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Micronutrient levels of global tropical reef fish communities differ from fisheries capture

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Micronutrient levels of global tropical reef fish communities differ from fisheries capture. / Waldock, Conor; Maire, Eva; Albouy, Camille et al.
In: People and Nature, Vol. 7, No. 1, 31.01.2025, p. 32-51.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Waldock, C, Maire, E, Albouy, C, Andreoli, V, Beger, M, Claverie, T, Cramer, KL, Feary, DA, Ferse, SCA, Hoey, A, Loiseau, N, MacNeil, MA, McLean, M, Mellin, C, Ahouansou Montcho, S, Palomares, ML, de la Puente, S, Tupper, M, Wilson, S, Velez, L, Zamborain‐Mason, J, Zeller, D, Mouillot, D & Pellissier, L 2025, 'Micronutrient levels of global tropical reef fish communities differ from fisheries capture', People and Nature, vol. 7, no. 1, pp. 32-51. https://doi.org/10.1002/pan3.10736

APA

Waldock, C., Maire, E., Albouy, C., Andreoli, V., Beger, M., Claverie, T., Cramer, K. L., Feary, D. A., Ferse, S. C. A., Hoey, A., Loiseau, N., MacNeil, M. A., McLean, M., Mellin, C., Ahouansou Montcho, S., Palomares, M. L., de la Puente, S., Tupper, M., Wilson, S., ... Pellissier, L. (2025). Micronutrient levels of global tropical reef fish communities differ from fisheries capture. People and Nature, 7(1), 32-51. https://doi.org/10.1002/pan3.10736

Vancouver

Waldock C, Maire E, Albouy C, Andreoli V, Beger M, Claverie T et al. Micronutrient levels of global tropical reef fish communities differ from fisheries capture. People and Nature. 2025 Jan 31;7(1):32-51. Epub 2024 Nov 13. doi: 10.1002/pan3.10736

Author

Waldock, Conor ; Maire, Eva ; Albouy, Camille et al. / Micronutrient levels of global tropical reef fish communities differ from fisheries capture. In: People and Nature. 2025 ; Vol. 7, No. 1. pp. 32-51.

Bibtex

@article{410fb73fc0034fbcbea8348623e1f93b,
title = "Micronutrient levels of global tropical reef fish communities differ from fisheries capture",
abstract = "The exceptional diversity of shallow‐water marine fishes contributes to the nutrition of millions of people worldwide through coastal wild‐capture fisheries, with different species having diverse nutritional profiles. Fishes in ecosystems are reservoirs of micronutrients with benefits to human health. Yet, the amount of micronutrients contained in fish species on coral reefs and in shallow tropical waters is challenging to estimate, and the micronutrients caught by fisheries remain uncertain. To assess whether micronutrient deficiencies could be addressed through specific fisheries management actions, we first require a quantification of the potentially available micronutrients contained in biodiverse reef fish assemblages. Here, we therefore undertake a broad heuristic assessment of available micronutrients on tropical reefs using ensemble species distribution modelling and identify potential mismatches with micronutrients derived from summarising coastal fisheries landings data. We find a mismatch between modelled estimates of micronutrients available in the ecosystem on the one hand and the micronutrients in small‐scale fisheries landings data. Fisheries had lower micronutrients than expected from fishes in the modelled assemblage. Further, fisheries were selective for vitamin A, thus resulting in a trade‐off with other micronutrients. Our results remained unchanged after accounting for the under‐sampling of fish communities and under‐reporting of small‐scale fisheries catches—two major sources of uncertainty. This reported mismatch indicates that current estimates of fished micronutrients are not adequate to fully assess micronutrient inventories. However, small‐scale fisheries in some countries were already selective towards micronutrient mass, indicating policies that target improved access, distribution and consumption of fish could leverage this existing high micronutrient mass. Enhanced taxonomic resolution of catches and biodiversity inventories using localised species consumption surveys could improve understanding of nature‐people linkages. Improving fisheries reporting and monitoring of reef fish assemblages will advance the understanding of micronutrient mismatches, which overall indicate a weak uptake of nutritional goals in fisheries practices. The decoupling between micronutrients in ecosystems and in fisheries catches indicates that social, economic, and biodiversity management goals are not shaped around nutritional targets—but this is key to achieve a sustainable and healthy planet for both people and nature. Read the free Plain Language Summary for this article on the Journal blog.",
keywords = "nutrition, reef fisheries, reef fish, catch reconstructions, biodiversity modelling, fisheries catch, seafood",
author = "Conor Waldock and Eva Maire and Camille Albouy and Vania Andreoli and Maria Beger and Thomas Claverie and Cramer, {Katie L.} and Feary, {David A.} and Ferse, {Sebastian C. A.} and Andrew Hoey and Nicolas Loiseau and MacNeil, {M. Aaron} and Matthew McLean and Camille Mellin and Simon Ahouansou Montcho and Palomares, {Maria Lourdes} and {de la Puente}, Santiago and Mark Tupper and Shaun Wilson and Laure Velez and Jessica Zamborain‐Mason and Dirk Zeller and David Mouillot and Lo{\"i}c Pellissier",
year = "2025",
month = jan,
day = "31",
doi = "10.1002/pan3.10736",
language = "English",
volume = "7",
pages = "32--51",
journal = "People and Nature",
issn = "2575-8314",
publisher = "Wiley Open Access",
number = "1",

}

RIS

TY - JOUR

T1 - Micronutrient levels of global tropical reef fish communities differ from fisheries capture

AU - Waldock, Conor

AU - Maire, Eva

AU - Albouy, Camille

AU - Andreoli, Vania

AU - Beger, Maria

AU - Claverie, Thomas

AU - Cramer, Katie L.

AU - Feary, David A.

AU - Ferse, Sebastian C. A.

AU - Hoey, Andrew

AU - Loiseau, Nicolas

AU - MacNeil, M. Aaron

AU - McLean, Matthew

AU - Mellin, Camille

AU - Ahouansou Montcho, Simon

AU - Palomares, Maria Lourdes

AU - de la Puente, Santiago

AU - Tupper, Mark

AU - Wilson, Shaun

AU - Velez, Laure

AU - Zamborain‐Mason, Jessica

AU - Zeller, Dirk

AU - Mouillot, David

AU - Pellissier, Loïc

PY - 2025/1/31

Y1 - 2025/1/31

N2 - The exceptional diversity of shallow‐water marine fishes contributes to the nutrition of millions of people worldwide through coastal wild‐capture fisheries, with different species having diverse nutritional profiles. Fishes in ecosystems are reservoirs of micronutrients with benefits to human health. Yet, the amount of micronutrients contained in fish species on coral reefs and in shallow tropical waters is challenging to estimate, and the micronutrients caught by fisheries remain uncertain. To assess whether micronutrient deficiencies could be addressed through specific fisheries management actions, we first require a quantification of the potentially available micronutrients contained in biodiverse reef fish assemblages. Here, we therefore undertake a broad heuristic assessment of available micronutrients on tropical reefs using ensemble species distribution modelling and identify potential mismatches with micronutrients derived from summarising coastal fisheries landings data. We find a mismatch between modelled estimates of micronutrients available in the ecosystem on the one hand and the micronutrients in small‐scale fisheries landings data. Fisheries had lower micronutrients than expected from fishes in the modelled assemblage. Further, fisheries were selective for vitamin A, thus resulting in a trade‐off with other micronutrients. Our results remained unchanged after accounting for the under‐sampling of fish communities and under‐reporting of small‐scale fisheries catches—two major sources of uncertainty. This reported mismatch indicates that current estimates of fished micronutrients are not adequate to fully assess micronutrient inventories. However, small‐scale fisheries in some countries were already selective towards micronutrient mass, indicating policies that target improved access, distribution and consumption of fish could leverage this existing high micronutrient mass. Enhanced taxonomic resolution of catches and biodiversity inventories using localised species consumption surveys could improve understanding of nature‐people linkages. Improving fisheries reporting and monitoring of reef fish assemblages will advance the understanding of micronutrient mismatches, which overall indicate a weak uptake of nutritional goals in fisheries practices. The decoupling between micronutrients in ecosystems and in fisheries catches indicates that social, economic, and biodiversity management goals are not shaped around nutritional targets—but this is key to achieve a sustainable and healthy planet for both people and nature. Read the free Plain Language Summary for this article on the Journal blog.

AB - The exceptional diversity of shallow‐water marine fishes contributes to the nutrition of millions of people worldwide through coastal wild‐capture fisheries, with different species having diverse nutritional profiles. Fishes in ecosystems are reservoirs of micronutrients with benefits to human health. Yet, the amount of micronutrients contained in fish species on coral reefs and in shallow tropical waters is challenging to estimate, and the micronutrients caught by fisheries remain uncertain. To assess whether micronutrient deficiencies could be addressed through specific fisheries management actions, we first require a quantification of the potentially available micronutrients contained in biodiverse reef fish assemblages. Here, we therefore undertake a broad heuristic assessment of available micronutrients on tropical reefs using ensemble species distribution modelling and identify potential mismatches with micronutrients derived from summarising coastal fisheries landings data. We find a mismatch between modelled estimates of micronutrients available in the ecosystem on the one hand and the micronutrients in small‐scale fisheries landings data. Fisheries had lower micronutrients than expected from fishes in the modelled assemblage. Further, fisheries were selective for vitamin A, thus resulting in a trade‐off with other micronutrients. Our results remained unchanged after accounting for the under‐sampling of fish communities and under‐reporting of small‐scale fisheries catches—two major sources of uncertainty. This reported mismatch indicates that current estimates of fished micronutrients are not adequate to fully assess micronutrient inventories. However, small‐scale fisheries in some countries were already selective towards micronutrient mass, indicating policies that target improved access, distribution and consumption of fish could leverage this existing high micronutrient mass. Enhanced taxonomic resolution of catches and biodiversity inventories using localised species consumption surveys could improve understanding of nature‐people linkages. Improving fisheries reporting and monitoring of reef fish assemblages will advance the understanding of micronutrient mismatches, which overall indicate a weak uptake of nutritional goals in fisheries practices. The decoupling between micronutrients in ecosystems and in fisheries catches indicates that social, economic, and biodiversity management goals are not shaped around nutritional targets—but this is key to achieve a sustainable and healthy planet for both people and nature. Read the free Plain Language Summary for this article on the Journal blog.

KW - nutrition

KW - reef fisheries

KW - reef fish

KW - catch reconstructions

KW - biodiversity modelling

KW - fisheries catch

KW - seafood

U2 - 10.1002/pan3.10736

DO - 10.1002/pan3.10736

M3 - Journal article

VL - 7

SP - 32

EP - 51

JO - People and Nature

JF - People and Nature

SN - 2575-8314

IS - 1

ER -