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Differential Trends in Iron Concentrations of Boreal Streams Linked to Catchment Characteristics

Škerlep, M. ; Nehzati, S. LU ; Sponseller, R. A. ; Persson, P. LU ; Laudon, H. and Kritzberg, E. S. LU (2023) In Global Biogeochemical Cycles 37(3).
Abstract

Increasing iron (Fe) concentrations have been reported for freshwaters across northern Europe over the last decades. This increase, together with elevated concentrations of dissolved organic carbon (DOC), leads to browning of freshwaters, which affects aquatic organisms, ecosystem functioning, biogeochemical cycles, and brings challenges to drinking water production. However, how such increasing trends in stream Fe concentrations reflect the contribution of different catchment sources remains poorly resolved. Here, we explored how catchment characteristics, that is, mires and coniferous soils, regulate spatial and temporal patterns of Fe in a boreal stream network. For this, we determined Fe speciation in riparian and mire soils, and... (More)

Increasing iron (Fe) concentrations have been reported for freshwaters across northern Europe over the last decades. This increase, together with elevated concentrations of dissolved organic carbon (DOC), leads to browning of freshwaters, which affects aquatic organisms, ecosystem functioning, biogeochemical cycles, and brings challenges to drinking water production. However, how such increasing trends in stream Fe concentrations reflect the contribution of different catchment sources remains poorly resolved. Here, we explored how catchment characteristics, that is, mires and coniferous soils, regulate spatial and temporal patterns of Fe in a boreal stream network. For this, we determined Fe speciation in riparian and mire soils, and studied temporal Fe dynamics in soil-water and stream-water over a span of 18 years. Positive Fe trends were found in the solution of the riparian soil, while no long-term trend was observed in the mire. These differences were reflected in stream-water, where three headwater streams dominated by coniferous cover also displayed positive Fe trends, whereas the mire dominated stream showed no trend. Surprisingly, the majority of higher order streams showed declining Fe trends, despite long-term increases in DOC. In addition, we found that an extreme drought event led to a prolonged release of Fe and DOC from the riparian soils, that could have long-term effects on stream Fe concentrations. Our results show that riparian forest soils can be major contributors to ongoing increases in freshwater Fe concentrations and that drought can further promote the release of Fe from organic soils.

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author
; ; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
browning, catchment, iron, mire, riparian zone, stream
in
Global Biogeochemical Cycles
volume
37
issue
3
article number
e2022GB007484
publisher
American Geophysical Union (AGU)
external identifiers
  • scopus:85151066904
ISSN
0886-6236
DOI
10.1029/2022GB007484
language
English
LU publication?
yes
id
cb7b8dce-b979-4b74-b45b-ce7c93a4dff3
date added to LUP
2023-05-23 12:34:37
date last changed
2023-05-23 12:34:37
@article{cb7b8dce-b979-4b74-b45b-ce7c93a4dff3,
  abstract     = {{<p>Increasing iron (Fe) concentrations have been reported for freshwaters across northern Europe over the last decades. This increase, together with elevated concentrations of dissolved organic carbon (DOC), leads to browning of freshwaters, which affects aquatic organisms, ecosystem functioning, biogeochemical cycles, and brings challenges to drinking water production. However, how such increasing trends in stream Fe concentrations reflect the contribution of different catchment sources remains poorly resolved. Here, we explored how catchment characteristics, that is, mires and coniferous soils, regulate spatial and temporal patterns of Fe in a boreal stream network. For this, we determined Fe speciation in riparian and mire soils, and studied temporal Fe dynamics in soil-water and stream-water over a span of 18 years. Positive Fe trends were found in the solution of the riparian soil, while no long-term trend was observed in the mire. These differences were reflected in stream-water, where three headwater streams dominated by coniferous cover also displayed positive Fe trends, whereas the mire dominated stream showed no trend. Surprisingly, the majority of higher order streams showed declining Fe trends, despite long-term increases in DOC. In addition, we found that an extreme drought event led to a prolonged release of Fe and DOC from the riparian soils, that could have long-term effects on stream Fe concentrations. Our results show that riparian forest soils can be major contributors to ongoing increases in freshwater Fe concentrations and that drought can further promote the release of Fe from organic soils.</p>}},
  author       = {{Škerlep, M. and Nehzati, S. and Sponseller, R. A. and Persson, P. and Laudon, H. and Kritzberg, E. S.}},
  issn         = {{0886-6236}},
  keywords     = {{browning; catchment; iron; mire; riparian zone; stream}},
  language     = {{eng}},
  number       = {{3}},
  publisher    = {{American Geophysical Union (AGU)}},
  series       = {{Global Biogeochemical Cycles}},
  title        = {{Differential Trends in Iron Concentrations of Boreal Streams Linked to Catchment Characteristics}},
  url          = {{http://dx.doi.org/10.1029/2022GB007484}},
  doi          = {{10.1029/2022GB007484}},
  volume       = {{37}},
  year         = {{2023}},
}