Evolution of the Source Mineralogy and Lithospheric Controls on Magmatism During the Northeast Atlantic Continental Breakup

Emily H. Cunningham; Sarah Lambart; Pengyuan Guo; Sayantani Chatterjee; Christian Tegner; Autumn Hartley; Ashley M. Morris; Sverre Planke; Christian Berndt; Carlos A. Alvarez Zarikian; Peter Betlem; Henk Brinkhuis; Marialena Christopoulou; Eric C. Ferré; Irina Y. Filina; Joost Frieling; Dustin T. Harper; Morgan T. Jones; Jack Longman; John M. Millett; Geoffroy T.F. Mohn; Reed P. Scherer; Natalia Varela; Weimu Xu; Stacy L. Yager

doi:10.1029/2025GC012556

Evolution of the Source Mineralogy and Lithospheric Controls on Magmatism During the Northeast Atlantic Continental Breakup

Emily H. Cunningham^*
, Sarah Lambart
, Pengyuan Guo
, Sayantani Chatterjee
, Christian Tegner
, Autumn Hartley
, Ashley M. Morris
, Sverre Planke
, Christian Berndt
, Carlos A. Alvarez Zarikian
, Peter Betlem
, Henk Brinkhuis
, Marialena Christopoulou
, Eric C. Ferré
, Irina Y. Filina
, Joost Frieling
, Dustin T. Harper
, Morgan T. Jones
, Jack Longman
, John M. Millett

Geoffroy T.F. Mohn, Reed P. Scherer, Natalia Varela, Weimu Xu, Stacy L. Yager

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

The mid-Norwegian Margin, part of the North Atlantic Igneous Province (NAIP), is a well-studied volcanic rifted margin formed during the breakup between Greenland and Eurasia ∼56 Ma, with the largest accumulation of magmatic material hosted by the Vøring Margin section. Despite extensive study in the area, the main controls on magmatic productivity during continental breakup remain debated. To constrain the drivers of breakup magmatism, we developed an inverse Monte Carlo statistical melting model that infers source mineralogy from basalt chemistry. When applied to basalts recently recovered on the Vøring Margin, our results reveal a clear shift in source mineralogy during rifting, with peak magmatism coinciding with clinopyroxene enrichment, despite mantle potential temperatures likely being capped below 1500°C. We also establish that, while the proto-Iceland mantle plume played a role during the emplacement of the NAIP, the main driver for the continental breakup magmatism is lithospheric thinning as a consequence of continent breakup. This study provides new insights into the magmatic and geodynamic evolution of the mid-Norwegian Margin, emphasizing the role of lithospheric refertilization in driving breakup magmatism.

Original language	English
Article number	e2025GC012556
Journal	Geochemistry, Geophysics, Geosystems
Volume	27
Issue number	2
DOIs	https://doi.org/10.1029/2025GC012556
Publication status	Published - Feb 2026

Bibliographical note

Publisher Copyright:
© 2026 The Author(s). Geochemistry, Geophysics, Geosystems published by Wiley Periodicals LLC on behalf of American Geophysical Union.

Keywords

geochemical modeling
igneous petrology
North Atlantic igneous province

Access to Document

10.1029/2025GC012556Licence: CC BY-NC-ND

Geochem Geophys Geosyst - 2026 - Cunningham - Evolution of the Source Mineralogy and Lithospheric Controls on MagmatismFinal published version, 3.52 MBLicence: CC BY-NC-ND

Cite this

Cunningham, E. H., Lambart, S., Guo, P., Chatterjee, S., Tegner, C., Hartley, A., Morris, A. M., Planke, S., Berndt, C., Alvarez Zarikian, C. A., Betlem, P., Brinkhuis, H., Christopoulou, M., Ferré, E. C., Filina, I. Y., Frieling, J., Harper, D. T., Jones, M. T., Longman, J., ... Yager, S. L. (2026). Evolution of the Source Mineralogy and Lithospheric Controls on Magmatism During the Northeast Atlantic Continental Breakup. Geochemistry, Geophysics, Geosystems, 27(2), Article e2025GC012556. https://doi.org/10.1029/2025GC012556

@article{2ee60aa68c744bc9b91ee95be03c0056,

title = "Evolution of the Source Mineralogy and Lithospheric Controls on Magmatism During the Northeast Atlantic Continental Breakup",

abstract = "The mid-Norwegian Margin, part of the North Atlantic Igneous Province (NAIP), is a well-studied volcanic rifted margin formed during the breakup between Greenland and Eurasia ∼56 Ma, with the largest accumulation of magmatic material hosted by the V{\o}ring Margin section. Despite extensive study in the area, the main controls on magmatic productivity during continental breakup remain debated. To constrain the drivers of breakup magmatism, we developed an inverse Monte Carlo statistical melting model that infers source mineralogy from basalt chemistry. When applied to basalts recently recovered on the V{\o}ring Margin, our results reveal a clear shift in source mineralogy during rifting, with peak magmatism coinciding with clinopyroxene enrichment, despite mantle potential temperatures likely being capped below 1500°C. We also establish that, while the proto-Iceland mantle plume played a role during the emplacement of the NAIP, the main driver for the continental breakup magmatism is lithospheric thinning as a consequence of continent breakup. This study provides new insights into the magmatic and geodynamic evolution of the mid-Norwegian Margin, emphasizing the role of lithospheric refertilization in driving breakup magmatism.",

keywords = "geochemical modeling, igneous petrology, North Atlantic igneous province",

author = "Cunningham, \{Emily H.\} and Sarah Lambart and Pengyuan Guo and Sayantani Chatterjee and Christian Tegner and Autumn Hartley and Morris, \{Ashley M.\} and Sverre Planke and Christian Berndt and \{Alvarez Zarikian\}, \{Carlos A.\} and Peter Betlem and Henk Brinkhuis and Marialena Christopoulou and Ferr{\'e}, \{Eric C.\} and Filina, \{Irina Y.\} and Joost Frieling and Harper, \{Dustin T.\} and Jones, \{Morgan T.\} and Jack Longman and Millett, \{John M.\} and Mohn, \{Geoffroy T.F.\} and Scherer, \{Reed P.\} and Natalia Varela and Weimu Xu and Yager, \{Stacy L.\}",

note = "Publisher Copyright: {\textcopyright} 2026 The Author(s). Geochemistry, Geophysics, Geosystems published by Wiley Periodicals LLC on behalf of American Geophysical Union.",

year = "2026",

month = feb,

doi = "10.1029/2025GC012556",

language = "English",

volume = "27",

journal = "Geochemistry, Geophysics, Geosystems",

issn = "1525-2027",

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Cunningham, EH, Lambart, S, Guo, P, Chatterjee, S, Tegner, C, Hartley, A, Morris, AM, Planke, S, Berndt, C, Alvarez Zarikian, CA, Betlem, P, Brinkhuis, H, Christopoulou, M, Ferré, EC, Filina, IY, Frieling, J, Harper, DT, Jones, MT, Longman, J, Millett, JM, Mohn, GTF, Scherer, RP, Varela, N, Xu, W & Yager, SL 2026, 'Evolution of the Source Mineralogy and Lithospheric Controls on Magmatism During the Northeast Atlantic Continental Breakup', Geochemistry, Geophysics, Geosystems, vol. 27, no. 2, e2025GC012556. https://doi.org/10.1029/2025GC012556

TY - JOUR

T1 - Evolution of the Source Mineralogy and Lithospheric Controls on Magmatism During the Northeast Atlantic Continental Breakup

AU - Cunningham, Emily H.

AU - Lambart, Sarah

AU - Guo, Pengyuan

AU - Chatterjee, Sayantani

AU - Tegner, Christian

AU - Hartley, Autumn

AU - Morris, Ashley M.

AU - Planke, Sverre

AU - Berndt, Christian

AU - Alvarez Zarikian, Carlos A.

AU - Betlem, Peter

AU - Brinkhuis, Henk

AU - Christopoulou, Marialena

AU - Ferré, Eric C.

AU - Filina, Irina Y.

AU - Frieling, Joost

AU - Harper, Dustin T.

AU - Jones, Morgan T.

AU - Longman, Jack

AU - Millett, John M.

AU - Mohn, Geoffroy T.F.

AU - Scherer, Reed P.

AU - Varela, Natalia

AU - Xu, Weimu

AU - Yager, Stacy L.

PY - 2026/2

Y1 - 2026/2

N2 - The mid-Norwegian Margin, part of the North Atlantic Igneous Province (NAIP), is a well-studied volcanic rifted margin formed during the breakup between Greenland and Eurasia ∼56 Ma, with the largest accumulation of magmatic material hosted by the Vøring Margin section. Despite extensive study in the area, the main controls on magmatic productivity during continental breakup remain debated. To constrain the drivers of breakup magmatism, we developed an inverse Monte Carlo statistical melting model that infers source mineralogy from basalt chemistry. When applied to basalts recently recovered on the Vøring Margin, our results reveal a clear shift in source mineralogy during rifting, with peak magmatism coinciding with clinopyroxene enrichment, despite mantle potential temperatures likely being capped below 1500°C. We also establish that, while the proto-Iceland mantle plume played a role during the emplacement of the NAIP, the main driver for the continental breakup magmatism is lithospheric thinning as a consequence of continent breakup. This study provides new insights into the magmatic and geodynamic evolution of the mid-Norwegian Margin, emphasizing the role of lithospheric refertilization in driving breakup magmatism.

AB - The mid-Norwegian Margin, part of the North Atlantic Igneous Province (NAIP), is a well-studied volcanic rifted margin formed during the breakup between Greenland and Eurasia ∼56 Ma, with the largest accumulation of magmatic material hosted by the Vøring Margin section. Despite extensive study in the area, the main controls on magmatic productivity during continental breakup remain debated. To constrain the drivers of breakup magmatism, we developed an inverse Monte Carlo statistical melting model that infers source mineralogy from basalt chemistry. When applied to basalts recently recovered on the Vøring Margin, our results reveal a clear shift in source mineralogy during rifting, with peak magmatism coinciding with clinopyroxene enrichment, despite mantle potential temperatures likely being capped below 1500°C. We also establish that, while the proto-Iceland mantle plume played a role during the emplacement of the NAIP, the main driver for the continental breakup magmatism is lithospheric thinning as a consequence of continent breakup. This study provides new insights into the magmatic and geodynamic evolution of the mid-Norwegian Margin, emphasizing the role of lithospheric refertilization in driving breakup magmatism.

KW - geochemical modeling

KW - igneous petrology

KW - North Atlantic igneous province

UR - https://www.scopus.com/pages/publications/105030270460

U2 - 10.1029/2025GC012556

DO - 10.1029/2025GC012556

M3 - Article

AN - SCOPUS:105030270460

SN - 1525-2027

VL - 27

JO - Geochemistry, Geophysics, Geosystems

JF - Geochemistry, Geophysics, Geosystems

IS - 2

M1 - e2025GC012556

ER -

Evolution of the Source Mineralogy and Lithospheric Controls on Magmatism During the Northeast Atlantic Continental Breakup

Abstract

Bibliographical note

Keywords

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