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Fish communities can simultaneously contribute to nature and people across the world's tropical reefs

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Fish communities can simultaneously contribute to nature and people across the world's tropical reefs. / Flandrin, U.; Mouillot, D.; Albouy, C. et al.
In: One Earth, Vol. 7, No. 10, 18.10.2024, p. 1772-1785.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Flandrin, U, Mouillot, D, Albouy, C, Bejarano, S, Casajus, N, Cinner, J, Edgar, G, Ghilardi, M, Leprieur, F, Loiseau, N, MacNeil, A, Maire, E, McLean, M, Parravicini, V, Pellissier, L, Schiettekatte, N, Stuart-Smith, RD, Villéger, S & Mouquet, N 2024, 'Fish communities can simultaneously contribute to nature and people across the world's tropical reefs', One Earth, vol. 7, no. 10, pp. 1772-1785. https://doi.org/10.1016/j.oneear.2024.09.011

APA

Flandrin, U., Mouillot, D., Albouy, C., Bejarano, S., Casajus, N., Cinner, J., Edgar, G., Ghilardi, M., Leprieur, F., Loiseau, N., MacNeil, A., Maire, E., McLean, M., Parravicini, V., Pellissier, L., Schiettekatte, N., Stuart-Smith, R. D., Villéger, S., & Mouquet, N. (2024). Fish communities can simultaneously contribute to nature and people across the world's tropical reefs. One Earth, 7(10), 1772-1785. https://doi.org/10.1016/j.oneear.2024.09.011

Vancouver

Flandrin U, Mouillot D, Albouy C, Bejarano S, Casajus N, Cinner J et al. Fish communities can simultaneously contribute to nature and people across the world's tropical reefs. One Earth. 2024 Oct 18;7(10):1772-1785. doi: 10.1016/j.oneear.2024.09.011

Author

Flandrin, U. ; Mouillot, D. ; Albouy, C. et al. / Fish communities can simultaneously contribute to nature and people across the world's tropical reefs. In: One Earth. 2024 ; Vol. 7, No. 10. pp. 1772-1785.

Bibtex

@article{f9a3c4abb4474e6bb41cf002704dc578,
title = "Fish communities can simultaneously contribute to nature and people across the world's tropical reefs",
abstract = "Anthropogenic activities are eroding biodiversity and its contributions to nature and people worldwide. Yet, the dual imperative to protect nature and sustain human well-being raises potential trade-offs that remain to be quantified. Using standardized fish surveys across 1,237 tropical reefs worldwide, we converted the presence and abundance data of 1,024 species into 29 fish community contributions that primarily benefit either nature or people. We show that “nature-for-nature” contributions are mostly positively correlated with total fish biomass, while “nature-for-people” contributions are more independent. Trade-offs among contributions are not the rule, with some tropical fish communities simultaneously providing high levels of different contributions. High mean contributions have been found in all tropical oceans, so sustaining healthy tropical reefs while promoting human well-being seems achievable within most countries, rather than mutually exclusive. Our framework offers an opportunity to explore different management strategies and pathways on tropical reefs between the use and the sparing of nature toward more favorable and sustainable ecological and social futures.",
author = "U. Flandrin and D. Mouillot and C. Albouy and S. Bejarano and N. Casajus and J. Cinner and G. Edgar and M. Ghilardi and F. Leprieur and N. Loiseau and A. MacNeil and E. Maire and M. McLean and V. Parravicini and L. Pellissier and N. Schiettekatte and R.D. Stuart-Smith and S. Vill{\'e}ger and N. Mouquet",
year = "2024",
month = oct,
day = "18",
doi = "10.1016/j.oneear.2024.09.011",
language = "English",
volume = "7",
pages = "1772--1785",
journal = "One Earth",
issn = "2590-3330",
publisher = "CELL PRESS",
number = "10",

}

RIS

TY - JOUR

T1 - Fish communities can simultaneously contribute to nature and people across the world's tropical reefs

AU - Flandrin, U.

AU - Mouillot, D.

AU - Albouy, C.

AU - Bejarano, S.

AU - Casajus, N.

AU - Cinner, J.

AU - Edgar, G.

AU - Ghilardi, M.

AU - Leprieur, F.

AU - Loiseau, N.

AU - MacNeil, A.

AU - Maire, E.

AU - McLean, M.

AU - Parravicini, V.

AU - Pellissier, L.

AU - Schiettekatte, N.

AU - Stuart-Smith, R.D.

AU - Villéger, S.

AU - Mouquet, N.

PY - 2024/10/18

Y1 - 2024/10/18

N2 - Anthropogenic activities are eroding biodiversity and its contributions to nature and people worldwide. Yet, the dual imperative to protect nature and sustain human well-being raises potential trade-offs that remain to be quantified. Using standardized fish surveys across 1,237 tropical reefs worldwide, we converted the presence and abundance data of 1,024 species into 29 fish community contributions that primarily benefit either nature or people. We show that “nature-for-nature” contributions are mostly positively correlated with total fish biomass, while “nature-for-people” contributions are more independent. Trade-offs among contributions are not the rule, with some tropical fish communities simultaneously providing high levels of different contributions. High mean contributions have been found in all tropical oceans, so sustaining healthy tropical reefs while promoting human well-being seems achievable within most countries, rather than mutually exclusive. Our framework offers an opportunity to explore different management strategies and pathways on tropical reefs between the use and the sparing of nature toward more favorable and sustainable ecological and social futures.

AB - Anthropogenic activities are eroding biodiversity and its contributions to nature and people worldwide. Yet, the dual imperative to protect nature and sustain human well-being raises potential trade-offs that remain to be quantified. Using standardized fish surveys across 1,237 tropical reefs worldwide, we converted the presence and abundance data of 1,024 species into 29 fish community contributions that primarily benefit either nature or people. We show that “nature-for-nature” contributions are mostly positively correlated with total fish biomass, while “nature-for-people” contributions are more independent. Trade-offs among contributions are not the rule, with some tropical fish communities simultaneously providing high levels of different contributions. High mean contributions have been found in all tropical oceans, so sustaining healthy tropical reefs while promoting human well-being seems achievable within most countries, rather than mutually exclusive. Our framework offers an opportunity to explore different management strategies and pathways on tropical reefs between the use and the sparing of nature toward more favorable and sustainable ecological and social futures.

U2 - 10.1016/j.oneear.2024.09.011

DO - 10.1016/j.oneear.2024.09.011

M3 - Journal article

VL - 7

SP - 1772

EP - 1785

JO - One Earth

JF - One Earth

SN - 2590-3330

IS - 10

ER -