Short-chain perfluoroalkyl acids: environmental concerns and a regulatory strategy under REACH

[1]  C. D. de Wit,et al.  What is the effect of phasing out long-chain per- and polyfluoroalkyl substances on the concentrations of perfluoroalkyl acids and their precursors in the environment? A systematic review , 2018, Environmental Evidence.

[2]  S. Mabury,et al.  Aerobic biodegradation of 2 fluorotelomer sulfonamide–based aqueous film–forming foam components produces perfluoroalkyl carboxylates , 2017, Environmental toxicology and chemistry.

[3]  M. Wilhelm,et al.  Recent experimental results of effects of perfluoroalkyl substances in laboratory animals - Relation to current regulations and guidance values. , 2017, International journal of hygiene and environmental health.

[4]  T. Aweda,et al.  Radiosynthesis and Biological Distribution of 18F-Labeled Perfluorinated Alkyl Substances , 2017 .

[5]  D. Gorri,et al.  Efficient treatment of perfluorohexanoic acid by nanofiltration followed by electrochemical degradation of the NF concentrate. , 2017, Water research.

[6]  C. Rosin,et al.  Concentrations and patterns of perfluoroalkyl and polyfluoroalkyl substances in a river and three drinking water treatment plants near and far from a major production source. , 2017, The Science of the total environment.

[7]  G. Schüürmann,et al.  Perfluoroalkyl acids in aqueous samples from Germany and Kenya , 2017, Environmental Science and Pollution Research.

[8]  Jianguo Liu,et al.  Degradation of Fluorotelomer-Based Polymers Contributes to the Global Occurrence of Fluorotelomer Alcohol and Perfluoroalkyl Carboxylates: A Combined Dynamic Substance Flow and Environmental Fate Modeling Analysis. , 2017, Environmental science & technology.

[9]  I. Cousins,et al.  A Never-Ending Story of Per- and Polyfluoroalkyl Substances (PFASs)? , 2017, Environmental science & technology.

[10]  Phayong Thepaksorn,et al.  Spatial and temporal trends in perfluorooctanoic and perfluorohexanoic acid in well, surface, and tap water around a fluoropolymer plant in Osaka, Japan. , 2016, Chemosphere.

[11]  L. Thompson,et al.  Seasonal accumulation of persistent organic pollutants on a high altitude glacier in the Eastern Alps. , 2016, Environmental pollution.

[12]  X. Xia,et al.  Short- and long-chain perfluoroalkyl substances in the water, suspended particulate matter, and surface sediment of a turbid river. , 2016, The Science of the total environment.

[13]  T. Knepper,et al.  Systematic determination of perfluoroalkyl and polyfluoroalkyl substances (PFASs) in outdoor jackets. , 2016, Chemosphere.

[14]  Zhanyun Wang,et al.  The precautionary principle and chemicals management: The example of perfluoroalkyl acids in groundwater. , 2016, Environment international.

[15]  P. Sanz,et al.  Bioaccumulation of emerging organic compounds (perfluoroalkyl substances and halogenated flame retardants) by earthworm in biosolid amended soils. , 2016, Environmental research.

[16]  A. Bignert,et al.  Perfluoroalkyl Acids (PFAAs) and Selected Precursors in the Baltic Sea Environment: Do Precursors Play a Role in Food Web Accumulation of PFAAs? , 2016, Environmental science & technology.

[17]  P. Lam,et al.  Perfluoroalkyl Substances (PFASs) in Marine Mammals from the South China Sea and Their Temporal Changes 2002-2014: Concern for Alternatives of PFOS? , 2016, Environmental science & technology.

[18]  Irina Gyllenhammar,et al.  Influence of contaminated drinking water on perfluoroalkyl acid levels in human serum--A case study from Uppsala, Sweden. , 2015, Environmental research.

[19]  Jessica S. Bowman,et al.  Fluorotechnology Is Critical to Modern Life: The FluoroCouncil Counterpoint to the Madrid Statement , 2015, Environmental health perspectives.

[20]  T. Fletcher,et al.  The Madrid Statement on Poly- and Perfluoroalkyl Substances (PFASs) , 2015, Environmental health perspectives.

[21]  Dominik Fiedler,et al.  Perfluoroalkyl and polyfluoroalkyl substances in consumer products , 2015, Environmental Science and Pollution Research.

[22]  C. D. de Wit,et al.  What is the effect of phasing out long-chain per- and polyfluoroalkyl substances on the concentrations of perfluoroalkyl acids and their precursors in the environment? A systematic review protocol , 2015, Environmental Evidence.

[23]  J. Washington,et al.  Decades-scale degradation of commercial, side-chain, fluorotelomer-based polymers in soils and water. , 2015, Environmental science & technology.

[24]  Andrea C. Blaine,et al.  Perfluoroalkyl acid uptake in lettuce (Lactuca sativa) and strawberry (Fragaria ananassa) irrigated with reclaimed water. , 2014, Environmental science & technology.

[25]  M. Bundschuh,et al.  Fate and effects of poly‐ and perfluoroalkyl substances in the aquatic environment: A review , 2014, Environmental toxicology and chemistry.

[26]  K. Hungerbühler,et al.  Global emission inventories for C4-C14 perfluoroalkyl carboxylic acid (PFCA) homologues from 1951 to 2030, Part I: production and emissions from quantifiable sources. , 2014, Environment international.

[27]  M. Greiner,et al.  Toxicokinetics of seven perfluoroalkyl sulfonic and carboxylic acids in pigs fed a contaminated diet. , 2014, Journal of agricultural and food chemistry.

[28]  Michael S McLachlan,et al.  Root uptake and translocation of perfluorinated alkyl acids by three hydroponically grown crops. , 2014, Journal of agricultural and food chemistry.

[29]  Mohammad Sohel Rahman,et al.  Behaviour and fate of perfluoroalkyl and polyfluoroalkyl substances (PFASs) in drinking water treatment: a review. , 2014, Water research.

[30]  A. Bergman,et al.  Tissue distribution of 35S-labelled perfluorobutanesulfonic acid in adult mice following dietary exposure for 1-5 days. , 2014, Chemosphere.

[31]  S. Klitzke,et al.  Transport of perfluoroalkyl acids in a water-saturated sediment column investigated under near-natural conditions. , 2014, Environmental pollution.

[32]  Andrea C. Blaine,et al.  Uptake of perfluoroalkyl acids into edible crops via land applied biosolids: field and greenhouse studies. , 2013, Environmental science & technology.

[33]  Konrad Hungerbühler,et al.  Fluorinated alternatives to long-chain perfluoroalkyl carboxylic acids (PFCAs), perfluoroalkane sulfonic acids (PFSAs) and their potential precursors. , 2013, Environment international.

[34]  Qi Zhou,et al.  Sorption of short- and long-chain perfluoroalkyl surfactants on sewage sludges. , 2013, Journal of hazardous materials.

[35]  A. Koizumi,et al.  Occurrence of perfluorinated carboxylic acids (PFCAs) in personal care products and compounding agents. , 2013, Chemosphere.

[36]  T. Kirchgeorg,et al.  Temporal variations of perfluoroalkyl substances and polybrominated diphenyl ethers in alpine snow. , 2013, Environmental pollution.

[37]  T. Stahl,et al.  Perfluoroalkyl and polyfluoroalkyl substances (PFASs) in mineral water and tap water , 2013, Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering.

[38]  Pim de Voogt,et al.  Uptake of perfluorinated alkyl acids by hydroponically grown lettuce (Lactuca sativa). , 2012, Environmental science & technology.

[39]  D. Barceló,et al.  Analysis of perfluoroalkyl substances in waters from Germany and Spain. , 2012, The Science of the total environment.

[40]  D. Herzke,et al.  Perfluoroalkyl and polyfluoroalkyl substances (PFASs) in consumer products in Norway - a pilot study. , 2012, Chemosphere.

[41]  Lena Vierke,et al.  Perfluorooctanoic acid (PFOA) — main concerns and regulatory developments in Europe from an environmental point of view , 2012, Environmental Sciences Europe.

[42]  D. Barceló,et al.  Fate of a broad spectrum of perfluorinated compounds in soils and biota from Tierra del Fuego and Antarctica. , 2012, Environmental pollution.

[43]  R. Luthy,et al.  Strong associations of short‐chain perfluoroalkyl acids with serum albumin and investigation of binding mechanisms , 2011, Environmental toxicology and chemistry.

[44]  Jeff Small,et al.  Biomagnification of perfluorinated compounds in a remote terrestrial food chain: Lichen-Caribou-wolf. , 2011, Environmental science & technology.

[45]  K. Hungerbühler,et al.  Using COSMOtherm to predict physicochemical properties of poly- and perfluorinated alkyl substances (PFASs) , 2011 .

[46]  I. Cousins,et al.  Reconciling measurement and modelling studies of the sources and fate of perfluorinated carboxylates , 2011 .

[47]  B. Pardo,et al.  The search for alternative aqueous film forming foams (AFFF) with a low environmental impact: physiological and transcriptomic effects of two Forafac(®) fluorosurfactants in turbot. , 2011, Aquatic toxicology.

[48]  A. A. Jensen,et al.  Perfluoroalkyl and Polyfluoroalkyl Substances in the Environment: Terminology, Classification, and Origins , 2011, Integrated environmental assessment and management.

[49]  T. L. Johnson,et al.  Absorption, distribution, metabolism, and excretion of [1-¹⁴C]-perfluorohexanoate ([¹⁴C]-PFHx) in rats and mice. , 2011, Toxicology.

[50]  Lutz Ahrens,et al.  Polyfluoroalkyl compounds in the aquatic environment: a review of their occurrence and fate. , 2011, Journal of environmental monitoring : JEM.

[51]  H. Westberg,et al.  A time trend study of significantly elevated perfluorocarboxylate levels in humans after using fluorinated ski wax. , 2010, Environmental science & technology.

[52]  P. Stetson,et al.  Comparison of the toxicokinetic behavior of perfluorohexanoic acid (PFHxA) and nonafluorobutane-1-sulfonic acid (PFBS) in cynomolgus monkeys and rats. , 2009, Reproductive toxicology.

[53]  Liang-Hong Guo,et al.  Fluorescence study on site-specific binding of perfluoroalkyl acids to human serum albumin , 2009, Archives of Toxicology.

[54]  Derek C G Muir,et al.  Biological monitoring of polyfluoroalkyl substances: A review. , 2006, Environmental science & technology.

[55]  P. Kirsch Modern Fluoroorganic Chemistry: Synthesis, Reactivity, Applications , 2004 .

[56]  C. Lau,et al.  The developmental toxicity of perfluoroalkyl acids and their derivatives. , 2004, Toxicology and applied pharmacology.

[57]  J. Giesy,et al.  Global distribution of perfluorooctane sulfonate in wildlife. , 2001, Environmental science & technology.

[58]  P. Haglund,et al.  Screening of PFASs in sludge and water from waste water treatment plants , 2017 .

[59]  S. Godtfredsen,et al.  Ullmann ' s Encyclopedia of Industrial Chemistry , 2017 .

[60]  Lutz Ahrensa,et al.  Source tracking and impact of per-and polyfluoroalkyl substances at Svalbard – FluorosImpact – , 2016 .

[61]  D. Barceló,et al.  Perfluoroalkyl substances in the Ebro and Guadalquivir river basins (Spain). , 2016, The Science of the total environment.

[62]  Fortschreibung der vorläufigen Bewertung von per- und polyfluorierten Chemikalien (PFC) im Trinkwasser , 2016, Bundesgesundheitsblatt - Gesundheitsforschung - Gesundheitsschutz.

[63]  D. Barceló,et al.  Perfluoroalkyl substances assessment in drinking waters from Brazil, France and Spain. , 2016, The Science of the total environment.

[64]  S. Lundgren Evaluation of the efficiency of treatment techniques in removing perfluoroalkyl substances from water , 2014 .

[65]  Alex de Voogt,et al.  UvA-DARE (Digital Academic Repository) Helsingør Statement on Poly-and Perfluorinated Alkyl Substances (PFASs) , 2014 .

[66]  J. Dolfing,et al.  Biodegradation of perfluorinated compounds. , 2008, Reviews of environmental contamination and toxicology.

[67]  Rebecca Renner,et al.  The long and the short of perfluorinated replacements. , 2006, Environmental science & technology.