Standardising research on marine biological carbon pathways required to estimate sequestration at Polar and sub-Polar latitudes

Simon A. Morley; David K.A. Barnes; Camila Neder; Ricardo Sahade; Chester J. Sands; Carla M. de Aranzamendi; Kaja Balazy; Piotr Balazy; Facundo Barrera; Narissa Bax; Sofia Becerra; Lucia Bergagna; Katarzyna Błachowiak-Samołyk; Ulrike Braeckman; Gabriela L. Campana; Dolores Deregibus; Marleen De Troch; Andrea Devis-Morales; Patricio A. Díaz; Santiago R. Doyle; Katarzyna Dragańska-Deja; Luciana Ferrero; Ricardo Giesecke; Diego R. Gimenez; Humberto E. González; Juan Höfer; Kerstin Jerosch; Silke Laakmann; Gustavo Lovrich; Tomás I. Marina; Jacobo Martín; Carolina V. Matula; Mireia Mestre; Jens Meyerjürgens; Maria Piotto; Gisela A. Moran; Maria Liliana Quartino; Agustín D. Rimondino; Sofia A. Risso; Iara D. Rodriguez; Natalia Servetto; Daniela Storch; Clara N. Rodríguez-Flórez; Leonardo Saravia; Irene R. Schloss; Matthew J. Slater; Marcos Tatián; Luciana Torre; Dick Van Oevelen; Jochen Wollschläger; Oliver Zielinski

doi:10.1016/j.earscirev.2025.105372

Standardising research on marine biological carbon pathways required to estimate sequestration at Polar and sub-Polar latitudes

Simon A. Morley
, David K.A. Barnes
, Camila Neder
, Ricardo Sahade
, Chester J. Sands
, Carla M. de Aranzamendi
, Kaja Balazy
, Piotr Balazy
, Facundo Barrera
, Narissa Bax
, Sofia Becerra
, Lucia Bergagna
, Katarzyna Błachowiak-Samołyk
, Ulrike Braeckman
, Gabriela L. Campana
, Dolores Deregibus
, Marleen De Troch
, Andrea Devis-Morales
, Patricio A. Díaz
, Santiago R. Doyle

Katarzyna Dragańska-Deja, Luciana Ferrero, Ricardo Giesecke, Diego R. Gimenez, Humberto E. González, Juan Höfer, Kerstin Jerosch, Silke Laakmann, Gustavo Lovrich, Tomás I. Marina, Jacobo Martín, Carolina V. Matula, Mireia Mestre, Jens Meyerjürgens, Maria Piotto, Gisela A. Moran, Maria Liliana Quartino, Agustín D. Rimondino, Sofia A. Risso, Iara D. Rodriguez, Natalia Servetto, Daniela Storch, Clara N. Rodríguez-Flórez, Leonardo Saravia, Irene R. Schloss, Matthew J. Slater, Marcos Tatián, Luciana Torre, Dick Van Oevelen, Jochen Wollschläger, Oliver Zielinski

School of Sciences and Engineering

Research output: Contribution to Journal › Review article › peer-review

Abstract

Marine biological (‘blue’) carbon pathways are crucial components of the global carbon budget due to the ecosystem services they provide through the fixation of CO₂ from the atmosphere. CO₂ is removed from biosphere through long-term sequestration into seafloor sediments, removing it from the carbon cycle. Coincident with marine ice loss, little studied negative (mitigating) feedbacks to climate change are emerging in polar waters, which is important to quantify and comprehend. Understanding the mechanisms driving these pathways, that could lead to change, is a massive task and to ensure studies are comparable requires standardisation and prioritisation of future research. The expertise of scientists within the EU grant, Coastal ecosystem carbon balance in times of rapid glacier melt (CoastCarb), identified the 23 most important high latitude pathways through a modified Delphi scoring system. Metrics were selected as priorities for future research and for syntheses across broader geographic regions. The metrics with the highest importance scores also scored as the metrics that could be most readily standardised in the next five years. This review provides a definition and description of how each metric is measured, including its central role to blue carbon pathways. It also provides recommendations for standardisation, emphasising the requirement for modelling studies to scale from geographically limited regions where high-resolution data is available. Where methods cannot be standardised, cross calibration between methods is required to ensure reproducibility. An increasing use of remote sensing and innovative technologies will be necessary to scale measurements across this vast and remote region.

Original language	English (US)
Article number	105372
Journal	Earth-Science Reviews
Volume	274
DOIs	https://doi.org/10.1016/j.earscirev.2025.105372
State	Published - Mar 2026

All Science Journal Classification (ASJC) codes

General Earth and Planetary Sciences

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/j.earscirev.2025.105372

Cite this

Morley, S. A., Barnes, D. K. A., Neder, C., Sahade, R., Sands, C. J., de Aranzamendi, C. M., Balazy, K., Balazy, P., Barrera, F., Bax, N., Becerra, S., Bergagna, L., Błachowiak-Samołyk, K., Braeckman, U., Campana, G. L., Deregibus, D., De Troch, M., Devis-Morales, A., Díaz, P. A., ... Zielinski, O. (2026). Standardising research on marine biological carbon pathways required to estimate sequestration at Polar and sub-Polar latitudes. Earth-Science Reviews, 274, Article 105372. https://doi.org/10.1016/j.earscirev.2025.105372

@article{cb28edb5166e41b9880e2e59aa6fc984,

title = "Standardising research on marine biological carbon pathways required to estimate sequestration at Polar and sub-Polar latitudes",

abstract = "Marine biological ({\textquoteleft}blue{\textquoteright}) carbon pathways are crucial components of the global carbon budget due to the ecosystem services they provide through the fixation of CO2 from the atmosphere. CO2 is removed from biosphere through long-term sequestration into seafloor sediments, removing it from the carbon cycle. Coincident with marine ice loss, little studied negative (mitigating) feedbacks to climate change are emerging in polar waters, which is important to quantify and comprehend. Understanding the mechanisms driving these pathways, that could lead to change, is a massive task and to ensure studies are comparable requires standardisation and prioritisation of future research. The expertise of scientists within the EU grant, Coastal ecosystem carbon balance in times of rapid glacier melt (CoastCarb), identified the 23 most important high latitude pathways through a modified Delphi scoring system. Metrics were selected as priorities for future research and for syntheses across broader geographic regions. The metrics with the highest importance scores also scored as the metrics that could be most readily standardised in the next five years. This review provides a definition and description of how each metric is measured, including its central role to blue carbon pathways. It also provides recommendations for standardisation, emphasising the requirement for modelling studies to scale from geographically limited regions where high-resolution data is available. Where methods cannot be standardised, cross calibration between methods is required to ensure reproducibility. An increasing use of remote sensing and innovative technologies will be necessary to scale measurements across this vast and remote region.",

author = "Morley, \{Simon A.\} and Barnes, \{David K.A.\} and Camila Neder and Ricardo Sahade and Sands, \{Chester J.\} and \{de Aranzamendi\}, \{Carla M.\} and Kaja Balazy and Piotr Balazy and Facundo Barrera and Narissa Bax and Sofia Becerra and Lucia Bergagna and Katarzyna B{\l}achowiak-Samo{\l}yk and Ulrike Braeckman and Campana, \{Gabriela L.\} and Dolores Deregibus and \{De Troch\}, Marleen and Andrea Devis-Morales and D{\'i}az, \{Patricio A.\} and Doyle, \{Santiago R.\} and Katarzyna Draga{\'n}ska-Deja and Luciana Ferrero and Ricardo Giesecke and Gimenez, \{Diego R.\} and Gonz{\'a}lez, \{Humberto E.\} and Juan H{\"o}fer and Kerstin Jerosch and Silke Laakmann and Gustavo Lovrich and Marina, \{Tom{\'a}s I.\} and Jacobo Mart{\'i}n and Matula, \{Carolina V.\} and Mireia Mestre and Jens Meyerj{\"u}rgens and Maria Piotto and Moran, \{Gisela A.\} and Quartino, \{Maria Liliana\} and Rimondino, \{Agust{\'i}n D.\} and Risso, \{Sofia A.\} and Rodriguez, \{Iara D.\} and Natalia Servetto and Daniela Storch and Rodr{\'i}guez-Fl{\'o}rez, \{Clara N.\} and Leonardo Saravia and Schloss, \{Irene R.\} and Slater, \{Matthew J.\} and Marcos Tati{\'a}n and Luciana Torre and \{Van Oevelen\}, Dick and Jochen Wollschl{\"a}ger and Oliver Zielinski",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors.",

year = "2026",

month = mar,

doi = "10.1016/j.earscirev.2025.105372",

language = "English (US)",

volume = "274",

journal = "Earth-Science Reviews",

issn = "0012-8252",

publisher = "Elsevier BV",

}

Morley, SA, Barnes, DKA, Neder, C, Sahade, R, Sands, CJ, de Aranzamendi, CM, Balazy, K, Balazy, P, Barrera, F, Bax, N, Becerra, S, Bergagna, L, Błachowiak-Samołyk, K, Braeckman, U, Campana, GL, Deregibus, D, De Troch, M, Devis-Morales, A, Díaz, PA, Doyle, SR, Dragańska-Deja, K, Ferrero, L, Giesecke, R, Gimenez, DR, González, HE, Höfer, J, Jerosch, K, Laakmann, S, Lovrich, G, Marina, TI, Martín, J, Matula, CV, Mestre, M, Meyerjürgens, J, Piotto, M, Moran, GA, Quartino, ML, Rimondino, AD, Risso, SA, Rodriguez, ID, Servetto, N, Storch, D, Rodríguez-Flórez, CN, Saravia, L, Schloss, IR, Slater, MJ, Tatián, M, Torre, L, Van Oevelen, D, Wollschläger, J & Zielinski, O 2026, 'Standardising research on marine biological carbon pathways required to estimate sequestration at Polar and sub-Polar latitudes', Earth-Science Reviews, vol. 274, 105372. https://doi.org/10.1016/j.earscirev.2025.105372

TY - JOUR

T1 - Standardising research on marine biological carbon pathways required to estimate sequestration at Polar and sub-Polar latitudes

AU - Morley, Simon A.

AU - Barnes, David K.A.

AU - Neder, Camila

AU - Sahade, Ricardo

AU - Sands, Chester J.

AU - de Aranzamendi, Carla M.

AU - Balazy, Kaja

AU - Balazy, Piotr

AU - Barrera, Facundo

AU - Bax, Narissa

AU - Becerra, Sofia

AU - Bergagna, Lucia

AU - Błachowiak-Samołyk, Katarzyna

AU - Braeckman, Ulrike

AU - Campana, Gabriela L.

AU - Deregibus, Dolores

AU - De Troch, Marleen

AU - Devis-Morales, Andrea

AU - Díaz, Patricio A.

AU - Doyle, Santiago R.

AU - Dragańska-Deja, Katarzyna

AU - Ferrero, Luciana

AU - Giesecke, Ricardo

AU - Gimenez, Diego R.

AU - González, Humberto E.

AU - Höfer, Juan

AU - Jerosch, Kerstin

AU - Laakmann, Silke

AU - Lovrich, Gustavo

AU - Marina, Tomás I.

AU - Martín, Jacobo

AU - Matula, Carolina V.

AU - Mestre, Mireia

AU - Meyerjürgens, Jens

AU - Piotto, Maria

AU - Moran, Gisela A.

AU - Quartino, Maria Liliana

AU - Rimondino, Agustín D.

AU - Risso, Sofia A.

AU - Rodriguez, Iara D.

AU - Servetto, Natalia

AU - Storch, Daniela

AU - Rodríguez-Flórez, Clara N.

AU - Saravia, Leonardo

AU - Schloss, Irene R.

AU - Slater, Matthew J.

AU - Tatián, Marcos

AU - Torre, Luciana

AU - Van Oevelen, Dick

AU - Wollschläger, Jochen

AU - Zielinski, Oliver

PY - 2026/3

Y1 - 2026/3

N2 - Marine biological (‘blue’) carbon pathways are crucial components of the global carbon budget due to the ecosystem services they provide through the fixation of CO2 from the atmosphere. CO2 is removed from biosphere through long-term sequestration into seafloor sediments, removing it from the carbon cycle. Coincident with marine ice loss, little studied negative (mitigating) feedbacks to climate change are emerging in polar waters, which is important to quantify and comprehend. Understanding the mechanisms driving these pathways, that could lead to change, is a massive task and to ensure studies are comparable requires standardisation and prioritisation of future research. The expertise of scientists within the EU grant, Coastal ecosystem carbon balance in times of rapid glacier melt (CoastCarb), identified the 23 most important high latitude pathways through a modified Delphi scoring system. Metrics were selected as priorities for future research and for syntheses across broader geographic regions. The metrics with the highest importance scores also scored as the metrics that could be most readily standardised in the next five years. This review provides a definition and description of how each metric is measured, including its central role to blue carbon pathways. It also provides recommendations for standardisation, emphasising the requirement for modelling studies to scale from geographically limited regions where high-resolution data is available. Where methods cannot be standardised, cross calibration between methods is required to ensure reproducibility. An increasing use of remote sensing and innovative technologies will be necessary to scale measurements across this vast and remote region.

AB - Marine biological (‘blue’) carbon pathways are crucial components of the global carbon budget due to the ecosystem services they provide through the fixation of CO2 from the atmosphere. CO2 is removed from biosphere through long-term sequestration into seafloor sediments, removing it from the carbon cycle. Coincident with marine ice loss, little studied negative (mitigating) feedbacks to climate change are emerging in polar waters, which is important to quantify and comprehend. Understanding the mechanisms driving these pathways, that could lead to change, is a massive task and to ensure studies are comparable requires standardisation and prioritisation of future research. The expertise of scientists within the EU grant, Coastal ecosystem carbon balance in times of rapid glacier melt (CoastCarb), identified the 23 most important high latitude pathways through a modified Delphi scoring system. Metrics were selected as priorities for future research and for syntheses across broader geographic regions. The metrics with the highest importance scores also scored as the metrics that could be most readily standardised in the next five years. This review provides a definition and description of how each metric is measured, including its central role to blue carbon pathways. It also provides recommendations for standardisation, emphasising the requirement for modelling studies to scale from geographically limited regions where high-resolution data is available. Where methods cannot be standardised, cross calibration between methods is required to ensure reproducibility. An increasing use of remote sensing and innovative technologies will be necessary to scale measurements across this vast and remote region.

UR - https://www.scopus.com/pages/publications/105027737307

UR - https://www.scopus.com/pages/publications/105027737307#tab=citedBy

U2 - 10.1016/j.earscirev.2025.105372

DO - 10.1016/j.earscirev.2025.105372

M3 - Review article

AN - SCOPUS:105027737307

SN - 0012-8252

VL - 274

JO - Earth-Science Reviews

JF - Earth-Science Reviews

M1 - 105372

ER -

Standardising research on marine biological carbon pathways required to estimate sequestration at Polar and sub-Polar latitudes

Abstract

All Science Journal Classification (ASJC) codes

UN SDGs

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