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Autori principali: Flandrin, Ulysse, Mouquet, Nicolas, Loiseau, Nicolas, Hautecoeur, Cyril, Maire, Eva, McLean, Matthew, Sanchez, Loïc, Clausius, Ella, Stuart-Smith, Rick, Edgar, Graham, Albouy, Camille, Cinner, Joshua, Mouillot, David
Natura: Artículo científico
Lingua:en
Pubblicazione: Nature ecology & evolution 2026
Soggetti:
Accesso online:https://pubmed.ncbi.nlm.nih.gov/41792445/
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author Flandrin, Ulysse
Mouquet, Nicolas
Loiseau, Nicolas
Hautecoeur, Cyril
Maire, Eva
McLean, Matthew
Sanchez, Loïc
Clausius, Ella
Stuart-Smith, Rick
Edgar, Graham
Albouy, Camille
Cinner, Joshua
Mouillot, David
author_facet Flandrin, Ulysse
Mouquet, Nicolas
Loiseau, Nicolas
Hautecoeur, Cyril
Maire, Eva
McLean, Matthew
Sanchez, Loïc
Clausius, Ella
Stuart-Smith, Rick
Edgar, Graham
Albouy, Camille
Cinner, Joshua
Mouillot, David
Flandrin, Ulysse
Mouquet, Nicolas
Loiseau, Nicolas
Hautecoeur, Cyril
Maire, Eva
McLean, Matthew
Sanchez, Loïc
Clausius, Ella
Stuart-Smith, Rick
Edgar, Graham
Albouy, Camille
Cinner, Joshua
Mouillot, David
collection PubMed - marine biology
contents Marine protected areas marginally offset anthropogenic declines in tropical reef fish contributions to nature and people. Flandrin, Ulysse Mouquet, Nicolas Loiseau, Nicolas Hautecoeur, Cyril Maire, Eva McLean, Matthew Sanchez, Loïc Clausius, Ella Stuart-Smith, Rick Edgar, Graham Albouy, Camille Cinner, Joshua Mouillot, David Animals Conservation of Natural Resources Fishes Coral Reefs Biodiversity Anthropogenic Effects Humans Human Activities Biomass Tropical Climate Bayes Theorem Human activities are rapidly eroding the biodiversity of most ecosystems, threatening the myriad contributions they provide to nature and people. Protected areas are often seen as key management tools for their conservation. However, the lack of historical baselines hinders our ability to fully assess these declines and the extent to which protected areas can compensate for decades of human-mediated degradation. Using a Bayesian framework, we modelled 22 fish community contributions across 2,800 tropical reefs and predicted their levels under counterfactual scenarios to compare the relative benefits of marine protected areas (MPAs) and anthropogenic impacts on unprotected reefs. We show that human activities have significantly reduced fish biodiversity- and biomass-related contributions with, for example, a 120% decline in piscivore biomass, corresponding to a net loss of 19 kg per hectare of reef. In contrast, the benefits of MPAs appear comparatively low, with conservation efforts potentially offsetting only 5% of this decline. Ultimately, only old and fully protected areas provide marked benefits to nature and people. This suggests that even if we drastically increase our protection efforts across the ocean (30% coverage by 2030), we cannot expect short-term socio-ecological benefits to counterbalance a long history of human footprint. A desirable future for nature and people thus requires a paradigm shift in our relationship with ecosystems and their biodiversity, beyond MPA establishment.
format Artículo científico
id pubmed_41792445
institution PubMed
language en
publishDate 2026
publisher Nature ecology & evolution
record_format pubmed
spellingShingle Marine protected areas marginally offset anthropogenic declines in tropical reef fish contributions to nature and people.
Flandrin, Ulysse
Mouquet, Nicolas
Loiseau, Nicolas
Hautecoeur, Cyril
Maire, Eva
McLean, Matthew
Sanchez, Loïc
Clausius, Ella
Stuart-Smith, Rick
Edgar, Graham
Albouy, Camille
Cinner, Joshua
Mouillot, David
Animals
Conservation of Natural Resources
Fishes
Coral Reefs
Biodiversity
Anthropogenic Effects
Humans
Human Activities
Biomass
Tropical Climate
Bayes Theorem
Marine protected areas marginally offset anthropogenic declines in tropical reef fish contributions to nature and people. Flandrin, Ulysse Mouquet, Nicolas Loiseau, Nicolas Hautecoeur, Cyril Maire, Eva McLean, Matthew Sanchez, Loïc Clausius, Ella Stuart-Smith, Rick Edgar, Graham Albouy, Camille Cinner, Joshua Mouillot, David Animals Conservation of Natural Resources Fishes Coral Reefs Biodiversity Anthropogenic Effects Humans Human Activities Biomass Tropical Climate Bayes Theorem Human activities are rapidly eroding the biodiversity of most ecosystems, threatening the myriad contributions they provide to nature and people. Protected areas are often seen as key management tools for their conservation. However, the lack of historical baselines hinders our ability to fully assess these declines and the extent to which protected areas can compensate for decades of human-mediated degradation. Using a Bayesian framework, we modelled 22 fish community contributions across 2,800 tropical reefs and predicted their levels under counterfactual scenarios to compare the relative benefits of marine protected areas (MPAs) and anthropogenic impacts on unprotected reefs. We show that human activities have significantly reduced fish biodiversity- and biomass-related contributions with, for example, a 120% decline in piscivore biomass, corresponding to a net loss of 19 kg per hectare of reef. In contrast, the benefits of MPAs appear comparatively low, with conservation efforts potentially offsetting only 5% of this decline. Ultimately, only old and fully protected areas provide marked benefits to nature and people. This suggests that even if we drastically increase our protection efforts across the ocean (30% coverage by 2030), we cannot expect short-term socio-ecological benefits to counterbalance a long history of human footprint. A desirable future for nature and people thus requires a paradigm shift in our relationship with ecosystems and their biodiversity, beyond MPA establishment.
title Marine protected areas marginally offset anthropogenic declines in tropical reef fish contributions to nature and people.
topic Animals
Conservation of Natural Resources
Fishes
Coral Reefs
Biodiversity
Anthropogenic Effects
Humans
Human Activities
Biomass
Tropical Climate
Bayes Theorem
url https://pubmed.ncbi.nlm.nih.gov/41792445/