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Coupled dynamics of iron, manganese, and phosphorus in brackish coastal sediments populated by cable bacteria

Hermans, Martijn ; Astudillo Pascual, Marina ; Behrends, Thilo ; Lenstra, Wytze K. ; Conley, Daniel J. LU and Slomp, Caroline P. (2021) In Limnology and Oceanography 66(7). p.2611-2631
Abstract

Coastal waters worldwide suffer from increased eutrophication and seasonal bottom water hypoxia. Here, we assess the dynamics of iron (Fe), manganese (Mn), and phosphorus (P) in sediments of the eutrophic, brackish Gulf of Finland populated by cable bacteria. At sites where bottom waters are oxic in spring, surface enrichments of Fe and Mn oxides and high abundances of cable bacteria were observed in sediments upon sampling in early summer. At one site, Fe and P were enriched in a thin layer (~ 3 mm) just below the sediment–water interface. X-ray absorption near edge structure and micro X-ray fluorescence analyses indicate that two-thirds of the P in this layer was associated with poorly crystalline Fe oxides, with an additional... (More)

Coastal waters worldwide suffer from increased eutrophication and seasonal bottom water hypoxia. Here, we assess the dynamics of iron (Fe), manganese (Mn), and phosphorus (P) in sediments of the eutrophic, brackish Gulf of Finland populated by cable bacteria. At sites where bottom waters are oxic in spring, surface enrichments of Fe and Mn oxides and high abundances of cable bacteria were observed in sediments upon sampling in early summer. At one site, Fe and P were enriched in a thin layer (~ 3 mm) just below the sediment–water interface. X-ray absorption near edge structure and micro X-ray fluorescence analyses indicate that two-thirds of the P in this layer was associated with poorly crystalline Fe oxides, with an additional contribution of Mn(II) phosphates. The Fe enriched layer was directly overlain by a Mn oxide-rich surface layer (~ 2 mm). The Fe oxide layer was likely of diagenetic origin, formed through dissolution of Fe monosulfides and carbonates, potentially induced by cable bacteria in the preceding months when bottom waters were oxic. Most of the Mn oxides were likely deposited from the water column as part of a cycle of repeated deposition and remobilization. Further research is required to confirm whether cable bacteria activity in spring indeed promotes the formation of distinct layers enriched in Fe, Mn, and P minerals in Gulf of Finland sediments. The temporal variations in biogeochemical cycling in this seasonally hypoxic coastal system, potentially controlled by cable bacteria activity, have little impact on permanent sedimentary Fe, Mn, and P burial.

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author
; ; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
in
Limnology and Oceanography
volume
66
issue
7
pages
2611 - 2631
publisher
ASLO
external identifiers
  • scopus:85105141961
  • pmid:34413543
ISSN
1939-5590
DOI
10.1002/lno.11776
language
English
LU publication?
yes
id
e46cfaf2-387f-48e9-a06e-83376206a996
date added to LUP
2021-05-28 16:59:50
date last changed
2024-04-20 06:40:43
@article{e46cfaf2-387f-48e9-a06e-83376206a996,
  abstract     = {{<p>Coastal waters worldwide suffer from increased eutrophication and seasonal bottom water hypoxia. Here, we assess the dynamics of iron (Fe), manganese (Mn), and phosphorus (P) in sediments of the eutrophic, brackish Gulf of Finland populated by cable bacteria. At sites where bottom waters are oxic in spring, surface enrichments of Fe and Mn oxides and high abundances of cable bacteria were observed in sediments upon sampling in early summer. At one site, Fe and P were enriched in a thin layer (~ 3 mm) just below the sediment–water interface. X-ray absorption near edge structure and micro X-ray fluorescence analyses indicate that two-thirds of the P in this layer was associated with poorly crystalline Fe oxides, with an additional contribution of Mn(II) phosphates. The Fe enriched layer was directly overlain by a Mn oxide-rich surface layer (~ 2 mm). The Fe oxide layer was likely of diagenetic origin, formed through dissolution of Fe monosulfides and carbonates, potentially induced by cable bacteria in the preceding months when bottom waters were oxic. Most of the Mn oxides were likely deposited from the water column as part of a cycle of repeated deposition and remobilization. Further research is required to confirm whether cable bacteria activity in spring indeed promotes the formation of distinct layers enriched in Fe, Mn, and P minerals in Gulf of Finland sediments. The temporal variations in biogeochemical cycling in this seasonally hypoxic coastal system, potentially controlled by cable bacteria activity, have little impact on permanent sedimentary Fe, Mn, and P burial.</p>}},
  author       = {{Hermans, Martijn and Astudillo Pascual, Marina and Behrends, Thilo and Lenstra, Wytze K. and Conley, Daniel J. and Slomp, Caroline P.}},
  issn         = {{1939-5590}},
  language     = {{eng}},
  number       = {{7}},
  pages        = {{2611--2631}},
  publisher    = {{ASLO}},
  series       = {{Limnology and Oceanography}},
  title        = {{Coupled dynamics of iron, manganese, and phosphorus in brackish coastal sediments populated by cable bacteria}},
  url          = {{http://dx.doi.org/10.1002/lno.11776}},
  doi          = {{10.1002/lno.11776}},
  volume       = {{66}},
  year         = {{2021}},
}