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High Iron Requirements for Growth in the Nuisance Alga Gonyostomum semen (Raphidophyceae)

Münzner, Karla LU ; Gollnisch, Raphael LU ; Rengefors, Karin LU ; Koreiviene, Judita and Lindström, Eva S. (2021) In Journal of Phycology 57(4). p.1309-1322
Abstract

The bloom-forming freshwater alga Gonyostomum semen is associated with acidic, mesotrophic brown water lakes in boreal regions. However, researchers have been unable to conclusively link G. semen abundance and bloom formation to typical brown water lake traits, that is, high water color and DOC (dissolved organic carbon) concentrations. Iron is a main driver of water color in boreal lakes, and a recent study of lake monitoring data indicated a connection between lakes with high G. semen abundance and iron concentrations >200 µg · L−1. Thus, iron may be the missing link in explaining G. semen abundance and growth dynamics. We experimentally assessed the effects of different iron concentrations above or below 200 µg ·... (More)

The bloom-forming freshwater alga Gonyostomum semen is associated with acidic, mesotrophic brown water lakes in boreal regions. However, researchers have been unable to conclusively link G. semen abundance and bloom formation to typical brown water lake traits, that is, high water color and DOC (dissolved organic carbon) concentrations. Iron is a main driver of water color in boreal lakes, and a recent study of lake monitoring data indicated a connection between lakes with high G. semen abundance and iron concentrations >200 µg · L−1. Thus, iron may be the missing link in explaining G. semen abundance and growth dynamics. We experimentally assessed the effects of different iron concentrations above or below 200 µg · L−1 on the growth of G. semen batch monocultures. Iron concentrations <200 µg · L−1 limited G. semen growth, while iron concentrations >200 µg · L−1 did not. Moreover, the iron concentration of the medium required for growth was higher than for other common phytoplankton (Microcystis botrys and Chlamydomonas sp.) included in the experiment. These results indicate that G. semen requires high levels of iron in the lake environment. Consequently, this and previous findings using lake monitoring data support the hypothesis that high concentrations of iron favor the formation of high-density G. semen blooms in boreal brown water lakes. As lakes get browner in a changing climate, monitoring iron levels could be a potential tool to identify lakes at risk for G. semen blooms, especially among lakes that provide ecosystem services to society.

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author
; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
abundance, algal blooms, freshwater, Gonyostomum semen, growth, iron, lake, raphidophyte, requirement
in
Journal of Phycology
volume
57
issue
4
pages
1309 - 1322
publisher
Wiley-Blackwell
external identifiers
  • scopus:85105723838
  • pmid:33749827
ISSN
0022-3646
DOI
10.1111/jpy.13170
language
English
LU publication?
yes
id
6e1109f3-b7bc-4fb9-8624-9f64a68d33a3
date added to LUP
2021-06-07 11:47:32
date last changed
2024-06-16 14:41:15
@article{6e1109f3-b7bc-4fb9-8624-9f64a68d33a3,
  abstract     = {{<p>The bloom-forming freshwater alga Gonyostomum semen is associated with acidic, mesotrophic brown water lakes in boreal regions. However, researchers have been unable to conclusively link G. semen abundance and bloom formation to typical brown water lake traits, that is, high water color and DOC (dissolved organic carbon) concentrations. Iron is a main driver of water color in boreal lakes, and a recent study of lake monitoring data indicated a connection between lakes with high G. semen abundance and iron concentrations &gt;200 µg · L<sup>−1</sup>. Thus, iron may be the missing link in explaining G. semen abundance and growth dynamics. We experimentally assessed the effects of different iron concentrations above or below 200 µg · L<sup>−1</sup> on the growth of G. semen batch monocultures. Iron concentrations &lt;200 µg · L<sup>−1</sup> limited G. semen growth, while iron concentrations &gt;200 µg · L<sup>−1</sup> did not. Moreover, the iron concentration of the medium required for growth was higher than for other common phytoplankton (Microcystis botrys and Chlamydomonas sp.) included in the experiment. These results indicate that G. semen requires high levels of iron in the lake environment. Consequently, this and previous findings using lake monitoring data support the hypothesis that high concentrations of iron favor the formation of high-density G. semen blooms in boreal brown water lakes. As lakes get browner in a changing climate, monitoring iron levels could be a potential tool to identify lakes at risk for G. semen blooms, especially among lakes that provide ecosystem services to society.</p>}},
  author       = {{Münzner, Karla and Gollnisch, Raphael and Rengefors, Karin and Koreiviene, Judita and Lindström, Eva S.}},
  issn         = {{0022-3646}},
  keywords     = {{abundance; algal blooms; freshwater; Gonyostomum semen; growth; iron; lake; raphidophyte; requirement}},
  language     = {{eng}},
  month        = {{03}},
  number       = {{4}},
  pages        = {{1309--1322}},
  publisher    = {{Wiley-Blackwell}},
  series       = {{Journal of Phycology}},
  title        = {{High Iron Requirements for Growth in the Nuisance Alga Gonyostomum semen (Raphidophyceae)}},
  url          = {{http://dx.doi.org/10.1111/jpy.13170}},
  doi          = {{10.1111/jpy.13170}},
  volume       = {{57}},
  year         = {{2021}},
}