Patchy and Pink: Dynamics of a Chlainomonas sp. (Chlamydomonadales, chlorophyta) algal bloom on Bagley Lake, North Cascades, WA

Abstract Snow algal blooms frequently occur throughout alpine and polar environments during spring and summer months; however, our understanding of bloom dynamics is limited. We tracked a recurrent bloom of Chlainomonas sp. on Upper Bagley Lake in the North Cascade Mountains, USA, to assess the spat...

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Veröffentlicht in:	FEMS microbiology ecology 2023-10, Vol.99 (11)
Hauptverfasser:	van Hees, Dan, Hanneman, Clare, Paradis, Sophie, Camara, A G, Matsumoto, Maya, Hamilton, Trinity, Krueger-Hadfield, Stacy A, Kodner, Robin B
Format:	Artikel
Sprache:	eng
Schlagworte:	Algae Algal blooms Aquatic ecosystems Aquatic environment Biomass Chlainomonas Community composition Composition Environmental stress Eutrophication Lakes Mountains Photosystem II Polar environments
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creator	van Hees, Dan Hanneman, Clare Paradis, Sophie Camara, A G Matsumoto, Maya Hamilton, Trinity Krueger-Hadfield, Stacy A Kodner, Robin B
description	Abstract Snow algal blooms frequently occur throughout alpine and polar environments during spring and summer months; however, our understanding of bloom dynamics is limited. We tracked a recurrent bloom of Chlainomonas sp. on Upper Bagley Lake in the North Cascade Mountains, USA, to assess the spatiotemporal dynamics in bloom color intensity, community photophysiology, and community composition over eight weeks. We found that the algae biomass had a dynamic patchy distribution over space and time, which was decoupled from changes in community composition and life-cycle progress averaged across the bloom. The proportional representation of Chlainomonas sp. remained consistent throughout the study while the overall community composition shows a progression through the bloom. We found that community photophysiology, measured by the maximum quantum yield of PSII (Fv/Fm), decreased on average throughout the bloom. These findings suggest that the Chlainomonas sp. community on Bagley Lake is not simply an algal bloom with rapid increase in biomass followed by a population crash, as is often seen in aquatic systems, though there is a physiological trajectory and sensitivity to environmental stress. These results contribute to our understanding of the biology of Chlainomonas sp. and its response to environmental stress, specifically an extreme warming event. A weekly charactrization of an 8-week bloom of the snow algae, Chlainomonas sp., in a snow-on-lake progressed in asynchronous patches that showed a stress response via photophysiology measurments to an extreme heat event.
doi_str_mv	10.1093/femsec/fiad106
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(Chlamydomonadales, chlorophyta) algal bloom on Bagley Lake, North Cascades, WA</title><source>Oxford Journals Open Access Collection</source><source>EZB-FREE-00999 freely available EZB journals</source><source>PubMed Central</source><creator>van Hees, Dan ; Hanneman, Clare ; Paradis, Sophie ; Camara, A G ; Matsumoto, Maya ; Hamilton, Trinity ; Krueger-Hadfield, Stacy A ; Kodner, Robin B</creator><creatorcontrib>van Hees, Dan ; Hanneman, Clare ; Paradis, Sophie ; Camara, A G ; Matsumoto, Maya ; Hamilton, Trinity ; Krueger-Hadfield, Stacy A ; Kodner, Robin B</creatorcontrib><description>Abstract Snow algal blooms frequently occur throughout alpine and polar environments during spring and summer months; however, our understanding of bloom dynamics is limited. We tracked a recurrent bloom of Chlainomonas sp. on Upper Bagley Lake in the North Cascade Mountains, USA, to assess the spatiotemporal dynamics in bloom color intensity, community photophysiology, and community composition over eight weeks. We found that the algae biomass had a dynamic patchy distribution over space and time, which was decoupled from changes in community composition and life-cycle progress averaged across the bloom. The proportional representation of Chlainomonas sp. remained consistent throughout the study while the overall community composition shows a progression through the bloom. We found that community photophysiology, measured by the maximum quantum yield of PSII (Fv/Fm), decreased on average throughout the bloom. These findings suggest that the Chlainomonas sp. community on Bagley Lake is not simply an algal bloom with rapid increase in biomass followed by a population crash, as is often seen in aquatic systems, though there is a physiological trajectory and sensitivity to environmental stress. These results contribute to our understanding of the biology of Chlainomonas sp. and its response to environmental stress, specifically an extreme warming event. 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(Chlamydomonadales, chlorophyta) algal bloom on Bagley Lake, North Cascades, WA</title><title>FEMS microbiology ecology</title><description>Abstract Snow algal blooms frequently occur throughout alpine and polar environments during spring and summer months; however, our understanding of bloom dynamics is limited. We tracked a recurrent bloom of Chlainomonas sp. on Upper Bagley Lake in the North Cascade Mountains, USA, to assess the spatiotemporal dynamics in bloom color intensity, community photophysiology, and community composition over eight weeks. We found that the algae biomass had a dynamic patchy distribution over space and time, which was decoupled from changes in community composition and life-cycle progress averaged across the bloom. The proportional representation of Chlainomonas sp. remained consistent throughout the study while the overall community composition shows a progression through the bloom. We found that community photophysiology, measured by the maximum quantum yield of PSII (Fv/Fm), decreased on average throughout the bloom. These findings suggest that the Chlainomonas sp. community on Bagley Lake is not simply an algal bloom with rapid increase in biomass followed by a population crash, as is often seen in aquatic systems, though there is a physiological trajectory and sensitivity to environmental stress. These results contribute to our understanding of the biology of Chlainomonas sp. and its response to environmental stress, specifically an extreme warming event. 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(Chlamydomonadales, chlorophyta) algal bloom on Bagley Lake, North Cascades, WA</atitle><jtitle>FEMS microbiology ecology</jtitle><date>2023-10-17</date><risdate>2023</risdate><volume>99</volume><issue>11</issue><issn>1574-6941</issn><issn>0168-6496</issn><eissn>1574-6941</eissn><abstract>Abstract Snow algal blooms frequently occur throughout alpine and polar environments during spring and summer months; however, our understanding of bloom dynamics is limited. We tracked a recurrent bloom of Chlainomonas sp. on Upper Bagley Lake in the North Cascade Mountains, USA, to assess the spatiotemporal dynamics in bloom color intensity, community photophysiology, and community composition over eight weeks. We found that the algae biomass had a dynamic patchy distribution over space and time, which was decoupled from changes in community composition and life-cycle progress averaged across the bloom. The proportional representation of Chlainomonas sp. remained consistent throughout the study while the overall community composition shows a progression through the bloom. We found that community photophysiology, measured by the maximum quantum yield of PSII (Fv/Fm), decreased on average throughout the bloom. These findings suggest that the Chlainomonas sp. community on Bagley Lake is not simply an algal bloom with rapid increase in biomass followed by a population crash, as is often seen in aquatic systems, though there is a physiological trajectory and sensitivity to environmental stress. These results contribute to our understanding of the biology of Chlainomonas sp. and its response to environmental stress, specifically an extreme warming event. 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subjects	Algae Algal blooms Aquatic ecosystems Aquatic environment Biomass Chlainomonas Community composition Composition Environmental stress Eutrophication Lakes Mountains Photosystem II Polar environments
title	Patchy and Pink: Dynamics of a Chlainomonas sp. (Chlamydomonadales, chlorophyta) algal bloom on Bagley Lake, North Cascades, WA
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