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Main Authors: Andrade, Juliana, Vidal, Thales Jean, Bianchini, Adalto, Costa, Patrícia Gomes, Lacerda, Carlos, Mies, Miguel, Salvi, Kely Paula, Eggertsen, Linda, Francini-Filho, Ronaldo Bastos
Format: Artículo científico
Language:en
Published: Marine environmental research 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40795678/
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author Andrade, Juliana
Vidal, Thales Jean
Bianchini, Adalto
Costa, Patrícia Gomes
Lacerda, Carlos
Mies, Miguel
Salvi, Kely Paula
Eggertsen, Linda
Francini-Filho, Ronaldo Bastos
author_facet Andrade, Juliana
Vidal, Thales Jean
Bianchini, Adalto
Costa, Patrícia Gomes
Lacerda, Carlos
Mies, Miguel
Salvi, Kely Paula
Eggertsen, Linda
Francini-Filho, Ronaldo Bastos
Andrade, Juliana
Vidal, Thales Jean
Bianchini, Adalto
Costa, Patrícia Gomes
Lacerda, Carlos
Mies, Miguel
Salvi, Kely Paula
Eggertsen, Linda
Francini-Filho, Ronaldo Bastos
collection PubMed - marine biology
contents Iron pollution has minor impacts on the behavioral ecology of the Brazilian endemic reef damselfish Stegastes fuscus. Andrade, Juliana Vidal, Thales Jean Bianchini, Adalto Costa, Patrícia Gomes Lacerda, Carlos Mies, Miguel Salvi, Kely Paula Eggertsen, Linda Francini-Filho, Ronaldo Bastos Animals Brazil Coral Reefs Iron Water Pollutants, Chemical Perciformes Environmental Monitoring Behavior, Animal Ecosystem Coral reefs face profound threats from global and local stressors, including coastal pollution from human activities like mining. This study investigates the potential impacts of increased iron (Fe) on the behavioral ecology of juvenile Stegastes fuscus, a pivotal territorial damselfish species on Brazilian reefs affected by a major mining dam disaster. In a controlled mesocosm experiment over 28 days, 16 damselfish (16 experimental tanks, one fish per tank, four fish per treatment) were exposed to a gradient of iron concentrations, from background in coastal seawater to maximum values recorded in the ocean after the dam collapse (over 900 μg L). We monitored habitat use, feeding activity, and intraspecific aggression through video analyses, and quantified iron bioaccumulation in fish tissues. Iron enrichment did not significantly alter habitat use, with branching fire-coral (Millepora alcicornis) consistently preferred across treatments, or aggression levels. However, feeding patterns showed changes, particularly an increase in bites over Sargassum sp. blades at the highest Fe concentration (900 μg L). The limited ecological impacts observed may be explained by the low Fe bioaccumulation in fish tissues, suggesting physiological mechanisms of bioaccumulation avoidance, or insufficient exposure duration. Our findings highlight the importance of longer-term experiments and broader ecological contexts when assessing pollution impacts on coral reef fish.
format Artículo científico
id pubmed_40795678
institution PubMed
language en
publishDate 2025
publisher Marine environmental research
record_format pubmed
spellingShingle Iron pollution has minor impacts on the behavioral ecology of the Brazilian endemic reef damselfish Stegastes fuscus.
Andrade, Juliana
Vidal, Thales Jean
Bianchini, Adalto
Costa, Patrícia Gomes
Lacerda, Carlos
Mies, Miguel
Salvi, Kely Paula
Eggertsen, Linda
Francini-Filho, Ronaldo Bastos
Animals
Brazil
Coral Reefs
Iron
Water Pollutants, Chemical
Perciformes
Environmental Monitoring
Behavior, Animal
Ecosystem
Iron pollution has minor impacts on the behavioral ecology of the Brazilian endemic reef damselfish Stegastes fuscus. Andrade, Juliana Vidal, Thales Jean Bianchini, Adalto Costa, Patrícia Gomes Lacerda, Carlos Mies, Miguel Salvi, Kely Paula Eggertsen, Linda Francini-Filho, Ronaldo Bastos Animals Brazil Coral Reefs Iron Water Pollutants, Chemical Perciformes Environmental Monitoring Behavior, Animal Ecosystem Coral reefs face profound threats from global and local stressors, including coastal pollution from human activities like mining. This study investigates the potential impacts of increased iron (Fe) on the behavioral ecology of juvenile Stegastes fuscus, a pivotal territorial damselfish species on Brazilian reefs affected by a major mining dam disaster. In a controlled mesocosm experiment over 28 days, 16 damselfish (16 experimental tanks, one fish per tank, four fish per treatment) were exposed to a gradient of iron concentrations, from background in coastal seawater to maximum values recorded in the ocean after the dam collapse (over 900 μg L). We monitored habitat use, feeding activity, and intraspecific aggression through video analyses, and quantified iron bioaccumulation in fish tissues. Iron enrichment did not significantly alter habitat use, with branching fire-coral (Millepora alcicornis) consistently preferred across treatments, or aggression levels. However, feeding patterns showed changes, particularly an increase in bites over Sargassum sp. blades at the highest Fe concentration (900 μg L). The limited ecological impacts observed may be explained by the low Fe bioaccumulation in fish tissues, suggesting physiological mechanisms of bioaccumulation avoidance, or insufficient exposure duration. Our findings highlight the importance of longer-term experiments and broader ecological contexts when assessing pollution impacts on coral reef fish.
title Iron pollution has minor impacts on the behavioral ecology of the Brazilian endemic reef damselfish Stegastes fuscus.
topic Animals
Brazil
Coral Reefs
Iron
Water Pollutants, Chemical
Perciformes
Environmental Monitoring
Behavior, Animal
Ecosystem
url https://pubmed.ncbi.nlm.nih.gov/40795678/