Divergent responses of pelagic and benthic fish body-size structure to remoteness and protection from humans

Tom B. Letessier; David Mouillot; Laura Mannocci; Hanna Jabour Christ; Elamin Mohammed Elamin; Sheikheldin Mohamed Elamin; Alan M. Friedlander; Alex Hearn; Jean Baptiste Juhel; Alf Ring Kleiven; Even Moland; Nicolas Mouquet; Portia Joy Nillos-Kleiven; Enric Sala; Christopher D.H. Thompson; Laure Velez; Laurent Vigliola; Jessica J. Meeuwig

doi:10.1126/science.adi7562

Divergent responses of pelagic and benthic fish body-size structure to remoteness and protection from humans

Tom B. Letessier^*
, David Mouillot
, Laura Mannocci
, Hanna Jabour Christ
, Elamin Mohammed Elamin
, Sheikheldin Mohamed Elamin
, Alan M. Friedlander
, Alex Hearn
, Jean Baptiste Juhel
, Alf Ring Kleiven
, Even Moland
, Nicolas Mouquet
, Portia Joy Nillos-Kleiven
, Enric Sala
, Christopher D.H. Thompson
, Laure Velez
, Laurent Vigliola
, Jessica J. Meeuwig

^*Corresponding author for this work

Biología

FRB
Zoological Society of London Institute of Zoology
Crawley Western Australia
CNRS)
Red Sea Fisheries Research Station
Red Sea State University
National Geographic Society
University of Hawai'i at Mānoa
MigraMar
Centre IRD de Nouméa
Institute of Marine Research
University of Agder

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

13 Scopus citations

Abstract

Animal body-size variation influences multiple processes in marine ecosystems, but habitat heterogeneity has prevented a comprehensive assessment of size across pelagic (midwater) and benthic (seabed) systems along anthropic gradients. In this work, we derive fish size indicators from 17,411 stereo baited-video deployments to test for differences between pelagic and benthic responses to remoteness from human pressures and effectiveness of marine protected areas (MPAs). From records of 823,849 individual fish, we report divergent responses between systems, with pelagic size structure more profoundly eroded near human markets than benthic size structure, signifying greater vulnerability of pelagic systems to human pressure. Effective protection of benthic size structure can be achieved through MPAs placed near markets, thereby contributing to benthic habitat restoration and the recovery of associated fishes. By contrast, recovery of the world’s largest and most endangered fishes in pelagic systems requires the creation of highly protected areas in remote locations, including on the High Seas, where protection efforts lag.

Original language	English
Pages (from-to)	976-982
Number of pages	7
Journal	Science
Volume	383
Issue number	6686
DOIs	https://doi.org/10.1126/science.adi7562
State	Published - 1 Mar 2024

UN SDGs

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

SDG 14 Life Below Water

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10.1126/science.adi7562

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Letessier, T. B., Mouillot, D., Mannocci, L., Christ, H. J., Elamin, E. M., Elamin, S. M., Friedlander, A. M., Hearn, A., Juhel, J. B., Kleiven, A. R., Moland, E., Mouquet, N., Nillos-Kleiven, P. J., Sala, E., Thompson, C. D. H., Velez, L., Vigliola, L., & Meeuwig, J. J. (2024). Divergent responses of pelagic and benthic fish body-size structure to remoteness and protection from humans. Science, 383(6686), 976-982. https://doi.org/10.1126/science.adi7562

@article{c93eb2c3b0ee47bdb982e4b41548dc66,

title = "Divergent responses of pelagic and benthic fish body-size structure to remoteness and protection from humans",

abstract = "Animal body-size variation influences multiple processes in marine ecosystems, but habitat heterogeneity has prevented a comprehensive assessment of size across pelagic (midwater) and benthic (seabed) systems along anthropic gradients. In this work, we derive fish size indicators from 17,411 stereo baited-video deployments to test for differences between pelagic and benthic responses to remoteness from human pressures and effectiveness of marine protected areas (MPAs). From records of 823,849 individual fish, we report divergent responses between systems, with pelagic size structure more profoundly eroded near human markets than benthic size structure, signifying greater vulnerability of pelagic systems to human pressure. Effective protection of benthic size structure can be achieved through MPAs placed near markets, thereby contributing to benthic habitat restoration and the recovery of associated fishes. By contrast, recovery of the world{\textquoteright}s largest and most endangered fishes in pelagic systems requires the creation of highly protected areas in remote locations, including on the High Seas, where protection efforts lag.",

author = "Letessier, \{Tom B.\} and David Mouillot and Laura Mannocci and Christ, \{Hanna Jabour\} and Elamin, \{Elamin Mohammed\} and Elamin, \{Sheikheldin Mohamed\} and Friedlander, \{Alan M.\} and Alex Hearn and Juhel, \{Jean Baptiste\} and Kleiven, \{Alf Ring\} and Even Moland and Nicolas Mouquet and Nillos-Kleiven, \{Portia Joy\} and Enric Sala and Thompson, \{Christopher D.H.\} and Laure Velez and Laurent Vigliola and Meeuwig, \{Jessica J.\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2024 the authors, some rights reserved.",

year = "2024",

month = mar,

day = "1",

doi = "10.1126/science.adi7562",

language = "Ingl{\'e}s",

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Letessier, TB, Mouillot, D, Mannocci, L, Christ, HJ, Elamin, EM, Elamin, SM, Friedlander, AM, Hearn, A, Juhel, JB, Kleiven, AR, Moland, E, Mouquet, N, Nillos-Kleiven, PJ, Sala, E, Thompson, CDH, Velez, L, Vigliola, L & Meeuwig, JJ 2024, 'Divergent responses of pelagic and benthic fish body-size structure to remoteness and protection from humans', Science, vol. 383, no. 6686, pp. 976-982. https://doi.org/10.1126/science.adi7562

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T1 - Divergent responses of pelagic and benthic fish body-size structure to remoteness and protection from humans

AU - Letessier, Tom B.

AU - Mouillot, David

AU - Mannocci, Laura

AU - Christ, Hanna Jabour

AU - Elamin, Elamin Mohammed

AU - Elamin, Sheikheldin Mohamed

AU - Friedlander, Alan M.

AU - Hearn, Alex

AU - Juhel, Jean Baptiste

AU - Kleiven, Alf Ring

AU - Moland, Even

AU - Mouquet, Nicolas

AU - Nillos-Kleiven, Portia Joy

AU - Sala, Enric

AU - Thompson, Christopher D.H.

AU - Velez, Laure

AU - Vigliola, Laurent

AU - Meeuwig, Jessica J.

PY - 2024/3/1

Y1 - 2024/3/1

N2 - Animal body-size variation influences multiple processes in marine ecosystems, but habitat heterogeneity has prevented a comprehensive assessment of size across pelagic (midwater) and benthic (seabed) systems along anthropic gradients. In this work, we derive fish size indicators from 17,411 stereo baited-video deployments to test for differences between pelagic and benthic responses to remoteness from human pressures and effectiveness of marine protected areas (MPAs). From records of 823,849 individual fish, we report divergent responses between systems, with pelagic size structure more profoundly eroded near human markets than benthic size structure, signifying greater vulnerability of pelagic systems to human pressure. Effective protection of benthic size structure can be achieved through MPAs placed near markets, thereby contributing to benthic habitat restoration and the recovery of associated fishes. By contrast, recovery of the world’s largest and most endangered fishes in pelagic systems requires the creation of highly protected areas in remote locations, including on the High Seas, where protection efforts lag.

AB - Animal body-size variation influences multiple processes in marine ecosystems, but habitat heterogeneity has prevented a comprehensive assessment of size across pelagic (midwater) and benthic (seabed) systems along anthropic gradients. In this work, we derive fish size indicators from 17,411 stereo baited-video deployments to test for differences between pelagic and benthic responses to remoteness from human pressures and effectiveness of marine protected areas (MPAs). From records of 823,849 individual fish, we report divergent responses between systems, with pelagic size structure more profoundly eroded near human markets than benthic size structure, signifying greater vulnerability of pelagic systems to human pressure. Effective protection of benthic size structure can be achieved through MPAs placed near markets, thereby contributing to benthic habitat restoration and the recovery of associated fishes. By contrast, recovery of the world’s largest and most endangered fishes in pelagic systems requires the creation of highly protected areas in remote locations, including on the High Seas, where protection efforts lag.

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DO - 10.1126/science.adi7562

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C2 - 38422147

AN - SCOPUS:85186298382

SN - 0036-8075

VL - 383

SP - 976

EP - 982

JO - Science

JF - Science

IS - 6686

ER -

Divergent responses of pelagic and benthic fish body-size structure to remoteness and protection from humans

Abstract

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