Under-Ice Phytoplankton Blooms: Shedding Light on the “Invisible” Part of Arctic Primary Production

The growth of phytoplankton at high latitudes was generally thought to begin in open waters of the marginal ice zone once the highly reflective sea ice retreats in spring, solar elevation increases, and surface waters become stratified by the addition of sea-ice melt water. In fact, virtually all re...

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Published in:Frontiers in Marine Science
Main Authors: Mathieu Ardyna, C. J. Mundy, Nicolas Mayot, Lisa C. Matthes, Laurent Oziel, Christopher Horvat, Eva Leu, Philipp Assmy, Victoria Hill, Patricia A. Matrai, Matthew Gale, Igor A. Melnikov, Kevin R. Arrigo
Format: Article in Journal/Newspaper
Language:English
Published: Frontiers Media S.A. 2020
Subjects:
under-ice phytoplankton blooms
biogeochemical cycles
nutrient
sea ice
climate change
Arctic Ocean
Science
Q
General. Including nature conservation
geographical distribution
QH1-199.5
Arctic
Climate change
Phytoplankton
Sea ice
Online Access:https://doi.org/10.3389/fmars.2020.608032
https://doaj.org/article/11bf296a7aa74257a0759cbb8ebbc57f
id ftdoajarticles:oai:doaj.org/article:11bf296a7aa74257a0759cbb8ebbc57f
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spelling ftdoajarticles:oai:doaj.org/article:11bf296a7aa74257a0759cbb8ebbc57f 2023-05-15T14:34:16+02:00 Under-Ice Phytoplankton Blooms: Shedding Light on the “Invisible” Part of Arctic Primary Production Mathieu Ardyna C. J. Mundy Nicolas Mayot Lisa C. Matthes Laurent Oziel Christopher Horvat Eva Leu Philipp Assmy Victoria Hill Patricia A. Matrai Matthew Gale Igor A. Melnikov Kevin R. Arrigo 2020-11-01T00:00:00Z https://doi.org/10.3389/fmars.2020.608032 https://doaj.org/article/11bf296a7aa74257a0759cbb8ebbc57f EN eng Frontiers Media S.A. https://www.frontiersin.org/articles/10.3389/fmars.2020.608032/full https://doaj.org/toc/2296-7745 2296-7745 doi:10.3389/fmars.2020.608032 https://doaj.org/article/11bf296a7aa74257a0759cbb8ebbc57f Frontiers in Marine Science, Vol 7 (2020) under-ice phytoplankton blooms biogeochemical cycles nutrient sea ice climate change Arctic Ocean Science Q General. Including nature conservation geographical distribution QH1-199.5 article 2020 ftdoajarticles https://doi.org/10.3389/fmars.2020.608032 2022-12-31T03:14:37Z The growth of phytoplankton at high latitudes was generally thought to begin in open waters of the marginal ice zone once the highly reflective sea ice retreats in spring, solar elevation increases, and surface waters become stratified by the addition of sea-ice melt water. In fact, virtually all recent large-scale estimates of primary production in the Arctic Ocean (AO) assume that phytoplankton production in the water column under sea ice is negligible. However, over the past two decades, an emerging literature showing significant under-ice phytoplankton production on a pan-Arctic scale has challenged our paradigms of Arctic phytoplankton ecology and phenology. This evidence, which builds on previous, but scarce reports, requires the Arctic scientific community to change its perception of traditional AO phenology and urgently revise it. In particular, it is essential to better comprehend, on small and large scales, the changing and variable icescapes, the under-ice light field and biogeochemical cycles during the transition from sea-ice covered to ice-free Arctic waters. Here, we provide a baseline of our current knowledge of under-ice blooms (UIBs), by defining their ecology and their environmental setting, but also their regional peculiarities (in terms of occurrence, magnitude, and assemblages), which is shaped by a complex AO. To this end, a multidisciplinary approach, i.e., combining expeditions and modern autonomous technologies, satellite, and modeling analyses, has been used to provide an overview of this pan-Arctic phenological feature, which will become increasingly important in future marine Arctic biogeochemical cycles. Article in Journal/Newspaper Arctic Arctic Ocean Climate change Phytoplankton Sea ice Directory of Open Access Journals: DOAJ Articles Arctic Arctic Ocean Frontiers in Marine Science 7
institution Open Polar
collection Directory of Open Access Journals: DOAJ Articles
op_collection_id ftdoajarticles
language English
topic under-ice phytoplankton blooms
biogeochemical cycles
nutrient
sea ice
climate change
Arctic Ocean
Science
Q
General. Including nature conservation
geographical distribution
QH1-199.5
spellingShingle under-ice phytoplankton blooms
biogeochemical cycles
nutrient
sea ice
climate change
Arctic Ocean
Science
Q
General. Including nature conservation
geographical distribution
QH1-199.5
Mathieu Ardyna
C. J. Mundy
Nicolas Mayot
Lisa C. Matthes
Laurent Oziel
Christopher Horvat
Eva Leu
Philipp Assmy
Victoria Hill
Patricia A. Matrai
Matthew Gale
Igor A. Melnikov
Kevin R. Arrigo
Under-Ice Phytoplankton Blooms: Shedding Light on the “Invisible” Part of Arctic Primary Production
topic_facet under-ice phytoplankton blooms
biogeochemical cycles
nutrient
sea ice
climate change
Arctic Ocean
Science
Q
General. Including nature conservation
geographical distribution
QH1-199.5
description The growth of phytoplankton at high latitudes was generally thought to begin in open waters of the marginal ice zone once the highly reflective sea ice retreats in spring, solar elevation increases, and surface waters become stratified by the addition of sea-ice melt water. In fact, virtually all recent large-scale estimates of primary production in the Arctic Ocean (AO) assume that phytoplankton production in the water column under sea ice is negligible. However, over the past two decades, an emerging literature showing significant under-ice phytoplankton production on a pan-Arctic scale has challenged our paradigms of Arctic phytoplankton ecology and phenology. This evidence, which builds on previous, but scarce reports, requires the Arctic scientific community to change its perception of traditional AO phenology and urgently revise it. In particular, it is essential to better comprehend, on small and large scales, the changing and variable icescapes, the under-ice light field and biogeochemical cycles during the transition from sea-ice covered to ice-free Arctic waters. Here, we provide a baseline of our current knowledge of under-ice blooms (UIBs), by defining their ecology and their environmental setting, but also their regional peculiarities (in terms of occurrence, magnitude, and assemblages), which is shaped by a complex AO. To this end, a multidisciplinary approach, i.e., combining expeditions and modern autonomous technologies, satellite, and modeling analyses, has been used to provide an overview of this pan-Arctic phenological feature, which will become increasingly important in future marine Arctic biogeochemical cycles.
format Article in Journal/Newspaper
author Mathieu Ardyna
C. J. Mundy
Nicolas Mayot
Lisa C. Matthes
Laurent Oziel
Christopher Horvat
Eva Leu
Philipp Assmy
Victoria Hill
Patricia A. Matrai
Matthew Gale
Igor A. Melnikov
Kevin R. Arrigo
author_facet Mathieu Ardyna
C. J. Mundy
Nicolas Mayot
Lisa C. Matthes
Laurent Oziel
Christopher Horvat
Eva Leu
Philipp Assmy
Victoria Hill
Patricia A. Matrai
Matthew Gale
Igor A. Melnikov
Kevin R. Arrigo
author_sort Mathieu Ardyna
title Under-Ice Phytoplankton Blooms: Shedding Light on the “Invisible” Part of Arctic Primary Production
title_short Under-Ice Phytoplankton Blooms: Shedding Light on the “Invisible” Part of Arctic Primary Production
title_full Under-Ice Phytoplankton Blooms: Shedding Light on the “Invisible” Part of Arctic Primary Production
title_fullStr Under-Ice Phytoplankton Blooms: Shedding Light on the “Invisible” Part of Arctic Primary Production
title_full_unstemmed Under-Ice Phytoplankton Blooms: Shedding Light on the “Invisible” Part of Arctic Primary Production
title_sort under-ice phytoplankton blooms: shedding light on the “invisible” part of arctic primary production
publisher Frontiers Media S.A.
publishDate 2020
url https://doi.org/10.3389/fmars.2020.608032
https://doaj.org/article/11bf296a7aa74257a0759cbb8ebbc57f
geographic Arctic
Arctic Ocean
geographic_facet Arctic
Arctic Ocean
genre Arctic
Arctic Ocean
Climate change
Phytoplankton
Sea ice
genre_facet Arctic
Arctic Ocean
Climate change
Phytoplankton
Sea ice
op_source Frontiers in Marine Science, Vol 7 (2020)
op_relation https://www.frontiersin.org/articles/10.3389/fmars.2020.608032/full
https://doaj.org/toc/2296-7745
2296-7745
doi:10.3389/fmars.2020.608032
https://doaj.org/article/11bf296a7aa74257a0759cbb8ebbc57f
op_doi https://doi.org/10.3389/fmars.2020.608032
container_title Frontiers in Marine Science
container_volume 7
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