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Main Authors: Franqui-Rivera, Glorimar, Gayford, Joel H, Peña, Noemy, Schizas, Nikolaos V, Tomić, Nina, Gajić, Andrej A
Format: Artículo científico
Language:en
Published: Journal of fish biology 2026
Online Access:https://pubmed.ncbi.nlm.nih.gov/41841305/
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author Franqui-Rivera, Glorimar
Gayford, Joel H
Peña, Noemy
Schizas, Nikolaos V
Tomić, Nina
Gajić, Andrej A
author_facet Franqui-Rivera, Glorimar
Gayford, Joel H
Peña, Noemy
Schizas, Nikolaos V
Tomić, Nina
Gajić, Andrej A
Franqui-Rivera, Glorimar
Gayford, Joel H
Peña, Noemy
Schizas, Nikolaos V
Tomić, Nina
Gajić, Andrej A
collection PubMed - marine biology
contents A complex pigmentation disorder reveals energetic and ecological costs of coloration in a deep-sea sharpnose sevengill shark. Franqui-Rivera, Glorimar Gayford, Joel H Peña, Noemy Schizas, Nikolaos V Tomić, Nina Gajić, Andrej A Pigmentation is a key functional trait influencing camouflage, predator-prey interactions and energetic efficiency in marine organisms, yet its physiological and ecological consequences remain poorly understood in deep-sea sharks. Here, we describe a deep-sea shark (Heptranchias perlo) exhibiting a mosaic pigmentation disorder characterized by the coexistence of hypermelanotic, hypopigmented and amelanotic regions, indicating disruption of normal melanophore distribution and regulation. Histological examination revealed no structural or inflammatory abnormalities, supporting a non-pathological origin of the pigmentation anomaly. In contrast, condition indices indicated pronounced energetic depletion, with reduced condition factor and hepatosomatic index, while lipid extraction and Fourier-transform infrared and ultraviolet-visible spectroscopy revealed substantial depletion and altered composition of hepatic lipid reserves consistent with chronic negative energy balance relative to phenotypically normal conspecifics. We propose that disruption of countershading in hexanchiform sharks may reduce camouflage efficiency and increase energetic costs, contributing to the observed physiological compromise in sharks. Despite being based on a single individual, this integrative analysis links pigmentation anomalies to functional and energetic consequences, and underscores the need to move beyond descriptive accounts toward mechanistic assessments of coloration in marine predators, particularly in deep-sea elasmobranchs that are inherently rarely encountered.
format Artículo científico
id pubmed_41841305
institution PubMed
language en
publishDate 2026
publisher Journal of fish biology
record_format pubmed
spellingShingle A complex pigmentation disorder reveals energetic and ecological costs of coloration in a deep-sea sharpnose sevengill shark.
Franqui-Rivera, Glorimar
Gayford, Joel H
Peña, Noemy
Schizas, Nikolaos V
Tomić, Nina
Gajić, Andrej A
A complex pigmentation disorder reveals energetic and ecological costs of coloration in a deep-sea sharpnose sevengill shark. Franqui-Rivera, Glorimar Gayford, Joel H Peña, Noemy Schizas, Nikolaos V Tomić, Nina Gajić, Andrej A Pigmentation is a key functional trait influencing camouflage, predator-prey interactions and energetic efficiency in marine organisms, yet its physiological and ecological consequences remain poorly understood in deep-sea sharks. Here, we describe a deep-sea shark (Heptranchias perlo) exhibiting a mosaic pigmentation disorder characterized by the coexistence of hypermelanotic, hypopigmented and amelanotic regions, indicating disruption of normal melanophore distribution and regulation. Histological examination revealed no structural or inflammatory abnormalities, supporting a non-pathological origin of the pigmentation anomaly. In contrast, condition indices indicated pronounced energetic depletion, with reduced condition factor and hepatosomatic index, while lipid extraction and Fourier-transform infrared and ultraviolet-visible spectroscopy revealed substantial depletion and altered composition of hepatic lipid reserves consistent with chronic negative energy balance relative to phenotypically normal conspecifics. We propose that disruption of countershading in hexanchiform sharks may reduce camouflage efficiency and increase energetic costs, contributing to the observed physiological compromise in sharks. Despite being based on a single individual, this integrative analysis links pigmentation anomalies to functional and energetic consequences, and underscores the need to move beyond descriptive accounts toward mechanistic assessments of coloration in marine predators, particularly in deep-sea elasmobranchs that are inherently rarely encountered.
title A complex pigmentation disorder reveals energetic and ecological costs of coloration in a deep-sea sharpnose sevengill shark.
url https://pubmed.ncbi.nlm.nih.gov/41841305/