Environmental drivers of under-ice phytoplankton bloom dynamics in the Arctic Ocean

The decline of sea-ice thickness, area, and volume due to the transition from multi-year to first-year sea ice has improved the under-ice light environment for pelagic Arctic ecosystems. One unexpected and direct consequence of this transition, the proliferation of under-ice phytoplankton blooms (UI...

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Published in:Elementa: Science of the Anthropocene
Main Authors: Ardyna, Mathieu, Mundy, C. J., Mills, Matthew M., Oziel, Laurent, Grondin, Pierre-Luc, Lacour, Léo, Verin, Gauthier, van Dijken, Gert, Ras, Joséphine, Alou-Font, Eva, Babin, Marcel, Gosselin, Michel, Tremblay, Jean-Éric, Raimbault, Patrick, Assmy, Philipp, Nicolaus, Marcel, Claustre, Hervé, Arrigo, Kevin R.
Other Authors: Deming, Jody W.
Format: Article in Journal/Newspaper
Language:English
Published: University of California Press 2020
Subjects:
Arctic
Arctic Ocean
ice pack
Phytoplankton
Sea ice
Online Access:http://dx.doi.org/10.1525/elementa.430
http://online.ucpress.edu/elementa/article-pdf/doi/10.1525/elementa.430/441705/430-7318-1-pb.pdf
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spelling crunicaliforniap:10.1525/elementa.430 2024-10-06T13:45:53+00:00 Environmental drivers of under-ice phytoplankton bloom dynamics in the Arctic Ocean Ardyna, Mathieu Mundy, C. J. Mills, Matthew M. Oziel, Laurent Grondin, Pierre-Luc Lacour, Léo Verin, Gauthier van Dijken, Gert Ras, Joséphine Alou-Font, Eva Babin, Marcel Gosselin, Michel Tremblay, Jean-Éric Raimbault, Patrick Assmy, Philipp Nicolaus, Marcel Claustre, Hervé Arrigo, Kevin R. Deming, Jody W. 2020 http://dx.doi.org/10.1525/elementa.430 http://online.ucpress.edu/elementa/article-pdf/doi/10.1525/elementa.430/441705/430-7318-1-pb.pdf en eng University of California Press http://creativecommons.org/licenses/by/4.0/ Elementa: Science of the Anthropocene volume 8 ISSN 2325-1026 journal-article 2020 crunicaliforniap https://doi.org/10.1525/elementa.430 2024-09-12T05:01:44Z The decline of sea-ice thickness, area, and volume due to the transition from multi-year to first-year sea ice has improved the under-ice light environment for pelagic Arctic ecosystems. One unexpected and direct consequence of this transition, the proliferation of under-ice phytoplankton blooms (UIBs), challenges the paradigm that waters beneath the ice pack harbor little planktonic life. Little is known about the diversity and spatial distribution of UIBs in the Arctic Ocean, or the environmental drivers behind their timing, magnitude, and taxonomic composition. Here, we compiled a unique and comprehensive dataset from seven major research projects in the Arctic Ocean (11 expeditions, covering the spring sea-ice-covered period to summer ice-free conditions) to identify the environmental drivers responsible for initiating and shaping the magnitude and assemblage structure of UIBs. The temporal dynamics behind UIB formation are related to the ways that snow and sea-ice conditions impact the under-ice light field. In particular, the onset of snowmelt significantly increased under-ice light availability (>0.1–0.2 mol photons m–2 d–1), marking the concomitant termination of the sea-ice algal bloom and initiation of UIBs. At the pan-Arctic scale, bloom magnitude (expressed as maximum chlorophyll a concentration) was predicted best by winter water Si(OH)4 and PO43– concentrations, as well as Si(OH)4:NO3– and PO43–:NO3– drawdown ratios, but not NO3– concentration. Two main phytoplankton assemblages dominated UIBs (diatoms or Phaeocystis), driven primarily by the winter nitrate:silicate (NO3–:Si(OH)4) ratio and the under-ice light climate. Phaeocystis co-dominated in low Si(OH)4 (i.e., NO3:Si(OH)4 molar ratios >1) waters, while diatoms contributed the bulk of UIB biomass when Si(OH)4 was high (i.e., NO3:Si(OH)4 molar ratios <1). The implications of such differences in UIB composition could have important ramifications for Arctic biogeochemical cycles, and ultimately impact carbon flow to higher ... Article in Journal/Newspaper Arctic Arctic Ocean ice pack Phytoplankton Sea ice University of California Press Arctic Arctic Ocean Elementa: Science of the Anthropocene 8
institution Open Polar
collection University of California Press
op_collection_id crunicaliforniap
language English
description The decline of sea-ice thickness, area, and volume due to the transition from multi-year to first-year sea ice has improved the under-ice light environment for pelagic Arctic ecosystems. One unexpected and direct consequence of this transition, the proliferation of under-ice phytoplankton blooms (UIBs), challenges the paradigm that waters beneath the ice pack harbor little planktonic life. Little is known about the diversity and spatial distribution of UIBs in the Arctic Ocean, or the environmental drivers behind their timing, magnitude, and taxonomic composition. Here, we compiled a unique and comprehensive dataset from seven major research projects in the Arctic Ocean (11 expeditions, covering the spring sea-ice-covered period to summer ice-free conditions) to identify the environmental drivers responsible for initiating and shaping the magnitude and assemblage structure of UIBs. The temporal dynamics behind UIB formation are related to the ways that snow and sea-ice conditions impact the under-ice light field. In particular, the onset of snowmelt significantly increased under-ice light availability (>0.1–0.2 mol photons m–2 d–1), marking the concomitant termination of the sea-ice algal bloom and initiation of UIBs. At the pan-Arctic scale, bloom magnitude (expressed as maximum chlorophyll a concentration) was predicted best by winter water Si(OH)4 and PO43– concentrations, as well as Si(OH)4:NO3– and PO43–:NO3– drawdown ratios, but not NO3– concentration. Two main phytoplankton assemblages dominated UIBs (diatoms or Phaeocystis), driven primarily by the winter nitrate:silicate (NO3–:Si(OH)4) ratio and the under-ice light climate. Phaeocystis co-dominated in low Si(OH)4 (i.e., NO3:Si(OH)4 molar ratios >1) waters, while diatoms contributed the bulk of UIB biomass when Si(OH)4 was high (i.e., NO3:Si(OH)4 molar ratios <1). The implications of such differences in UIB composition could have important ramifications for Arctic biogeochemical cycles, and ultimately impact carbon flow to higher ...
author2 Deming, Jody W.
format Article in Journal/Newspaper
author Ardyna, Mathieu
Mundy, C. J.
Mills, Matthew M.
Oziel, Laurent
Grondin, Pierre-Luc
Lacour, Léo
Verin, Gauthier
van Dijken, Gert
Ras, Joséphine
Alou-Font, Eva
Babin, Marcel
Gosselin, Michel
Tremblay, Jean-Éric
Raimbault, Patrick
Assmy, Philipp
Nicolaus, Marcel
Claustre, Hervé
Arrigo, Kevin R.
spellingShingle Ardyna, Mathieu
Mundy, C. J.
Mills, Matthew M.
Oziel, Laurent
Grondin, Pierre-Luc
Lacour, Léo
Verin, Gauthier
van Dijken, Gert
Ras, Joséphine
Alou-Font, Eva
Babin, Marcel
Gosselin, Michel
Tremblay, Jean-Éric
Raimbault, Patrick
Assmy, Philipp
Nicolaus, Marcel
Claustre, Hervé
Arrigo, Kevin R.
Environmental drivers of under-ice phytoplankton bloom dynamics in the Arctic Ocean
author_facet Ardyna, Mathieu
Mundy, C. J.
Mills, Matthew M.
Oziel, Laurent
Grondin, Pierre-Luc
Lacour, Léo
Verin, Gauthier
van Dijken, Gert
Ras, Joséphine
Alou-Font, Eva
Babin, Marcel
Gosselin, Michel
Tremblay, Jean-Éric
Raimbault, Patrick
Assmy, Philipp
Nicolaus, Marcel
Claustre, Hervé
Arrigo, Kevin R.
author_sort Ardyna, Mathieu
title Environmental drivers of under-ice phytoplankton bloom dynamics in the Arctic Ocean
title_short Environmental drivers of under-ice phytoplankton bloom dynamics in the Arctic Ocean
title_full Environmental drivers of under-ice phytoplankton bloom dynamics in the Arctic Ocean
title_fullStr Environmental drivers of under-ice phytoplankton bloom dynamics in the Arctic Ocean
title_full_unstemmed Environmental drivers of under-ice phytoplankton bloom dynamics in the Arctic Ocean
title_sort environmental drivers of under-ice phytoplankton bloom dynamics in the arctic ocean
publisher University of California Press
publishDate 2020
url http://dx.doi.org/10.1525/elementa.430
http://online.ucpress.edu/elementa/article-pdf/doi/10.1525/elementa.430/441705/430-7318-1-pb.pdf
geographic Arctic
Arctic Ocean
geographic_facet Arctic
Arctic Ocean
genre Arctic
Arctic Ocean
ice pack
Phytoplankton
Sea ice
genre_facet Arctic
Arctic Ocean
ice pack
Phytoplankton
Sea ice
op_source Elementa: Science of the Anthropocene
volume 8
ISSN 2325-1026
op_rights http://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.1525/elementa.430
container_title Elementa: Science of the Anthropocene
container_volume 8
_version_ 1812174225713135616

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