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Main Authors: Alava-Jurado, Juan Manuel, Brandt, Margarita, Kingsford, Michael J
Format: Artículo científico
Language:en
Published: Journal of fish biology 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40534174/
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author Alava-Jurado, Juan Manuel
Brandt, Margarita
Kingsford, Michael J
author_facet Alava-Jurado, Juan Manuel
Brandt, Margarita
Kingsford, Michael J
Alava-Jurado, Juan Manuel
Brandt, Margarita
Kingsford, Michael J
collection PubMed - marine biology
contents Spatial variation in otolith elemental chemistry of Stegastes arcifrons (Pomacentridae) reflects environmental patchiness at the Galápagos archipelago. Alava-Jurado, Juan Manuel Brandt, Margarita Kingsford, Michael J Animals Otolithic Membrane Perciformes Ecuador Ecosystem Temperature Strontium Calcium In marine ecosystems, environmental conditions shape important ecological processes. The equatorial Galápagos Marine Reserve (GMR) is known for great spatial variation in the upwelling of cold nutrient-rich waters and the input of warm Panamanian waters. Differences in oceanography influence the structure of benthic communities. There is, however, a paucity of knowledge on the spatial scales of exposure to cool and warmer waters. Here we analysed the elemental chemistry of otoliths in the territorial yellow-tail damselfish (Stegastes arcifrons) to identify patterns of elemental signals across a gradient from warm to upwelled waters. Contrasting patterns of elemental ratios (Ba/Ca, Mg/Ca, Mn/Ca and Sr/Ca) were found in whole otoliths of adult fish at spatial scales of kilometres to 10 s of kilometres; there was also high variation among fish within some sites. A positive correlation was detected between temperature and Sr/Ca ratios. We conclude that variation in environmental conditions influenced fish elemental incorporation into otoliths, highlighting the oceanographic heterogeneity of shallow rocky reef environments in the Galápagos.
format Artículo científico
id pubmed_40534174
institution PubMed
language en
publishDate 2025
publisher Journal of fish biology
record_format pubmed
spellingShingle Spatial variation in otolith elemental chemistry of Stegastes arcifrons (Pomacentridae) reflects environmental patchiness at the Galápagos archipelago.
Alava-Jurado, Juan Manuel
Brandt, Margarita
Kingsford, Michael J
Animals
Otolithic Membrane
Perciformes
Ecuador
Ecosystem
Temperature
Strontium
Calcium
Spatial variation in otolith elemental chemistry of Stegastes arcifrons (Pomacentridae) reflects environmental patchiness at the Galápagos archipelago. Alava-Jurado, Juan Manuel Brandt, Margarita Kingsford, Michael J Animals Otolithic Membrane Perciformes Ecuador Ecosystem Temperature Strontium Calcium In marine ecosystems, environmental conditions shape important ecological processes. The equatorial Galápagos Marine Reserve (GMR) is known for great spatial variation in the upwelling of cold nutrient-rich waters and the input of warm Panamanian waters. Differences in oceanography influence the structure of benthic communities. There is, however, a paucity of knowledge on the spatial scales of exposure to cool and warmer waters. Here we analysed the elemental chemistry of otoliths in the territorial yellow-tail damselfish (Stegastes arcifrons) to identify patterns of elemental signals across a gradient from warm to upwelled waters. Contrasting patterns of elemental ratios (Ba/Ca, Mg/Ca, Mn/Ca and Sr/Ca) were found in whole otoliths of adult fish at spatial scales of kilometres to 10 s of kilometres; there was also high variation among fish within some sites. A positive correlation was detected between temperature and Sr/Ca ratios. We conclude that variation in environmental conditions influenced fish elemental incorporation into otoliths, highlighting the oceanographic heterogeneity of shallow rocky reef environments in the Galápagos.
title Spatial variation in otolith elemental chemistry of Stegastes arcifrons (Pomacentridae) reflects environmental patchiness at the Galápagos archipelago.
topic Animals
Otolithic Membrane
Perciformes
Ecuador
Ecosystem
Temperature
Strontium
Calcium
url https://pubmed.ncbi.nlm.nih.gov/40534174/