Evaluation of the global impacts of mitigation on persistent, bioaccumulative and toxic pollutants in marine fish

Although persistent, bioaccumulative and toxic pollutants (PBTs) are well-studied individually, their distribution and variability on a global scale are largely unknown, particularly in marine fish. Using 2,662 measurements collected from peer-reviewed literature spanning 1969–2012, we examined variability of five classes of PBTs, considering effects of geography, habitat, and trophic level on observed concentrations. While we see large-scale spatial patterning in some PBTs (chlordanes, polychlorinated biphenyls), habitat type and trophic level did not contribute to significant patterning, with the exception of mercury. We further examined patterns of change in PBT concentration as a function of sampling year. All PBTs showed significant declines in concentration levels through time, ranging from 15–30% reduction per decade across PBT groups. Despite consistent evidence of reductions, variation in pollutant concentration remains high, indicating ongoing consumer risk of exposure to fish with pollutant levels exceeding EPA screening values. The temporal trends indicate that mitigation programs are effective, but that global levels decline slowly. In order for monitoring efforts to provide more targeted assessments of risk to PBT exposure, these data highlight an urgent need for improved replication and standardization of pollutant monitoring protocols for marine finfish

Mercury levels of yellowfin tuna (Thunnus albacares) are associated with capture location.

Mercury is a toxic compound to which humans are exposed by consumption of fish. Current fish consumption advisories focus on minimizing the risk posed by the species that are most likely to have high levels of mercury. Less accounted for is the variation within species, and the potential role of the geographic origin of a fish in determining its mercury level. Here we surveyed the mercury levels in 117 yellowfin tuna caught from 12 different locations worldwide. Our results indicated significant variation in yellowfin tuna methylmercury load, with levels that ranged from 0.03 to 0.82 μg/g wet weight across individual fish. Mean mercury levels were only weakly associated with fish size (R2 < 0.1461) or lipid content (R2 < 0.00007) but varied significantly, by a factor of 8, between sites. The results indicate that the geographic origin of fish can govern mercury load, and argue for better traceability of fish to improve the accuracy of exposure risk predictions

Geographic Differences in Persistent Organic Pollutant Levels of Yellowfin Tuna.

BackgroundFish are a source of persistent organic pollutants (POPs) in the human diet. Although species, trophic level, and means of production are typically considered in predicting fish pollutant load, and thus recommendations of consumption, capture location is usually not accounted for.ObjectivesYellowfin tuna (Thunnus albacares) are harvested from across the world's oceans and are widely consumed. Here, we determined geographic variation in the overall mass, concentration, and composition of POPs in yellowfin and examined the differences in levels of several POP congeners of potential relevance to human health.MethodsWe sampled dorsal muscle of 117 yellowfin tuna from 12 locations worldwide, and measured POP levels using combined liquid or gas chromatography and mass spectrometry according to U.S. Environmental Protection Agency standard procedures.ResultsPOP levels varied significantly among sites, more than 36-fold on a mass basis. Individual fish levels ranged from 0.16 to 138.29 ng/g wet weight and lipid-normalized concentrations from 0.1 to 12.7 μM. Levels of 10 congeners that interfere with the cellular defense protein P-glycoprotein, termed transporter interfering compounds (TICs), ranged from 0.05 to 35.03 ng/g wet weight and from 0.03 to 3.32 μM in tuna lipid. Levels of TICs, and their individual congeners, were strongly associated with the overall POP load. Risk-based analysis of several carcinogenic POPs indicated that the fish with the highest levels of these potentially harmful compounds were clustered at specific geographic locations.ConclusionsCapture location is an important consideration when assessing the level and risk of human exposure to POPs through ingestion of wild fish. https://doi.org/10.1289/EHP518

Snapshot Assessment Protocol (SnAP): Guidelines, Tools, and Tips for RapidlyCharacterizing Small-Scale Fisheries.

Recognizing the need for improved coordination, the Small-scale and Artisanal Fisheries Research Network (SAFRN), at the Scripps Institution of Oceanography’s Center for Marine Biodiversity and Conservation (CMBC), was established in 2010 by graduate students as an interdisciplinary hub of students, researchers, and faculty studying small-scale fisheries (SSF). Our goals are to: enhance communication and collaboration across disciplines, projects, and sectors; share research guidelines and methodologies; and connect research to meaningful management actions.SAFRN has developed the Snapshot Assessment Protocol (SnAP), an interdisciplinary, standardized toolkit for describing SSF holistically, including ecological, social, cultural, economic, and governance-related aspects of these fisheries and the related communities. SnAP is a key part of our 2011-2012 project, “Coordinating Research for Sustaining Artisanal Fisheries”, funded by the Waitt Foundation

Snapshot Assessment Protocol (SnAP): Guidelines, Tools, and Tips for RapidlyCharacterizing Small-Scale Fisheries.

Recognizing the need for improved coordination, the Small-scale and Artisanal Fisheries Research Network (SAFRN), at the Scripps Institution of Oceanography’s Center for Marine Biodiversity and Conservation (CMBC), was established in 2010 by graduate students as an interdisciplinary hub of students, researchers, and faculty studying small-scale fisheries (SSF). Our goals are to: enhance communication and collaboration across disciplines, projects, and sectors; share research guidelines and methodologies; and connect research to meaningful management actions.SAFRN has developed the Snapshot Assessment Protocol (SnAP), an interdisciplinary, standardized toolkit for describing SSF holistically, including ecological, social, cultural, economic, and governance-related aspects of these fisheries and the related communities. SnAP is a key part of our 2011-2012 project, “Coordinating Research for Sustaining Artisanal Fisheries”, funded by the Waitt Foundation

Global marine pollutants inhibit P-glycoprotein: Environmental levels, inhibitory effects, and cocrystal structure.

The world's oceans are a global reservoir of persistent organic pollutants to which humans and other animals are exposed. Although it is well known that these pollutants are potentially hazardous to human and environmental health, their impacts remain incompletely understood. We examined how persistent organic pollutants interact with the drug efflux transporter P-glycoprotein (P-gp), an evolutionarily conserved defense protein that is essential for protection against environmental toxicants. We identified specific congeners of organochlorine pesticides, polychlorinated biphenyls, and polybrominated diphenyl ethers that inhibit mouse and human P-gp, and determined their environmental levels in yellowfin tuna from the Gulf of Mexico. In addition, we solved the cocrystal structure of P-gp bound to one of these inhibitory pollutants, PBDE (polybrominated diphenyl ether)-100, providing the first view of pollutant binding to a drug transporter. The results demonstrate the potential for specific binding and inhibition of mammalian P-gp by ubiquitous congeners of persistent organic pollutants present in fish and other foods, and argue for further consideration of transporter inhibition in the assessment of the risk of exposure to these chemicals