Macro-nutrient concentrations in Antarctic pack ice: overall patterns and overlooked processes

Antarctic pack ice is inhabited by a diverse and active microbial community reliant on nutrients for growth. Seeking patterns and overlooked processes, we performed a large-scale compilation of macro-nutrient data (hereafter termed nutrients) in Antarctic pack ice (306 ice-cores collected from 19 re...

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Published in:Elementa: Science of the Anthropocene
Main Authors: Fripiat, F, Meiners, KM, Vancoppenolle, M, Papadimitriou, S, Thomas, DN, Ackley, SF, Arrigo, KR, Carnat, G, Cozzi, S, Delille, B, Dieckmann, GS, Dunbar, RB, Fransson, A, Kattner, G, Kennedy, H, Lannuzel, D, Munro, DR, Nomura, D, Rintala, JM, Schoemann, V, Stefels, J, Steiner, N, Tison, J-L
Format: Article in Journal/Newspaper
Language:English
Published: BioOne 2017
Subjects:
sea ice
Antarctica
nutrients
Antarctic
Antarc*
Sea ice
Online Access:https://eprints.utas.edu.au/27106/
https://eprints.utas.edu.au/27106/1/Fripiatetal2017.pdf
id ftunivtasmania:oai:eprints.utas.edu.au:27106
record_format openpolar
spelling ftunivtasmania:oai:eprints.utas.edu.au:27106 2023-05-15T13:31:53+02:00 Macro-nutrient concentrations in Antarctic pack ice: overall patterns and overlooked processes Fripiat, F Meiners, KM Vancoppenolle, M Papadimitriou, S Thomas, DN Ackley, SF Arrigo, KR Carnat, G Cozzi, S Delille, B Dieckmann, GS Dunbar, RB Fransson, A Kattner, G Kennedy, H Lannuzel, D Munro, DR Nomura, D Rintala, JM Schoemann, V Stefels, J Steiner, N Tison, J-L 2017 application/pdf https://eprints.utas.edu.au/27106/ https://eprints.utas.edu.au/27106/1/Fripiatetal2017.pdf en eng BioOne https://eprints.utas.edu.au/27106/1/Fripiatetal2017.pdf Fripiat, F, Meiners, KM, Vancoppenolle, M, Papadimitriou, S, Thomas, DN, Ackley, SF, Arrigo, KR, Carnat, G, Cozzi, S, Delille, B, Dieckmann, GS, Dunbar, RB, Fransson, A, Kattner, G, Kennedy, H, Lannuzel, D orcid:0000-0001-6154-1837 , Munro, DR, Nomura, D, Rintala, JM, Schoemann, V, Stefels, J, Steiner, N and Tison, J-L 2017 , 'Macro-nutrient concentrations in Antarctic pack ice: overall patterns and overlooked processes' , Elementa, vol. 5 , pp. 1-24 , doi:10.1525/elementa.217 <http://dx.doi.org/10.1525/elementa.217>. sea ice Antarctica nutrients Article PeerReviewed 2017 ftunivtasmania https://doi.org/10.1525/elementa.217 2021-09-13T22:17:54Z Antarctic pack ice is inhabited by a diverse and active microbial community reliant on nutrients for growth. Seeking patterns and overlooked processes, we performed a large-scale compilation of macro-nutrient data (hereafter termed nutrients) in Antarctic pack ice (306 ice-cores collected from 19 research cruises). Dissolved inorganic nitrogen and silicic acid concentrations change with time, as expected from a seasonally productive ecosystem. In winter, salinity-normalized nitrate and silicic acid concentrations (C*) in sea ice are close to seawater concentrations (Cw), indicating little or no biological activity. In spring, nitrate and silicic acid concentrations become partially depleted with respect to seawater (C* w), commensurate with the seasonal build-up of ice microalgae promoted by increased insolation. Stronger and earlier nitrate than silicic acid consumption suggests that a significant fraction of the primary productivity in sea ice is sustained by flagellates. By both consuming and producing ammonium and nitrite, the microbial community maintains these nutrients at relatively low concentrations in spring. With the decrease in insolation beginning in late summer, dissolved inorganic nitrogen and silicic acid concentrations increase, indicating imbalance between their production (increasing or unchanged) and consumption (decreasing) in sea ice. Unlike the depleted concentrations of both nitrate and silicic acid from spring to summer, phosphate accumulates in sea ice (C* > Cw). The phosphate excess could be explained by a greater allocation to phosphorus-rich biomolecules during ice algal blooms coupled with convective loss of excess dissolved nitrogen, preferential remineralization of phosphorus, and/or phosphate adsorption onto metal-organic complexes. Ammonium also appears to be efficiently adsorbed onto organic matter, with likely consequences to nitrogen mobility and availability. This dataset supports the view that the sea ice microbial community is highly efficient at processing nutrients but with a dynamic quite different from that in oceanic surface waters calling for focused future investigations. Article in Journal/Newspaper Antarc* Antarctic Antarctica Sea ice University of Tasmania: UTas ePrints Antarctic Elementa: Science of the Anthropocene 5
institution Open Polar
collection University of Tasmania: UTas ePrints
op_collection_id ftunivtasmania
language English
topic sea ice
Antarctica
nutrients
spellingShingle sea ice
Antarctica
nutrients
Fripiat, F
Meiners, KM
Vancoppenolle, M
Papadimitriou, S
Thomas, DN
Ackley, SF
Arrigo, KR
Carnat, G
Cozzi, S
Delille, B
Dieckmann, GS
Dunbar, RB
Fransson, A
Kattner, G
Kennedy, H
Lannuzel, D
Munro, DR
Nomura, D
Rintala, JM
Schoemann, V
Stefels, J
Steiner, N
Tison, J-L
Macro-nutrient concentrations in Antarctic pack ice: overall patterns and overlooked processes
topic_facet sea ice
Antarctica
nutrients
description Antarctic pack ice is inhabited by a diverse and active microbial community reliant on nutrients for growth. Seeking patterns and overlooked processes, we performed a large-scale compilation of macro-nutrient data (hereafter termed nutrients) in Antarctic pack ice (306 ice-cores collected from 19 research cruises). Dissolved inorganic nitrogen and silicic acid concentrations change with time, as expected from a seasonally productive ecosystem. In winter, salinity-normalized nitrate and silicic acid concentrations (C*) in sea ice are close to seawater concentrations (Cw), indicating little or no biological activity. In spring, nitrate and silicic acid concentrations become partially depleted with respect to seawater (C* w), commensurate with the seasonal build-up of ice microalgae promoted by increased insolation. Stronger and earlier nitrate than silicic acid consumption suggests that a significant fraction of the primary productivity in sea ice is sustained by flagellates. By both consuming and producing ammonium and nitrite, the microbial community maintains these nutrients at relatively low concentrations in spring. With the decrease in insolation beginning in late summer, dissolved inorganic nitrogen and silicic acid concentrations increase, indicating imbalance between their production (increasing or unchanged) and consumption (decreasing) in sea ice. Unlike the depleted concentrations of both nitrate and silicic acid from spring to summer, phosphate accumulates in sea ice (C* > Cw). The phosphate excess could be explained by a greater allocation to phosphorus-rich biomolecules during ice algal blooms coupled with convective loss of excess dissolved nitrogen, preferential remineralization of phosphorus, and/or phosphate adsorption onto metal-organic complexes. Ammonium also appears to be efficiently adsorbed onto organic matter, with likely consequences to nitrogen mobility and availability. This dataset supports the view that the sea ice microbial community is highly efficient at processing nutrients but with a dynamic quite different from that in oceanic surface waters calling for focused future investigations.
format Article in Journal/Newspaper
author Fripiat, F
Meiners, KM
Vancoppenolle, M
Papadimitriou, S
Thomas, DN
Ackley, SF
Arrigo, KR
Carnat, G
Cozzi, S
Delille, B
Dieckmann, GS
Dunbar, RB
Fransson, A
Kattner, G
Kennedy, H
Lannuzel, D
Munro, DR
Nomura, D
Rintala, JM
Schoemann, V
Stefels, J
Steiner, N
Tison, J-L
author_facet Fripiat, F
Meiners, KM
Vancoppenolle, M
Papadimitriou, S
Thomas, DN
Ackley, SF
Arrigo, KR
Carnat, G
Cozzi, S
Delille, B
Dieckmann, GS
Dunbar, RB
Fransson, A
Kattner, G
Kennedy, H
Lannuzel, D
Munro, DR
Nomura, D
Rintala, JM
Schoemann, V
Stefels, J
Steiner, N
Tison, J-L
author_sort Fripiat, F
title Macro-nutrient concentrations in Antarctic pack ice: overall patterns and overlooked processes
title_short Macro-nutrient concentrations in Antarctic pack ice: overall patterns and overlooked processes
title_full Macro-nutrient concentrations in Antarctic pack ice: overall patterns and overlooked processes
title_fullStr Macro-nutrient concentrations in Antarctic pack ice: overall patterns and overlooked processes
title_full_unstemmed Macro-nutrient concentrations in Antarctic pack ice: overall patterns and overlooked processes
title_sort macro-nutrient concentrations in antarctic pack ice: overall patterns and overlooked processes
publisher BioOne
publishDate 2017
url https://eprints.utas.edu.au/27106/
https://eprints.utas.edu.au/27106/1/Fripiatetal2017.pdf
geographic Antarctic
geographic_facet Antarctic
genre Antarc*
Antarctic
Antarctica
Sea ice
genre_facet Antarc*
Antarctic
Antarctica
Sea ice
op_relation https://eprints.utas.edu.au/27106/1/Fripiatetal2017.pdf
Fripiat, F, Meiners, KM, Vancoppenolle, M, Papadimitriou, S, Thomas, DN, Ackley, SF, Arrigo, KR, Carnat, G, Cozzi, S, Delille, B, Dieckmann, GS, Dunbar, RB, Fransson, A, Kattner, G, Kennedy, H, Lannuzel, D orcid:0000-0001-6154-1837 , Munro, DR, Nomura, D, Rintala, JM, Schoemann, V, Stefels, J, Steiner, N and Tison, J-L 2017 , 'Macro-nutrient concentrations in Antarctic pack ice: overall patterns and overlooked processes' , Elementa, vol. 5 , pp. 1-24 , doi:10.1525/elementa.217 <http://dx.doi.org/10.1525/elementa.217>.
op_doi https://doi.org/10.1525/elementa.217
container_title Elementa: Science of the Anthropocene
container_volume 5
_version_ 1766021823284117504

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