Geohistorical insights into marine functional connectivity

Konstantina Agiadi; Bryony A. Caswell; Rita Almeida; Ali Becheker; Andreu Blanco; Cristina Brito; Manuel Jesús León-Cobo; Ellie Mae E. Cook; Federica Costantini; Merve Karakuş; Fabien Leprieur; Cataixa López; Lucía López-López; Aaron O. Dea; Sven Pallacks; Irene Rabanal; Lotta Schultz; Susanne E. Tanner; Tatiana Theodoropoulou; Ruth H. Thurstan; Nina Vieira; Audrey M. Darnaude

doi:10.1093/icesjms/fsae117

Geohistorical insights into marine functional connectivity

Konstantina Agiadi, Bryony A. Caswell, Rita Almeida, Ali Becheker, Andreu Blanco, Cristina Brito, Manuel Jesús León-Cobo, Ellie Mae E. Cook, Federica Costantini, Merve Karakuş, Fabien Leprieur, Cataixa López, Lucía López-López, Aaron O. Dea, Sven Pallacks, Irene Rabanal, Lotta Schultz, Susanne E. Tanner, Tatiana Theodoropoulou, Ruth H. ThurstanNina Vieira, Audrey M. Darnaude

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Abstract

Marine functional connectivity (MFC) refers to the flows of organic matter, genes, and energy that are caused by the active and passive movements of marine organisms. Occurring at various temporal and spatial scales, MFC is a dynamic, constantly evolving global ecological process, part of overall ecological connectivity, but with its own distinct and specific patterns. Geological and historical archives of changes in the distributions, life histories, and migration of species can provide baselines for deciphering the long-term trends (decadal to millions of years) and variability of MFC. In this food-for-thought paper, we identify the different types of geohistorical data that can be used to study past MFC. We propose resources that are available for such work. Finally, we offer a roadmap outlining the most appropriate approaches for analysing and interpreting these data, the biases and limitations involved, and what we consider to be the primary themes for future research in this field. Overall, we demonstrate how, despite differences in norms and limitations between disciplines, valuable data on ecological and societal change can be extracted from geological and historical archives, and be used to understand changes of MFC through time.

Original language	English
Pages (from-to)	1884-1911
Number of pages	28
Journal	Ices Journal Of Marine Science
Volume	81
Issue number	10
DOIs	https://doi.org/10.1093/icesjms/fsae117
Publication status	Published - 1 Dec 2024

Keywords

Archaeology
Genetics
Geology
Historical ecology
Palaeontology
Sclerochronology

UN SDGs

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

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Agiadi, K., Caswell, B. A., Almeida, R., Becheker, A., Blanco, A., Brito, C., León-Cobo, M. J., Cook, E. M. E., Costantini, F., Karakuş, M., Leprieur, F., López, C., López-López, L., Dea, A. O., Pallacks, S., Rabanal, I., Schultz, L., Tanner, S. E., Theodoropoulou, T., ... Darnaude, A. M. (2024). Geohistorical insights into marine functional connectivity. Ices Journal Of Marine Science, 81(10), 1884-1911. https://doi.org/10.1093/icesjms/fsae117

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abstract = "Marine functional connectivity (MFC) refers to the flows of organic matter, genes, and energy that are caused by the active and passive movements of marine organisms. Occurring at various temporal and spatial scales, MFC is a dynamic, constantly evolving global ecological process, part of overall ecological connectivity, but with its own distinct and specific patterns. Geological and historical archives of changes in the distributions, life histories, and migration of species can provide baselines for deciphering the long-term trends (decadal to millions of years) and variability of MFC. In this food-for-thought paper, we identify the different types of geohistorical data that can be used to study past MFC. We propose resources that are available for such work. Finally, we offer a roadmap outlining the most appropriate approaches for analysing and interpreting these data, the biases and limitations involved, and what we consider to be the primary themes for future research in this field. Overall, we demonstrate how, despite differences in norms and limitations between disciplines, valuable data on ecological and societal change can be extracted from geological and historical archives, and be used to understand changes of MFC through time.",

keywords = "Archaeology, Genetics, Geology, Historical ecology, Palaeontology, Sclerochronology",

author = "Konstantina Agiadi and Caswell, {Bryony A.} and Rita Almeida and Ali Becheker and Andreu Blanco and Cristina Brito and Le{\'o}n-Cobo, {Manuel Jes{\'u}s} and Cook, {Ellie Mae E.} and Federica Costantini and Merve Karaku{\c s} and Fabien Leprieur and Cataixa L{\'o}pez and Luc{\'i}a L{\'o}pez-L{\'o}pez and Dea, {Aaron O.} and Sven Pallacks and Irene Rabanal and Lotta Schultz and Tanner, {Susanne E.} and Tatiana Theodoropoulou and Thurstan, {Ruth H.} and Nina Vieira and Darnaude, {Audrey M.}",

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year = "2024",

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doi = "10.1093/icesjms/fsae117",

language = "English",

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Agiadi, K, Caswell, BA, Almeida, R, Becheker, A, Blanco, A, Brito, C, León-Cobo, MJ, Cook, EME, Costantini, F, Karakuş, M, Leprieur, F, López, C, López-López, L, Dea, AO, Pallacks, S, Rabanal, I, Schultz, L, Tanner, SE, Theodoropoulou, T, Thurstan, RH, Vieira, N & Darnaude, AM 2024, 'Geohistorical insights into marine functional connectivity', Ices Journal Of Marine Science, vol. 81, no. 10, pp. 1884-1911. https://doi.org/10.1093/icesjms/fsae117

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T1 - Geohistorical insights into marine functional connectivity

AU - Agiadi, Konstantina

AU - Caswell, Bryony A.

AU - Almeida, Rita

AU - Becheker, Ali

AU - Blanco, Andreu

AU - Brito, Cristina

AU - León-Cobo, Manuel Jesús

AU - Cook, Ellie Mae E.

AU - Costantini, Federica

AU - Karakuş, Merve

AU - Leprieur, Fabien

AU - López, Cataixa

AU - López-López, Lucía

AU - Dea, Aaron O.

AU - Pallacks, Sven

AU - Rabanal, Irene

AU - Schultz, Lotta

AU - Tanner, Susanne E.

AU - Theodoropoulou, Tatiana

AU - Thurstan, Ruth H.

AU - Vieira, Nina

AU - Darnaude, Audrey M.

N1 - info:eu-repo/grantAgreement/FCT/6817 - DCRRNI ID/UIDB%2F04666%2F2020/PT# info:eu-repo/grantAgreement/FCT/6817 - DCRRNI ID/UIDP%2F04666%2F2020/PT# info:eu-repo/grantAgreement/FCT/6817 - DCRRNI ID/UIDB%2F04292%2F2020/PT# UIDB/04666/2020 UIDP/04666/2020 UIDB/04292/2020 ARNET LA/P/0069/2020

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Y1 - 2024/12/1

N2 - Marine functional connectivity (MFC) refers to the flows of organic matter, genes, and energy that are caused by the active and passive movements of marine organisms. Occurring at various temporal and spatial scales, MFC is a dynamic, constantly evolving global ecological process, part of overall ecological connectivity, but with its own distinct and specific patterns. Geological and historical archives of changes in the distributions, life histories, and migration of species can provide baselines for deciphering the long-term trends (decadal to millions of years) and variability of MFC. In this food-for-thought paper, we identify the different types of geohistorical data that can be used to study past MFC. We propose resources that are available for such work. Finally, we offer a roadmap outlining the most appropriate approaches for analysing and interpreting these data, the biases and limitations involved, and what we consider to be the primary themes for future research in this field. Overall, we demonstrate how, despite differences in norms and limitations between disciplines, valuable data on ecological and societal change can be extracted from geological and historical archives, and be used to understand changes of MFC through time.

AB - Marine functional connectivity (MFC) refers to the flows of organic matter, genes, and energy that are caused by the active and passive movements of marine organisms. Occurring at various temporal and spatial scales, MFC is a dynamic, constantly evolving global ecological process, part of overall ecological connectivity, but with its own distinct and specific patterns. Geological and historical archives of changes in the distributions, life histories, and migration of species can provide baselines for deciphering the long-term trends (decadal to millions of years) and variability of MFC. In this food-for-thought paper, we identify the different types of geohistorical data that can be used to study past MFC. We propose resources that are available for such work. Finally, we offer a roadmap outlining the most appropriate approaches for analysing and interpreting these data, the biases and limitations involved, and what we consider to be the primary themes for future research in this field. Overall, we demonstrate how, despite differences in norms and limitations between disciplines, valuable data on ecological and societal change can be extracted from geological and historical archives, and be used to understand changes of MFC through time.

KW - Archaeology

KW - Genetics

KW - Geology

KW - Historical ecology

KW - Palaeontology

KW - Sclerochronology

UR - http://www.scopus.com/inward/record.url?scp=85212965761&partnerID=8YFLogxK

U2 - 10.1093/icesjms/fsae117

DO - 10.1093/icesjms/fsae117

M3 - Article

AN - SCOPUS:85212965761

SN - 1054-3139

VL - 81

SP - 1884

EP - 1911

JO - Ices Journal Of Marine Science

JF - Ices Journal Of Marine Science

IS - 10

ER -

Geohistorical insights into marine functional connectivity

Abstract

Keywords

UN SDGs

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