accumulation correspond with documented shifts in land use from agriculture to spruce forestry in the lake catchments, and in one of the lakes with water-level lowering. An overall poor correspondence between monitored aqueous Fe concentrations and sediment-inferred Fe accumulation rates is likely linked to the dominance in the sediments of particulate Fe phases that are not prevalent in suspended form in the water column. This suggests that sediment records are unsuitable for reconstructions of past lake-water Fe concentrations in these lakes. However, the study provides valuable insight into how major land-use changes in the past have affected both the supply and speciation of Fe accumulated in lake sediments.</p>}},
  author       = {{Björnerås, Caroline and Ojala, Antti E.K. and Hammarlund, Dan and Persson, Per and Kritzberg, Emma S.}},
  issn         = {{0921-2728}},
  keywords     = {{Iron biogeochemistry; Iron speciation; Micro X-ray fluorescence; Palaeolimnological reconstruction; X-ray absorption spectroscopy}},
  language     = {{eng}},
  number       = {{5}},
  pages        = {{403--418}},
  publisher    = {{Springer Science and Business Media B.V.}},
  series       = {{Journal of Paleolimnology}},
  title        = {{Iron dynamics of boreal lakes inferred from iron speciation analysis of varved lake sediments}},
  url          = {{http://dx.doi.org/10.1007/s10933-025-00367-x}},
  doi          = {{10.1007/s10933-025-00367-x}},
  volume       = {{73}},
  year         = {{2025}},
}