Guardado en:
Detalles Bibliográficos
Autores principales: Gaiffe, Martin, Hansen, Elisabeth, Bårdsen, Bård-Jørgen, Bustnes, Jan Ove, Fritsch, Clémentine, Bangjord, Georg, Bollinger, Eric, Schulz, Ralf, Eulaers, Igor, Bourgeon, Sophie
Formato: Artículo científico
Lenguaje:en
Publicado: Environment international 2026
Materias:
Acceso en línea:https://pubmed.ncbi.nlm.nih.gov/41518720/
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
_version_ 1868266100243824641
author Gaiffe, Martin
Hansen, Elisabeth
Bårdsen, Bård-Jørgen
Bustnes, Jan Ove
Fritsch, Clémentine
Bangjord, Georg
Bollinger, Eric
Schulz, Ralf
Eulaers, Igor
Bourgeon, Sophie
author_facet Gaiffe, Martin
Hansen, Elisabeth
Bårdsen, Bård-Jørgen
Bustnes, Jan Ove
Fritsch, Clémentine
Bangjord, Georg
Bollinger, Eric
Schulz, Ralf
Eulaers, Igor
Bourgeon, Sophie
Gaiffe, Martin
Hansen, Elisabeth
Bårdsen, Bård-Jørgen
Bustnes, Jan Ove
Fritsch, Clémentine
Bangjord, Georg
Bollinger, Eric
Schulz, Ralf
Eulaers, Igor
Bourgeon, Sophie
collection PubMed - marine biology
contents Comparing temporal trends of mercury contamination in feathers and eggs of female tawny owls (Strix aluco) in central Norway. Gaiffe, Martin Hansen, Elisabeth Bårdsen, Bård-Jørgen Bustnes, Jan Ove Fritsch, Clémentine Bangjord, Georg Bollinger, Eric Schulz, Ralf Eulaers, Igor Bourgeon, Sophie Animals Feathers Mercury Strigiformes Norway Environmental Monitoring Environmental Pollutants Female Ovum Eggs Mercury (Hg) is a global pollutant with potentially severe health impacts on humans and wildlife, especially raptors, which face high exposure due to trophic magnification and long-term environmental integration. Raptors are widely used as Hg environmental biomonitors, with feathers and eggs favored for their easy, minimally invasive collection, transport, and storage. While raptor feathers and eggs have been commonly used to retrospectively analyze Hg time series, few studies have examined physiological and ecological processes driving matrix-specific patterns. This study compared 34-year (1986-2019) time series of Hg in tail feathers and eggs of tawny owls (Strix aluco) in central Norway, accounting for plasticity in their dietary sources (i.e., adjusted temporal trends), proxied by stable isotopes of nitrogen (δN) and carbon (δC; corrected for the Suess effect). Generalized Additive Models assessed temporal trends and potential drivers. Unadjusted temporal trends (Year only) differed between feathers and eggs, whereas unadjusted and adjusted (for dietary proxies) trends did not differ within each matrix. Differences between matrices may reflect varying Hg sequestration mechanisms or integration windows. δC appeared as the main driver of Hg variability in both matrices, likely indicating shifts in carbon sources in tawny owl diets over time. Future studies should focus on obtaining more accurate information on environmental and biological sources and pathways over time, to better understand their influence on Hg time series in this established biomonitoring species.
format Artículo científico
id pubmed_41518720
institution PubMed
language en
publishDate 2026
publisher Environment international
record_format pubmed
spellingShingle Comparing temporal trends of mercury contamination in feathers and eggs of female tawny owls (Strix aluco) in central Norway.
Gaiffe, Martin
Hansen, Elisabeth
Bårdsen, Bård-Jørgen
Bustnes, Jan Ove
Fritsch, Clémentine
Bangjord, Georg
Bollinger, Eric
Schulz, Ralf
Eulaers, Igor
Bourgeon, Sophie
Animals
Feathers
Mercury
Strigiformes
Norway
Environmental Monitoring
Environmental Pollutants
Female
Ovum
Eggs
Comparing temporal trends of mercury contamination in feathers and eggs of female tawny owls (Strix aluco) in central Norway. Gaiffe, Martin Hansen, Elisabeth Bårdsen, Bård-Jørgen Bustnes, Jan Ove Fritsch, Clémentine Bangjord, Georg Bollinger, Eric Schulz, Ralf Eulaers, Igor Bourgeon, Sophie Animals Feathers Mercury Strigiformes Norway Environmental Monitoring Environmental Pollutants Female Ovum Eggs Mercury (Hg) is a global pollutant with potentially severe health impacts on humans and wildlife, especially raptors, which face high exposure due to trophic magnification and long-term environmental integration. Raptors are widely used as Hg environmental biomonitors, with feathers and eggs favored for their easy, minimally invasive collection, transport, and storage. While raptor feathers and eggs have been commonly used to retrospectively analyze Hg time series, few studies have examined physiological and ecological processes driving matrix-specific patterns. This study compared 34-year (1986-2019) time series of Hg in tail feathers and eggs of tawny owls (Strix aluco) in central Norway, accounting for plasticity in their dietary sources (i.e., adjusted temporal trends), proxied by stable isotopes of nitrogen (δN) and carbon (δC; corrected for the Suess effect). Generalized Additive Models assessed temporal trends and potential drivers. Unadjusted temporal trends (Year only) differed between feathers and eggs, whereas unadjusted and adjusted (for dietary proxies) trends did not differ within each matrix. Differences between matrices may reflect varying Hg sequestration mechanisms or integration windows. δC appeared as the main driver of Hg variability in both matrices, likely indicating shifts in carbon sources in tawny owl diets over time. Future studies should focus on obtaining more accurate information on environmental and biological sources and pathways over time, to better understand their influence on Hg time series in this established biomonitoring species.
title Comparing temporal trends of mercury contamination in feathers and eggs of female tawny owls (Strix aluco) in central Norway.
topic Animals
Feathers
Mercury
Strigiformes
Norway
Environmental Monitoring
Environmental Pollutants
Female
Ovum
Eggs
url https://pubmed.ncbi.nlm.nih.gov/41518720/