BIOPOLE - Biogeochemical processes and ecosystem functioning in changing polar systems and their global impacts

Geraint Tarling; E Abrahamsen; Yevgeny Aksenov; Madeline Anderson; Carol Arrowsmith; Chelsey Baker; Chris Barry; Anna Belcher; Mar Benavides; Milo Bischof; Emma Boland; Mike Bowes; J Brearley; Peter Brown; Amanda Burson; Sammie Buzzard; Nathan Callaghan; Arthur Coët; Kathryn Cook; Sarah Coombs; Chris Evans; Sophie Fielding; Elaina Ford; Isabelle Fournier; Jennifer Freer; E Garcia-Martin; VR Ghosh; Sarah Giering; Alanna Grant; Huw Griffiths; Ruta Hamilton; Katharine Hendry; Simeon Hill; Nathan Hubot; Aidan Hunter; Nadine Johnston; Anna Katavouta; Ezra Kitson; Melanie Leng; Isabel Lewis; Katrin Linse; Stephen Lofts; Clara Manno; Adrian Martin; Alice Marzocchi; Edward Mawji; Daniel Mayor; Rebecca McKenzie; Andrew Meijers; Michael Meredith; David Munday; M Pereira; Alexandra O'Brien; Justyna Olszewska; Stuart Painter; Julien Palmiéri; Shailee Patel; Amy Pickard; Jessica Richt; Stefanie Rynders; Rachael Sanders; Ryan Saunders; Andrew Shepherd; Thomas Slater; Bryan Spears; Gabriele Stowasser; Amy Swiggs; Laura Taylor; Petra ten Hoopen; Sally Thorpe; Tracey Timms-Wilson; Maud van Soest; Hugh Venables; Zoe Wright; Andrew Yool; Emma Young

doi:10.3897/rio.11.e163757

BIOPOLE - Biogeochemical processes and ecosystem functioning in changing polar systems and their global impacts

Geraint Tarling, E Abrahamsen, Yevgeny Aksenov, Madeline Anderson, Carol Arrowsmith, Chelsey Baker, Chris Barry, Anna Belcher, Mar Benavides, Milo Bischof, Emma Boland, Mike Bowes, J Brearley, Peter Brown, Amanda Burson, Sammie Buzzard, Nathan Callaghan, Arthur Coët, Kathryn Cook, Sarah CoombsChris Evans, Sophie Fielding, Elaina Ford, Isabelle Fournier, Jennifer Freer, E Garcia-Martin, VR Ghosh, Sarah Giering, Alanna Grant, Huw Griffiths, Ruta Hamilton, Katharine Hendry, Simeon Hill, Nathan Hubot, Aidan Hunter, Nadine Johnston, Anna Katavouta, Ezra Kitson, Melanie Leng, Isabel Lewis, Katrin Linse, Stephen Lofts, Clara Manno, Adrian Martin, Alice Marzocchi, Edward Mawji, Daniel Mayor, Rebecca McKenzie, Andrew Meijers, Michael Meredith, David Munday, M Pereira, Alexandra O'Brien, Justyna Olszewska, Stuart Painter, Julien Palmiéri, Shailee Patel, Amy Pickard, Jessica Richt, Stefanie Rynders, Rachael Sanders, Ryan Saunders, Andrew Shepherd, Thomas Slater, Bryan Spears, Gabriele Stowasser, Amy Swiggs, Laura Taylor, Petra ten Hoopen, Sally Thorpe, Tracey Timms-Wilson, Maud van Soest, Hugh Venables, Zoe Wright, Andrew Yool, Emma Young

School of Geography and Natural Sciences

Research output: Contribution to journal › Article

Abstract

The export of elements (particularly carbon, nitrogen and phosphorus) from the Poles critically supports global marine biodiversity and major fisheries as well as the sequestration of atmospheric carbon to the deep ocean. Ecosystem processes regulate this export, but major uncertainties remain in terms of how and by how much. Progress on understanding key ecosystem interactions is hindered by lack of data and their representation in Earth system models is poor. The two polar regions share similarities in environmental extremes which make them sensitive to the impacts of climate change. They both receive nutrients from multiple and diverse sources and the delivery of these nutrients to other oceans is regulated by similar ecosystem processes. However, the extent to which these ecosystem processes will be modified by climate change is unclear and urgently needs to be determined. BIOPOLE will determine how polar ecosystems regulate the balance of carbon and nutrients in the world’s oceans and, through it, their effect on global fish stocks and carbon storage. It will address this challenge by integrating ambitious fieldwork campaigns and innovative modelling in a multidisciplinary and highly coordinated approach. BIOPOLE will capitalise on world-leading capabilities and infrastructure in ocean and high-latitude research, including cutting-edge land-based facilities, state-of-the-art polar research vessels and innovative autonomous instrumentation. Collaboration with national and international partners will further strengthen BIOPOLE’s multidisciplinary approach and efficient use of infrastructure. BIOPOLE’s legacy will be the first assessment of the global impact of polar ecosystems on biogeochemical cycling and fish stocks; technologically-novel approaches and strong partnerships between leading international science groups.

Original language	English
Article number	e163757
Number of pages	20
Journal	Research Ideas and Outcomes
Volume	11
DOIs	https://doi.org/10.3897/rio.11.e163757
Publication status	Published - 3 Sept 2025

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10.3897/rio.11.e163757Licence: CC BY

RIO_article_163757Final published version, 575 KBLicence: CC BY

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Tarling, G., Abrahamsen, E., Aksenov, Y., Anderson, M., Arrowsmith, C., Baker, C., Barry, C., Belcher, A., Benavides, M., Bischof, M., Boland, E., Bowes, M., Brearley, J., Brown, P., Burson, A., Buzzard, S., Callaghan, N., Coët, A., Cook, K., ... Young, E. (2025). BIOPOLE - Biogeochemical processes and ecosystem functioning in changing polar systems and their global impacts. Research Ideas and Outcomes, 11, Article e163757. https://doi.org/10.3897/rio.11.e163757

@article{1320ff307b504ffbb55a8800b654234a,

title = "BIOPOLE - Biogeochemical processes and ecosystem functioning in changing polar systems and their global impacts",

abstract = "The export of elements (particularly carbon, nitrogen and phosphorus) from the Poles critically supports global marine biodiversity and major fisheries as well as the sequestration of atmospheric carbon to the deep ocean. Ecosystem processes regulate this export, but major uncertainties remain in terms of how and by how much. Progress on understanding key ecosystem interactions is hindered by lack of data and their representation in Earth system models is poor. The two polar regions share similarities in environmental extremes which make them sensitive to the impacts of climate change. They both receive nutrients from multiple and diverse sources and the delivery of these nutrients to other oceans is regulated by similar ecosystem processes. However, the extent to which these ecosystem processes will be modified by climate change is unclear and urgently needs to be determined. BIOPOLE will determine how polar ecosystems regulate the balance of carbon and nutrients in the world{\textquoteright}s oceans and, through it, their effect on global fish stocks and carbon storage. It will address this challenge by integrating ambitious fieldwork campaigns and innovative modelling in a multidisciplinary and highly coordinated approach. BIOPOLE will capitalise on world-leading capabilities and infrastructure in ocean and high-latitude research, including cutting-edge land-based facilities, state-of-the-art polar research vessels and innovative autonomous instrumentation. Collaboration with national and international partners will further strengthen BIOPOLE{\textquoteright}s multidisciplinary approach and efficient use of infrastructure. BIOPOLE{\textquoteright}s legacy will be the first assessment of the global impact of polar ecosystems on biogeochemical cycling and fish stocks; technologically-novel approaches and strong partnerships between leading international science groups.",

author = "Geraint Tarling and E Abrahamsen and Yevgeny Aksenov and Madeline Anderson and Carol Arrowsmith and Chelsey Baker and Chris Barry and Anna Belcher and Mar Benavides and Milo Bischof and Emma Boland and Mike Bowes and J Brearley and Peter Brown and Amanda Burson and Sammie Buzzard and Nathan Callaghan and Arthur Co{\"e}t and Kathryn Cook and Sarah Coombs and Chris Evans and Sophie Fielding and Elaina Ford and Isabelle Fournier and Jennifer Freer and E Garcia-Martin and VR Ghosh and Sarah Giering and Alanna Grant and Huw Griffiths and Ruta Hamilton and Katharine Hendry and Simeon Hill and Nathan Hubot and Aidan Hunter and Nadine Johnston and Anna Katavouta and Ezra Kitson and Melanie Leng and Isabel Lewis and Katrin Linse and Stephen Lofts and Clara Manno and Adrian Martin and Alice Marzocchi and Edward Mawji and Daniel Mayor and Rebecca McKenzie and Andrew Meijers and Michael Meredith and David Munday and M Pereira and Alexandra O'Brien and Justyna Olszewska and Stuart Painter and Julien Palmi{\'e}ri and Shailee Patel and Amy Pickard and Jessica Richt and Stefanie Rynders and Rachael Sanders and Ryan Saunders and Andrew Shepherd and Thomas Slater and Bryan Spears and Gabriele Stowasser and Amy Swiggs and Laura Taylor and \{ten Hoopen\}, Petra and Sally Thorpe and Tracey Timms-Wilson and \{van Soest\}, Maud and Hugh Venables and Zoe Wright and Andrew Yool and Emma Young",

year = "2025",

month = sep,

day = "3",

doi = "10.3897/rio.11.e163757",

language = "English",

volume = "11",

journal = "Research Ideas and Outcomes",

issn = "2367-7163",

publisher = "Pensoft Publishers",

}

Tarling, G, Abrahamsen, E, Aksenov, Y, Anderson, M, Arrowsmith, C, Baker, C, Barry, C, Belcher, A, Benavides, M, Bischof, M, Boland, E, Bowes, M, Brearley, J, Brown, P, Burson, A, Buzzard, S, Callaghan, N, Coët, A, Cook, K, Coombs, S, Evans, C, Fielding, S, Ford, E, Fournier, I, Freer, J, Garcia-Martin, E, Ghosh, VR, Giering, S, Grant, A, Griffiths, H, Hamilton, R, Hendry, K, Hill, S, Hubot, N, Hunter, A, Johnston, N, Katavouta, A, Kitson, E, Leng, M, Lewis, I, Linse, K, Lofts, S, Manno, C, Martin, A, Marzocchi, A, Mawji, E, Mayor, D, McKenzie, R, Meijers, A, Meredith, M, Munday, D, Pereira, M, O'Brien, A, Olszewska, J, Painter, S, Palmiéri, J, Patel, S, Pickard, A, Richt, J, Rynders, S, Sanders, R, Saunders, R, Shepherd, A , Slater, T, Spears, B, Stowasser, G, Swiggs, A, Taylor, L, ten Hoopen, P, Thorpe, S, Timms-Wilson, T, van Soest, M, Venables, H, Wright, Z, Yool, A & Young, E 2025, 'BIOPOLE - Biogeochemical processes and ecosystem functioning in changing polar systems and their global impacts', Research Ideas and Outcomes, vol. 11, e163757. https://doi.org/10.3897/rio.11.e163757

TY - JOUR

T1 - BIOPOLE - Biogeochemical processes and ecosystem functioning in changing polar systems and their global impacts

AU - Tarling, Geraint

AU - Abrahamsen, E

AU - Aksenov, Yevgeny

AU - Anderson, Madeline

AU - Arrowsmith, Carol

AU - Baker, Chelsey

AU - Barry, Chris

AU - Belcher, Anna

AU - Benavides, Mar

AU - Bischof, Milo

AU - Boland, Emma

AU - Bowes, Mike

AU - Brearley, J

AU - Brown, Peter

AU - Burson, Amanda

AU - Buzzard, Sammie

AU - Callaghan, Nathan

AU - Coët, Arthur

AU - Cook, Kathryn

AU - Coombs, Sarah

AU - Evans, Chris

AU - Fielding, Sophie

AU - Ford, Elaina

AU - Fournier, Isabelle

AU - Freer, Jennifer

AU - Garcia-Martin, E

AU - Ghosh, VR

AU - Giering, Sarah

AU - Grant, Alanna

AU - Griffiths, Huw

AU - Hamilton, Ruta

AU - Hendry, Katharine

AU - Hill, Simeon

AU - Hubot, Nathan

AU - Hunter, Aidan

AU - Johnston, Nadine

AU - Katavouta, Anna

AU - Kitson, Ezra

AU - Leng, Melanie

AU - Lewis, Isabel

AU - Linse, Katrin

AU - Lofts, Stephen

AU - Manno, Clara

AU - Martin, Adrian

AU - Marzocchi, Alice

AU - Mawji, Edward

AU - Mayor, Daniel

AU - McKenzie, Rebecca

AU - Meijers, Andrew

AU - Meredith, Michael

AU - Munday, David

AU - Pereira, M

AU - O'Brien, Alexandra

AU - Olszewska, Justyna

AU - Painter, Stuart

AU - Palmiéri, Julien

AU - Patel, Shailee

AU - Pickard, Amy

AU - Richt, Jessica

AU - Rynders, Stefanie

AU - Sanders, Rachael

AU - Saunders, Ryan

AU - Shepherd, Andrew

AU - Slater, Thomas

AU - Spears, Bryan

AU - Stowasser, Gabriele

AU - Swiggs, Amy

AU - Taylor, Laura

AU - ten Hoopen, Petra

AU - Thorpe, Sally

AU - Timms-Wilson, Tracey

AU - van Soest, Maud

AU - Venables, Hugh

AU - Wright, Zoe

AU - Yool, Andrew

AU - Young, Emma

PY - 2025/9/3

Y1 - 2025/9/3

N2 - The export of elements (particularly carbon, nitrogen and phosphorus) from the Poles critically supports global marine biodiversity and major fisheries as well as the sequestration of atmospheric carbon to the deep ocean. Ecosystem processes regulate this export, but major uncertainties remain in terms of how and by how much. Progress on understanding key ecosystem interactions is hindered by lack of data and their representation in Earth system models is poor. The two polar regions share similarities in environmental extremes which make them sensitive to the impacts of climate change. They both receive nutrients from multiple and diverse sources and the delivery of these nutrients to other oceans is regulated by similar ecosystem processes. However, the extent to which these ecosystem processes will be modified by climate change is unclear and urgently needs to be determined. BIOPOLE will determine how polar ecosystems regulate the balance of carbon and nutrients in the world’s oceans and, through it, their effect on global fish stocks and carbon storage. It will address this challenge by integrating ambitious fieldwork campaigns and innovative modelling in a multidisciplinary and highly coordinated approach. BIOPOLE will capitalise on world-leading capabilities and infrastructure in ocean and high-latitude research, including cutting-edge land-based facilities, state-of-the-art polar research vessels and innovative autonomous instrumentation. Collaboration with national and international partners will further strengthen BIOPOLE’s multidisciplinary approach and efficient use of infrastructure. BIOPOLE’s legacy will be the first assessment of the global impact of polar ecosystems on biogeochemical cycling and fish stocks; technologically-novel approaches and strong partnerships between leading international science groups.

AB - The export of elements (particularly carbon, nitrogen and phosphorus) from the Poles critically supports global marine biodiversity and major fisheries as well as the sequestration of atmospheric carbon to the deep ocean. Ecosystem processes regulate this export, but major uncertainties remain in terms of how and by how much. Progress on understanding key ecosystem interactions is hindered by lack of data and their representation in Earth system models is poor. The two polar regions share similarities in environmental extremes which make them sensitive to the impacts of climate change. They both receive nutrients from multiple and diverse sources and the delivery of these nutrients to other oceans is regulated by similar ecosystem processes. However, the extent to which these ecosystem processes will be modified by climate change is unclear and urgently needs to be determined. BIOPOLE will determine how polar ecosystems regulate the balance of carbon and nutrients in the world’s oceans and, through it, their effect on global fish stocks and carbon storage. It will address this challenge by integrating ambitious fieldwork campaigns and innovative modelling in a multidisciplinary and highly coordinated approach. BIOPOLE will capitalise on world-leading capabilities and infrastructure in ocean and high-latitude research, including cutting-edge land-based facilities, state-of-the-art polar research vessels and innovative autonomous instrumentation. Collaboration with national and international partners will further strengthen BIOPOLE’s multidisciplinary approach and efficient use of infrastructure. BIOPOLE’s legacy will be the first assessment of the global impact of polar ecosystems on biogeochemical cycling and fish stocks; technologically-novel approaches and strong partnerships between leading international science groups.

U2 - 10.3897/rio.11.e163757

DO - 10.3897/rio.11.e163757

M3 - Article

SN - 2367-7163

VL - 11

JO - Research Ideas and Outcomes

JF - Research Ideas and Outcomes

M1 - e163757

ER -