Spatial and biological oceanographic insights into the massive fish-killing bloom of the haptophyte Chrysochromulina leadbeateri in northern Norway
Spatial and biological oceanographic insights into the massive fish-killing bloom of the haptophyte Chrysochromulina leadbeateri in northern Norway
A bloom of the fish-killing haptophyte Chrysochromulina leadbeateri in northern Norway during May and June 2019 was the most harmful algal event ever recorded in the region, causing massive mortalities of farmed salmon. Accordingly, oceanographic and biodiversity aspects of the bloom were studied in unprecedented detail, based on metabarcoding and physico-chemical and biotic factors related with the dynamics and distribution of the bloom. Light- and electron-microscopical observations of nanoplankton samples from diverse locations confirmed that C. leadbeateri was dominant in the bloom and the primary cause of associated fish mortalities. Cell counts by light microscopy and flow cytometry were obtained throughout the regional bloom within and adjacent to five fjord systems. Metabarcoding sequences of the V4 region of the 18S rRNA gene from field material collected during the bloom and a cultured isolate from offshore of Tromsøy island confirmed the species identification. Sequences from three genetic markers (18S, 28S rRNA gene and ITS region) verified the close if not identical genetic similarity to C. leadbeateri from a previous massive fish-killing bloom in 1991 in northern Norway. The distribution and cell abundance of C. leadbeateri and related Chrysochromulina species in the recent incident were tracked by integrating observations from metabarcoding sequences of the V4 region of the 18S rRNA gene. Metabarcoding revealed at least 14 distinct Chrysochromulina variants, including putative cryptic species. C. leadbeateri was by far the most abundant of these species, but with high intraspecific genetic variability. Highest cell abundance of up to 2.7 × 107 cells L − 1 of C. leadbeateri was found in Balsfjorden; the high cell densities were associated with stratification near the pycnocline (at ca. 12 m depth) within the fjord. The cell abundance of C. leadbeateri showed positive correlations with temperature, negative correlation with salinity, and a slightly positive correlation with ambient phosphate and nitrate concentrations. The spatio-temporal succession of the C. leadbeateri bloom suggests independent initiation from existing pre-bloom populations in local zones, perhaps sustained and supplemented over time by northeastward advection of the bloom from the fjords.
Fish kills, Haptophyte diversity, Harmful Algal Bloom, Ichthyotoxic algae, Marine microeukaryotes, Metabarcoding, Mixotrophy, Salmon aquaculture
John, Uwe
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Šupraha, Luka
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Gran-Stadniczeñko, Sandra
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Bunse, Carina
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Cembella, Allan
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Eikrem, Wenche
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Janouškovec, Jan
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Klemm, Kerstin
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Kühne, Nancy
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Naustvoll, Lars
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Voss, Daniela
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Wohlrab, Sylke
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Edvardsen, Bente
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1 October 2022
John, Uwe
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Šupraha, Luka
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Gran-Stadniczeñko, Sandra
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Bunse, Carina
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Cembella, Allan
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Eikrem, Wenche
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Janouškovec, Jan
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Klemm, Kerstin
eb74f3f3-39d7-4afc-9aef-1b0c7eddff4d
Kühne, Nancy
68eb4f2c-40ef-45a8-a998-2807fa6f82a9
Naustvoll, Lars
66d7be86-a39e-4242-9194-84942516b478
Voss, Daniela
66ac86f2-ee43-409d-afbe-f8ce3dbb437c
Wohlrab, Sylke
aeaac754-88a5-4fed-8135-7f8946200e27
Edvardsen, Bente
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John, Uwe, Šupraha, Luka, Gran-Stadniczeñko, Sandra, Bunse, Carina, Cembella, Allan, Eikrem, Wenche, Janouškovec, Jan, Klemm, Kerstin, Kühne, Nancy, Naustvoll, Lars, Voss, Daniela, Wohlrab, Sylke and Edvardsen, Bente
(2022)
Spatial and biological oceanographic insights into the massive fish-killing bloom of the haptophyte Chrysochromulina leadbeateri in northern Norway.
Harmful Algae, 118, [102287].
(doi:10.1016/j.hal.2022.102287).
Abstract
A bloom of the fish-killing haptophyte Chrysochromulina leadbeateri in northern Norway during May and June 2019 was the most harmful algal event ever recorded in the region, causing massive mortalities of farmed salmon. Accordingly, oceanographic and biodiversity aspects of the bloom were studied in unprecedented detail, based on metabarcoding and physico-chemical and biotic factors related with the dynamics and distribution of the bloom. Light- and electron-microscopical observations of nanoplankton samples from diverse locations confirmed that C. leadbeateri was dominant in the bloom and the primary cause of associated fish mortalities. Cell counts by light microscopy and flow cytometry were obtained throughout the regional bloom within and adjacent to five fjord systems. Metabarcoding sequences of the V4 region of the 18S rRNA gene from field material collected during the bloom and a cultured isolate from offshore of Tromsøy island confirmed the species identification. Sequences from three genetic markers (18S, 28S rRNA gene and ITS region) verified the close if not identical genetic similarity to C. leadbeateri from a previous massive fish-killing bloom in 1991 in northern Norway. The distribution and cell abundance of C. leadbeateri and related Chrysochromulina species in the recent incident were tracked by integrating observations from metabarcoding sequences of the V4 region of the 18S rRNA gene. Metabarcoding revealed at least 14 distinct Chrysochromulina variants, including putative cryptic species. C. leadbeateri was by far the most abundant of these species, but with high intraspecific genetic variability. Highest cell abundance of up to 2.7 × 107 cells L − 1 of C. leadbeateri was found in Balsfjorden; the high cell densities were associated with stratification near the pycnocline (at ca. 12 m depth) within the fjord. The cell abundance of C. leadbeateri showed positive correlations with temperature, negative correlation with salinity, and a slightly positive correlation with ambient phosphate and nitrate concentrations. The spatio-temporal succession of the C. leadbeateri bloom suggests independent initiation from existing pre-bloom populations in local zones, perhaps sustained and supplemented over time by northeastward advection of the bloom from the fjords.
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More information
Accepted/In Press date: 3 July 2022
Published date: 1 October 2022
Additional Information:
Funding Information:
UJ and AC received funding within the Helmholtz research program “Changing Earth, Sustaining our Future” (Sub-topic 6.2 Adaptation of marine life) of the Alfred-Wegener-Institut, Helmholtz Zentrum für Polar- und Meeresforschung, Germany. KK, AC, and UJ were also supported as members of the COCliME consortium, which is part of ERA4CS, an ERA-NET initiated by JPI Climate, and funded by EPA (IE), ANR (FR), DLR/BMBF (DE), UEFISCDI (RO), RCN (NO) and FORMAS (SE), with co-funding by the European Union (Grant no. 690462). The participation of LN of the Institute of Marine Research (IMR), Norway was financed by CoCliME and the Norwegian Ministry of Trade, Industry and Fisheries. CB, SW were funded by the Ministry for Science and Culture of Lower Saxony and the Volkswagen Foundation through the “Niedersächsisches Vorab” program (Grant no. ZN3285). LS, WE and BE were supported by the Research Council of Norway (RCN) via the project TaxMArc (Project no. 268286/E40. UJ, SG, JJ and BE were supported by the RCN and EU contribution to the project PROMISE (Project no. 282936/O70).
Funding Information:
UJ and AC received funding within the Helmholtz research program “Changing Earth, Sustaining our Future” (Sub-topic 6.2 Adaptation of marine life) of the Alfred-Wegener-Institut, Helmholtz Zentrum für Polar- und Meeresforschung, Germany. KK, AC, and UJ were also supported as members of the COCliME consortium, which is part of ERA4CS, an ERA-NET initiated by JPI Climate, and funded by EPA (IE), ANR (FR), DLR/BMBF (DE), UEFISCDI (RO), RCN (NO) and FORMAS (SE), with co-funding by the European Union (Grant no. 690462 ). The participation of LN of the Institute of Marine Research (IMR), Norway was financed by CoCliME and the Norwegian Ministry of Trade, Industry and Fisheries. CB, SW were funded by the Ministry for Science and Culture of Lower Saxony and the Volkswagen Foundation through the “Niedersächsisches Vorab” program (Grant no. ZN3285). LS, WE and BE were supported by the Research Council of Norway (RCN) via the project TaxMArc (Project no. 268286/E40 . UJ, SG, JJ and BE were supported by the RCN and EU contribution to the project PROMISE (Project no. 282936/O70 ).
Publisher Copyright:
© 2022
Keywords:
Fish kills, Haptophyte diversity, Harmful Algal Bloom, Ichthyotoxic algae, Marine microeukaryotes, Metabarcoding, Mixotrophy, Salmon aquaculture
Identifiers
Local EPrints ID: 485629
URI: http://eprints.soton.ac.uk/id/eprint/485629
ISSN: 1568-9883
PURE UUID: b61d868a-1781-4e42-adff-fcf61be97e2d
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Date deposited: 12 Dec 2023 17:35
Last modified: 18 Mar 2024 04:04
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Contributors
Author:
Uwe John
Author:
Luka Šupraha
Author:
Sandra Gran-Stadniczeñko
Author:
Carina Bunse
Author:
Allan Cembella
Author:
Wenche Eikrem
Author:
Jan Janouškovec
Author:
Kerstin Klemm
Author:
Nancy Kühne
Author:
Lars Naustvoll
Author:
Daniela Voss
Author:
Sylke Wohlrab
Author:
Bente Edvardsen
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