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Auteurs principaux: Lespinas, Marius, Xavier, José C, Bustamante, Paco, Queirós, José P, Thompson, David R, Coelho, Pedro, Pereira, Maria Eduarda, Seco, José
Format: Artículo científico
Langue:en
Publié: Marine environmental research 2026
Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/42241962/
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author Lespinas, Marius
Xavier, José C
Bustamante, Paco
Queirós, José P
Thompson, David R
Coelho, Pedro
Pereira, Maria Eduarda
Seco, José
author_facet Lespinas, Marius
Xavier, José C
Bustamante, Paco
Queirós, José P
Thompson, David R
Coelho, Pedro
Pereira, Maria Eduarda
Seco, José
Lespinas, Marius
Xavier, José C
Bustamante, Paco
Queirós, José P
Thompson, David R
Coelho, Pedro
Pereira, Maria Eduarda
Seco, José
collection PubMed - marine biology
contents Mercury concentrations in cephalopods from the Pacific sector of the Southern Ocean in relation to their biology, habitat and trophic position. Lespinas, Marius Xavier, José C Bustamante, Paco Queirós, José P Thompson, David R Coelho, Pedro Pereira, Maria Eduarda Seco, José Mercury (Hg) can negatively affect marine biota through uptake from prey and from the surrounding environment. Cephalopods constitute a major prey group in Southern Ocean ecosystems, yet little is known about Hg concentrations in these taxa and how biological and ecological factors can influence Hg body burdens. By combining stable isotope analyses (δC and δN) and Hg concentrations in beaks from 25 cephalopod species from the Pacific sector of the Southern Ocean, we studied 1) habitats and trophic positions; 2) Hg concentrations; and 3) how Hg concentrations relates to lower rostral length, habitat and trophic position of the studied species. Our results showed that δC values indicated that species inhabited various water masses, with Alluroteuthis antarcticus inhabiting further north than previously reported. Additionally, δN values of these cephalopod species showed that cephalopods in the Pacific sector of the Southern Ocean occupy two to three trophic levels with Hg concentrations among studied cephalopod species increasing from southern to northern habitats. Mercury concentrations in cephalopod beaks ranged from 0.003 μg g (Filippovia knipovitchi) to the highest concentration ever recorded in cephalopod beaks (0.590 μg g in Histioteuthis atlantica), with Hg concentrations increasing with the lower rostral length in H. atlantica but decreasing in Moroteuthopsis ingens. Our results suggest that Hg concentrations in Southern Ocean cephalopods may be driven by species-specific factors rather than a general pattern across species. This study emphasizes the need for cephalopod species-specific research on Hg bioaccumulation and biomagnification to better understand its impact on Southern Ocean marine food webs.
format Artículo científico
id pubmed_42241962
institution PubMed
language en
publishDate 2026
publisher Marine environmental research
record_format pubmed
spellingShingle Mercury concentrations in cephalopods from the Pacific sector of the Southern Ocean in relation to their biology, habitat and trophic position.
Lespinas, Marius
Xavier, José C
Bustamante, Paco
Queirós, José P
Thompson, David R
Coelho, Pedro
Pereira, Maria Eduarda
Seco, José
Mercury concentrations in cephalopods from the Pacific sector of the Southern Ocean in relation to their biology, habitat and trophic position. Lespinas, Marius Xavier, José C Bustamante, Paco Queirós, José P Thompson, David R Coelho, Pedro Pereira, Maria Eduarda Seco, José Mercury (Hg) can negatively affect marine biota through uptake from prey and from the surrounding environment. Cephalopods constitute a major prey group in Southern Ocean ecosystems, yet little is known about Hg concentrations in these taxa and how biological and ecological factors can influence Hg body burdens. By combining stable isotope analyses (δC and δN) and Hg concentrations in beaks from 25 cephalopod species from the Pacific sector of the Southern Ocean, we studied 1) habitats and trophic positions; 2) Hg concentrations; and 3) how Hg concentrations relates to lower rostral length, habitat and trophic position of the studied species. Our results showed that δC values indicated that species inhabited various water masses, with Alluroteuthis antarcticus inhabiting further north than previously reported. Additionally, δN values of these cephalopod species showed that cephalopods in the Pacific sector of the Southern Ocean occupy two to three trophic levels with Hg concentrations among studied cephalopod species increasing from southern to northern habitats. Mercury concentrations in cephalopod beaks ranged from 0.003 μg g (Filippovia knipovitchi) to the highest concentration ever recorded in cephalopod beaks (0.590 μg g in Histioteuthis atlantica), with Hg concentrations increasing with the lower rostral length in H. atlantica but decreasing in Moroteuthopsis ingens. Our results suggest that Hg concentrations in Southern Ocean cephalopods may be driven by species-specific factors rather than a general pattern across species. This study emphasizes the need for cephalopod species-specific research on Hg bioaccumulation and biomagnification to better understand its impact on Southern Ocean marine food webs.
title Mercury concentrations in cephalopods from the Pacific sector of the Southern Ocean in relation to their biology, habitat and trophic position.
url https://pubmed.ncbi.nlm.nih.gov/42241962/