Seasonal vertical migration of large polar copepods reinterpreted as a dispersal mechanism throughout the water column

Katie Jones; Giuliano Laudone; Katrin Schmidt; Barbara Niehoff; Astrid Cornils; Wilhelm Hagen; Hauke Flores; Céline Heuzé; Nahid Welteke; Sabrina Dorschner; Matthias Woll; Robert G. Campbell; Carin J. Ashjian; Cecilia E. Gelfman; Katyanne M. Shoemaker; Rebecca Jenkins; Benoit Lebreton; Gael Guillou; Clara J.M. Hoppe; Serdar Sakinan; Fokje L. Schaafsma; Nicole Hildebrandt; Giulia Castellani; Simon Belt; Allison A. Fong; Angus Atkinson; Martin Graeve

doi:10.1038/s43247-025-02389-9

Seasonal vertical migration of large polar copepods reinterpreted as a dispersal mechanism throughout the water column

Katie Jones
, Giuliano Laudone
, Katrin Schmidt^*
, Barbara Niehoff
, Astrid Cornils
, Wilhelm Hagen
, Hauke Flores
, Céline Heuzé
, Nahid Welteke
, Sabrina Dorschner
, Matthias Woll
, Robert G. Campbell
, Carin J. Ashjian
, Cecilia E. Gelfman
, Katyanne M. Shoemaker
, Rebecca Jenkins
, Benoit Lebreton
, Gael Guillou
, Clara J.M. Hoppe
, Serdar Sakinan

Fokje L. Schaafsma, Nicole Hildebrandt, Giulia Castellani, Simon Belt, Allison A. Fong, Angus Atkinson, Martin Graeve

^*Corresponding author for this work

School of Geography, Earth and Environmental Sciences

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

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Abstract

Seasonal vertical migration of large lipid-rich copepods is often described as a mass descent of animals when primary production ceases, with important implications for mesopelagic food webs and global carbon sequestration. This view ignores the existence of surface-resident individuals, but here we show that non-migrants can form a substantial part of the populations of polar migrant species. In the Central Arctic Ocean, the biomass-dominant Calanus hyperboreus was evenly distributed throughout the water column from November 2019 to March 2020, with ~20% of subadults and adult females remaining in the upper 200 m and ~41% migrating to 1000–2000 m. These vertical positions aligned with differences in the copepods’ cholesterol content, which can enhance the tissue density at higher temperatures. Gonad development and the vertical distribution of their offspring indicate that both non-migrant and migrant females contribute to the population recruitment. We reinterpret copepod seasonal migration as a bet-hedging strategy that balances nutritional benefits near the surface with survival benefits at depth, and thereby contributes to the species’ resilience under climatic change.

Original language	English
Article number	431
Pages (from-to)	2662-4435
Journal	Communications Earth and Environment
Volume	6
Issue number	1
DOIs	https://doi.org/10.1038/s43247-025-02389-9
Publication status	Published - 4 Jun 2025

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Jones, K., Laudone, G., Schmidt, K., Niehoff, B., Cornils, A., Hagen, W., Flores, H., Heuzé, C., Welteke, N., Dorschner, S., Woll, M., Campbell, R. G., Ashjian, C. J., Gelfman, C. E., Shoemaker, K. M., Jenkins, R., Lebreton, B., Guillou, G., Hoppe, C. J. M., ... Graeve, M. (2025). Seasonal vertical migration of large polar copepods reinterpreted as a dispersal mechanism throughout the water column. Communications Earth and Environment, 6(1), 2662-4435. Article 431. https://doi.org/10.1038/s43247-025-02389-9

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title = "Seasonal vertical migration of large polar copepods reinterpreted as a dispersal mechanism throughout the water column",

abstract = "Seasonal vertical migration of large lipid-rich copepods is often described as a mass descent of animals when primary production ceases, with important implications for mesopelagic food webs and global carbon sequestration. This view ignores the existence of surface-resident individuals, but here we show that non-migrants can form a substantial part of the populations of polar migrant species. In the Central Arctic Ocean, the biomass-dominant Calanus hyperboreus was evenly distributed throughout the water column from November 2019 to March 2020, with \textasciitilde{}20\% of subadults and adult females remaining in the upper 200 m and \textasciitilde{}41\% migrating to 1000–2000 m. These vertical positions aligned with differences in the copepods{\textquoteright} cholesterol content, which can enhance the tissue density at higher temperatures. Gonad development and the vertical distribution of their offspring indicate that both non-migrant and migrant females contribute to the population recruitment. We reinterpret copepod seasonal migration as a bet-hedging strategy that balances nutritional benefits near the surface with survival benefits at depth, and thereby contributes to the species{\textquoteright} resilience under climatic change.",

author = "Katie Jones and Giuliano Laudone and Katrin Schmidt and Barbara Niehoff and Astrid Cornils and Wilhelm Hagen and Hauke Flores and C{\'e}line Heuz{\'e} and Nahid Welteke and Sabrina Dorschner and Matthias Woll and Campbell, \{Robert G.\} and Ashjian, \{Carin J.\} and Gelfman, \{Cecilia E.\} and Shoemaker, \{Katyanne M.\} and Rebecca Jenkins and Benoit Lebreton and Gael Guillou and Hoppe, \{Clara J.M.\} and Serdar Sakinan and Schaafsma, \{Fokje L.\} and Nicole Hildebrandt and Giulia Castellani and Simon Belt and Fong, \{Allison A.\} and Angus Atkinson and Martin Graeve",

year = "2025",

month = jun,

day = "4",

doi = "10.1038/s43247-025-02389-9",

language = "English",

volume = "6",

pages = "2662--4435",

journal = "Communications Earth and Environment",

issn = "2662-4435",

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Jones, K , Laudone, G , Schmidt, K, Niehoff, B, Cornils, A, Hagen, W, Flores, H, Heuzé, C, Welteke, N, Dorschner, S, Woll, M, Campbell, RG, Ashjian, CJ, Gelfman, CE, Shoemaker, KM, Jenkins, R, Lebreton, B, Guillou, G, Hoppe, CJM, Sakinan, S, Schaafsma, FL, Hildebrandt, N, Castellani, G, Belt, S, Fong, AA, Atkinson, A & Graeve, M 2025, 'Seasonal vertical migration of large polar copepods reinterpreted as a dispersal mechanism throughout the water column', Communications Earth and Environment, vol. 6, no. 1, 431, pp. 2662-4435. https://doi.org/10.1038/s43247-025-02389-9

TY - JOUR

T1 - Seasonal vertical migration of large polar copepods reinterpreted as a dispersal mechanism throughout the water column

AU - Jones, Katie

AU - Laudone, Giuliano

AU - Schmidt, Katrin

AU - Niehoff, Barbara

AU - Cornils, Astrid

AU - Hagen, Wilhelm

AU - Flores, Hauke

AU - Heuzé, Céline

AU - Welteke, Nahid

AU - Dorschner, Sabrina

AU - Woll, Matthias

AU - Campbell, Robert G.

AU - Ashjian, Carin J.

AU - Gelfman, Cecilia E.

AU - Shoemaker, Katyanne M.

AU - Jenkins, Rebecca

AU - Lebreton, Benoit

AU - Guillou, Gael

AU - Hoppe, Clara J.M.

AU - Sakinan, Serdar

AU - Schaafsma, Fokje L.

AU - Hildebrandt, Nicole

AU - Castellani, Giulia

AU - Belt, Simon

AU - Fong, Allison A.

AU - Atkinson, Angus

AU - Graeve, Martin

PY - 2025/6/4

Y1 - 2025/6/4

N2 - Seasonal vertical migration of large lipid-rich copepods is often described as a mass descent of animals when primary production ceases, with important implications for mesopelagic food webs and global carbon sequestration. This view ignores the existence of surface-resident individuals, but here we show that non-migrants can form a substantial part of the populations of polar migrant species. In the Central Arctic Ocean, the biomass-dominant Calanus hyperboreus was evenly distributed throughout the water column from November 2019 to March 2020, with ~20% of subadults and adult females remaining in the upper 200 m and ~41% migrating to 1000–2000 m. These vertical positions aligned with differences in the copepods’ cholesterol content, which can enhance the tissue density at higher temperatures. Gonad development and the vertical distribution of their offspring indicate that both non-migrant and migrant females contribute to the population recruitment. We reinterpret copepod seasonal migration as a bet-hedging strategy that balances nutritional benefits near the surface with survival benefits at depth, and thereby contributes to the species’ resilience under climatic change.

AB - Seasonal vertical migration of large lipid-rich copepods is often described as a mass descent of animals when primary production ceases, with important implications for mesopelagic food webs and global carbon sequestration. This view ignores the existence of surface-resident individuals, but here we show that non-migrants can form a substantial part of the populations of polar migrant species. In the Central Arctic Ocean, the biomass-dominant Calanus hyperboreus was evenly distributed throughout the water column from November 2019 to March 2020, with ~20% of subadults and adult females remaining in the upper 200 m and ~41% migrating to 1000–2000 m. These vertical positions aligned with differences in the copepods’ cholesterol content, which can enhance the tissue density at higher temperatures. Gonad development and the vertical distribution of their offspring indicate that both non-migrant and migrant females contribute to the population recruitment. We reinterpret copepod seasonal migration as a bet-hedging strategy that balances nutritional benefits near the surface with survival benefits at depth, and thereby contributes to the species’ resilience under climatic change.

UR - https://pearl.plymouth.ac.uk/gees-research/1480/

U2 - 10.1038/s43247-025-02389-9

DO - 10.1038/s43247-025-02389-9

M3 - Article

SN - 2662-4435

VL - 6

SP - 2662

EP - 4435

JO - Communications Earth and Environment

JF - Communications Earth and Environment

IS - 1

M1 - 431

ER -

Seasonal vertical migration of large polar copepods reinterpreted as a dispersal mechanism throughout the water column

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