Temporal Trends and Geographical Differences of Perfluoroalkyl Acids in Baltic Sea Herring and White-Tailed Sea Eagle Eggs in Sweden

Faxneld, Suzanne; Berger, Urs; Helander, Björn; Danielsson, Sara; Miller, Aroha; Nyberg, Elisabeth; Persson, Jan–Olov; Bignert, Anders

doi:10.1021/acs.est.6b03230

Cited by 36 publications

(55 citation statements)

References 44 publications

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“…However, some studies report PFTrDA in the highest concentrations for certain fish (Martin et al ; Berger et al ), including a study on Atlantic cod from the Norwegian coast (Valdersnes et al ). Similarly, the dominance of odd‐numbered chain length PFCAs over adjacent even‐numbered homologues has been consistently reported in wildlife (De Silva and Mabury, ; Martin et al ; Houde et al ; Smithwick et al ; Butt et al ; Verreault et al ; Rotander et al ; Mochizuki et al ) including fish from the Baltic (Berger et al ; Faxneld et al ), but also in other matrices such as human milk (Fujii et al ) and dust (Liu et al ). This pattern is hypothesized to originate either directly from production sources (Prevedouros et al ) or indirectly through a combined effect of the degradation of fluorotelomer alcohols (FTOHs), yielding equal amounts of odd‐ and even‐chain lengths (Ellis et al ), and the increasing bioaccumulation potential of longer‐chain PFCAs (Martin et al , ).…”

Section: Resultsmentioning

confidence: 72%

“…Among the PFCAs, we observed PFUnDA and PFNA as the major homologues, followed by PFDA. The accumulation of long‐chain PFCAs, in particular C11 and C9 homologues, has been reported frequently for fish (Martin et al , ; Hart et al ; Berger et al ; Faxneld et al ; Gebbink et al ), but also other wildlife (Bossi et al ). However, some studies report PFTrDA in the highest concentrations for certain fish (Martin et al ; Berger et al ), including a study on Atlantic cod from the Norwegian coast (Valdersnes et al ).…”

Section: Resultsmentioning

confidence: 96%

“…In general, the findings reported here are consistent with PFAS levels found in other species from the Baltic Sea. For instance, PFOS is usually the most abundant PFAS in samples from the Baltic Sea, including edible fish (Berger et al ; Gebbink et al ), guillemot eggs (Mochizuki et al ), otters (Roos et al ), herring and white‐tailed sea eagle (Faxneld et al ), as well as seals and salmon (Kannan et al ). This trend has also been described in wildlife outside of the Baltic Sea (Martin et al ; Bossi et al ; Hart et al ; Houde et al ; Valdersnes et al ).…”

Section: Resultsmentioning

confidence: 99%

“…As a result of the phase‐out of PFOS by the 3M Company during 2000 and 2002, declines in PFOS and PFOA concentrations have been observed in human blood (Haug et al ; Kato et al ; Glynn et al ; Olsen et al ; Nøst et al ; Gebbink et al ), human milk (Sundström et al ; Nyberg et al ), and food items including fish from the Baltic (Johansson et al ; Gebbink et al ). However, increasing PFAS concentrations have been reported in some wildlife species from the Baltic region, for example in otters (Roos et al ), herring, and white‐tailed sea eagle (Faxneld et al ). In contrast, gray seal from the Baltic showed decreasing trends for most PFAS except for long‐chain PFCAs (Kratzer et al ).…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Temporal Trends (1981–2013) of Per‐ and Polyfluoroalkyl Substances and Total Fluorine in Baltic cod (Gadus morhua)

Schultes

Sandblom

Broeg

et al. 2020

Enviro Toxic and Chemistry

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Temporal trends from 1981 to 2013 of 28 per-and polyfluoroalkyl substances (PFASs) were investigated in liver tissue of cod (Gadus morhua) sampled near southeast Gotland, in the Baltic Sea. A total of 10 PFASs were detected, with ∑ 28 PFAS geometric mean concentrations ranging from 6.03 to 23.9 ng/g ww. Perfluorooctane sulfonate (PFOS) was the predominant PFAS, which increased at a rate of 3.4% per year. Most long-chain perfluoroalkyl carboxylic acids increased at rates of 3.9 to 7.3% per year except for perfluorooctanoate (PFOA), which did not change significantly over time. The perfluoroalkyl acid precursors perfluorooctane sulfonamide (FOSA) and 6:2 fluorotelomer sulfonic acid were detected, of which the former (FOSA) declined at a rate of -4.4% per year, possibly reflecting its phase-out starting in 2000. An alternate time trend analysis from 2000 to 2013 produced slightly different results, with most compounds increasing at slower rates compared to the entire study period. An exception was perfluorohexane sulfonate (PFHxS), increasing at a faster rate of 3.7% measured from 2000 on, compared to the 3.0% per year measured starting from 1981. Analysis of the total fluorine content of the samples revealed large amounts of unidentified fluorine; however, its composition (organic or inorganic) remains unclear. Significant negative correlations were found between concentrations of individual PFASs (with the exception of PFOS) and liver somatic index. In addition, body length was negatively correlated with PFOA and perfluorononanoate, but positively correlated with perfluorododecanoate (PFDoDA) and FOSA. Additional studies on endocrine, immunological, and metabolic effects of PFAS in marine fish are essential to assess the environmental risk of these substances. Environ Toxicol Chem 2020;39:300-309.

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Section: Resultsmentioning

confidence: 72%

Section: Resultsmentioning

confidence: 96%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Temporal Trends (1981–2013) of Per‐ and Polyfluoroalkyl Substances and Total Fluorine in Baltic cod (Gadus morhua)

Schultes

Sandblom

Broeg

et al. 2020

Enviro Toxic and Chemistry

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“…The occurrence of naturally occurring brominated compounds, such as brominated diphenylethers and dioxins, show temporal variations but no clear time trends in perch from Kvädöfjärden (Haglund et al, 2010). Other so-called "emerging pollutants, " such as different PFASs, show generally increasing trends (Holmström et al, 2005;Faxneld et al, 2016;Bignert et al, 2017) in biota such as herring and guillemot eggs in the Baltic Sea.…”

Section: Introductionmentioning

confidence: 99%

mRNA Expression and Biomarker Responses in Perch at a Biomonitoring Site in the Baltic Sea – Possible Influence of Natural Brominated Chemicals

et al. 2019

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Perch (Perca fluviatilis) has been used in biological effect monitoring in a program for integrated coastal fish monitoring at the reference site Kvädöfjärden along the Swedish east coast, which is a site characterized by no or minor local anthropogenic influences. Using a set of physiological and biochemical endpoints (i.e., biomarkers), clear time trends for "early warning" signs of impaired health were noted in the perch from this site, possibly as a result of increased baseline pollution. The data sets also showed relatively large variations among years. To identify additional temporal variation in biological parameters, global mRNA expression studies using RNA sequencing was performed. Perch collected in 2010 and 2014 were selected, as they showed variations in several biomarkers, such as the activity of the detoxification enzyme CYP1A (EROD), the plasma levels of vitellogenin, markers for oxidative stress, white blood cells count and gonad sizes. The RNA sequencing study identified approximately 4800 genes with a significantly difference in mRNA expression levels. A gene ontology enrichment analysis showed that these differentially expressed genes were involved in biological processes such as complement activation, iron ion homeostasis and cholesterol biosynthetic process. In addition, differences in immune system parameters and responses to the exposure of toxic substances have now been verified in two different biological levels (mRNA and protein) in perch collected in 2010 and 2014. Markedly higher mRNA expression of the membrane transporter (MATE) and the detoxification enzyme COMT, together with higher concentrations of bioactive naturally produced brominated compounds, such as brominated indoles and carbazoles, seem to indicate that the perch collected in 2014 had been exposed to macro-and microalga blooming to a higher degree than did perch from 2010. These results and the differential mRNA expression between the 2 years in genes related to immune and oxidative stress parameters suggest that attention must be given to algae blooming when elucidating the well-being of the perch at Kvädöfjärden and other Baltic coastal sites.

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Profiling research on PFAS in wildlife: Systematic evidence map and bibliometric analysis

Vendl,

Taylor,

Bräunig

et al. 2024

Ecol Sol and Evidence

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Per‐ and polyfluoroalkyl substances (PFAS) are a large group of synthetic chemicals that have been in use for over 70 years. Their ubiquitous distribution and harmful effects pose a threat to wildlife worldwide. To provide a comprehensive synopsis and show the gaps and gluts of existing research on PFAS exposure in wildlife, we created a systematic map and bibliographic analysis of the literature. We followed our protocol to conduct a systematic literature search on Scopus, Web of Science and five other databases. In two steps (title/abstract/keywords and full‐text), we screened peer‐reviewed empirical articles, preprints and theses in English that studied the concentration of at least one of 34 PFAS compounds in free‐ranging wildlife or their parts/products. Following the protocol, we extracted data and performed a critical appraisal. We included 581 publications. From the first and only paper in 2001, there was a linear annual increase to 54 papers in 2021. While PFOS (97% of studies), PFOA (91%) and long‐chain PFAS in general were the most measured, few studies investigated new‐generation PFAS (e.g. GenX and ADONA). Across the studied 1042 species from 26 taxonomic classes, the most frequent were the common carp (Cyprinus carpio, 8%), polar bear (Ursus maritimus, 6%) and European perch (Perca fluviatilis, 5%). Most sampling took place in the United States (17%), Norway (13%), Canada (12%) and China (10%), which were also the main publishing countries. Polar regions attracted significant research interest from countries all around the globe. Aquatic habitats (marine: 31%, freshwater: 28%) of temperate zones were the most common locations for sample collection. We encourage researchers to work towards closing the following gaps: investigating new‐generation PFAS, assessing PFAS in mid‐ and low‐income countries and performing more long‐term studies, especially on invertebrates. We note the recent rise in studies on the physiological consequences of PFAS exposure and encourage further work on this crucial topic. Furthermore, we recommend that the statement of potential and actual conflicts of interest, and the provision of raw data and analysis code should be made compulsory by all journals and routinely enforced. This practice will mitigate conflict of interest and ensure reproducibility.

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Temporal Trends and Geographical Differences of Perfluoroalkyl Acids in Baltic Sea Herring and White-Tailed Sea Eagle Eggs in Sweden

Cited by 36 publications

References 44 publications

Temporal Trends (1981–2013) of Per‐ and Polyfluoroalkyl Substances and Total Fluorine in Baltic cod (Gadus morhua)

Temporal Trends (1981–2013) of Per‐ and Polyfluoroalkyl Substances and Total Fluorine in Baltic cod (Gadus morhua)

mRNA Expression and Biomarker Responses in Perch at a Biomonitoring Site in the Baltic Sea – Possible Influence of Natural Brominated Chemicals

Profiling research on PFAS in wildlife: Systematic evidence map and bibliometric analysis

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