Light and nutrient effects on microbial communities collected during spring and summer in the Beaufort Sea

15 pages, 7 figures, 3 tables Between autumn 2003 and summer 2004, the icebreaker CCGS ‘Amundsen’ occupied a station in Franklin Bay, Beaufort Sea. Two microcosm experiments were carried out in spring, while the water column was covered by sea ice, to test whether phytoplankton assemblages sampled f...

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Published in:Aquatic Microbial Ecology
Main Authors: Estrada, Marta, Bayer Giraldi, Maddalena, Felipe, Jordi, Marrasé, Cèlia, Sala, M. Montserrat, Vidal, Montserrat
Format: Article in Journal/Newspaper
Language:English
Published: Inter Research 2009
Subjects:
Phytoplankton
Protists
Nutrients
Stoichiometry
Light response
Sea ice
Beaufort Sea
Arctic
Canada
Franklin Bay
Online Access:http://hdl.handle.net/10261/15742
https://doi.org/10.3354/ame01268
id ftcsic:oai:digital.csic.es:10261/15742
record_format openpolar
spelling ftcsic:oai:digital.csic.es:10261/15742 2024-02-11T10:01:09+01:00 Light and nutrient effects on microbial communities collected during spring and summer in the Beaufort Sea Estrada, Marta Bayer Giraldi, Maddalena Felipe, Jordi Marrasé, Cèlia Sala, M. Montserrat Vidal, Montserrat 2009-02-24 329846 bytes application/pdf http://hdl.handle.net/10261/15742 https://doi.org/10.3354/ame01268 en eng Inter Research https://doi.org/10.3354/ame01268 Aquatic Microbial Ecology 54(3): 217-231 (2009) 0948-3055 http://hdl.handle.net/10261/15742 doi:10.3354/ame01268 open Phytoplankton Protists Nutrients Stoichiometry Light response Sea ice Beaufort Sea Arctic artículo http://purl.org/coar/resource_type/c_6501 2009 ftcsic https://doi.org/10.3354/ame01268 2024-01-16T09:23:09Z 15 pages, 7 figures, 3 tables Between autumn 2003 and summer 2004, the icebreaker CCGS ‘Amundsen’ occupied a station in Franklin Bay, Beaufort Sea. Two microcosm experiments were carried out in spring, while the water column was covered by sea ice, to test whether phytoplankton assemblages sampled from ice-covered (spring) surface waters would be able to bloom when exposed to increased light and to what extent this bloom would be limited by light or nutrients. Two additional experiments were carried out during a sea-ice free period in summer. For the spring experiments (April 2004), surface water collected through an ice hole was distributed into 10 l Nalgene bottles and subjected to different photosynthetically available radiation (PAR; 5 to 60 μmol photons m–2 s–1) and nutrient addition treatments. A similar setup was repeated in July and August 2004. In the spring experiments, chlorophyll a (chl a) concentration showed an initial decline, probably reflecting a combination of autotrophic cell losses and photoacclimation effects. After about 2 wk, chl a started to increase exponentially at PAR above 10 μmol photons m–2 s–1, due to the proliferation of autotrophic nanoflagellates. In summer, chl a increased immediately after enclosure, mainly due to diatom (Thalassiosira/Porosira) growth. In spring, nutrient addition had no effect on the net rate of chl a accumulation, while phytoplankton increased faster and reached higher biomass in the nutrient-amended bottles in summer. The relationships between nutrient consumption and production of chl a and particulate organic matter in our experiments suggested an important utilization of dissolved organic nutrients Financial support for this study was provided by grants from the Generalitat de Catalunya (DURSI 2003ACES00029/ANT), the Spanish Ministerio de Educación y Ciencia (REN2002-11565-E/ANT), and the Natural Sciences and Engineering Research Council of Canada (NSERC) through project CASES (Canadian Arctic Shelf Exchange Study) under the overall direction of L. ... Article in Journal/Newspaper Arctic Beaufort Sea Franklin Bay Phytoplankton Sea ice Digital.CSIC (Spanish National Research Council) Arctic Canada Aquatic Microbial Ecology 54 217 231
institution Open Polar
collection Digital.CSIC (Spanish National Research Council)
op_collection_id ftcsic
language English
topic Phytoplankton
Protists
Nutrients
Stoichiometry
Light response
Sea ice
Beaufort Sea
Arctic
spellingShingle Phytoplankton
Protists
Nutrients
Stoichiometry
Light response
Sea ice
Beaufort Sea
Arctic
Estrada, Marta
Bayer Giraldi, Maddalena
Felipe, Jordi
Marrasé, Cèlia
Sala, M. Montserrat
Vidal, Montserrat
Light and nutrient effects on microbial communities collected during spring and summer in the Beaufort Sea
topic_facet Phytoplankton
Protists
Nutrients
Stoichiometry
Light response
Sea ice
Beaufort Sea
Arctic
description 15 pages, 7 figures, 3 tables Between autumn 2003 and summer 2004, the icebreaker CCGS ‘Amundsen’ occupied a station in Franklin Bay, Beaufort Sea. Two microcosm experiments were carried out in spring, while the water column was covered by sea ice, to test whether phytoplankton assemblages sampled from ice-covered (spring) surface waters would be able to bloom when exposed to increased light and to what extent this bloom would be limited by light or nutrients. Two additional experiments were carried out during a sea-ice free period in summer. For the spring experiments (April 2004), surface water collected through an ice hole was distributed into 10 l Nalgene bottles and subjected to different photosynthetically available radiation (PAR; 5 to 60 μmol photons m–2 s–1) and nutrient addition treatments. A similar setup was repeated in July and August 2004. In the spring experiments, chlorophyll a (chl a) concentration showed an initial decline, probably reflecting a combination of autotrophic cell losses and photoacclimation effects. After about 2 wk, chl a started to increase exponentially at PAR above 10 μmol photons m–2 s–1, due to the proliferation of autotrophic nanoflagellates. In summer, chl a increased immediately after enclosure, mainly due to diatom (Thalassiosira/Porosira) growth. In spring, nutrient addition had no effect on the net rate of chl a accumulation, while phytoplankton increased faster and reached higher biomass in the nutrient-amended bottles in summer. The relationships between nutrient consumption and production of chl a and particulate organic matter in our experiments suggested an important utilization of dissolved organic nutrients Financial support for this study was provided by grants from the Generalitat de Catalunya (DURSI 2003ACES00029/ANT), the Spanish Ministerio de Educación y Ciencia (REN2002-11565-E/ANT), and the Natural Sciences and Engineering Research Council of Canada (NSERC) through project CASES (Canadian Arctic Shelf Exchange Study) under the overall direction of L. ...
format Article in Journal/Newspaper
author Estrada, Marta
Bayer Giraldi, Maddalena
Felipe, Jordi
Marrasé, Cèlia
Sala, M. Montserrat
Vidal, Montserrat
author_facet Estrada, Marta
Bayer Giraldi, Maddalena
Felipe, Jordi
Marrasé, Cèlia
Sala, M. Montserrat
Vidal, Montserrat
author_sort Estrada, Marta
title Light and nutrient effects on microbial communities collected during spring and summer in the Beaufort Sea
title_short Light and nutrient effects on microbial communities collected during spring and summer in the Beaufort Sea
title_full Light and nutrient effects on microbial communities collected during spring and summer in the Beaufort Sea
title_fullStr Light and nutrient effects on microbial communities collected during spring and summer in the Beaufort Sea
title_full_unstemmed Light and nutrient effects on microbial communities collected during spring and summer in the Beaufort Sea
title_sort light and nutrient effects on microbial communities collected during spring and summer in the beaufort sea
publisher Inter Research
publishDate 2009
url http://hdl.handle.net/10261/15742
https://doi.org/10.3354/ame01268
geographic Arctic
Canada
geographic_facet Arctic
Canada
genre Arctic
Beaufort Sea
Franklin Bay
Phytoplankton
Sea ice
genre_facet Arctic
Beaufort Sea
Franklin Bay
Phytoplankton
Sea ice
op_relation https://doi.org/10.3354/ame01268
Aquatic Microbial Ecology 54(3): 217-231 (2009)
0948-3055
http://hdl.handle.net/10261/15742
doi:10.3354/ame01268
op_rights open
op_doi https://doi.org/10.3354/ame01268
container_title Aquatic Microbial Ecology
container_volume 54
container_start_page 217
op_container_end_page 231
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