Karl C Bowles
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Explore the profile of Karl C Bowles including associated specialties, affiliations and a list of published articles.
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9
Citations
85
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Recent Articles
1.
Navarro D, Kabiri S, Ho J, Bowles K, Davis G, McLaughlin M, et al.
Environ Pollut
. 2023 Feb;
323:121249.
PMID: 36764376
Immobilisation/stabilisation is one of the most developed and studied approaches for treating soils contaminated with per- and poly-fluoroalkyl substances (PFAS). However, its application has been inhibited by insufficient understanding of...
2.
Taylor M, Johnson D, Nilsson S, Lin C, Braeunig J, Mueller J, et al.
Sci Total Environ
. 2020 Dec;
758:143650.
PMID: 33261868
Poly and perfluorinated alkyl substances (PFASs) are persistent organic pollutants (POPs) that are highly resistant to environmental degradation, and have been detected in a broad range of terrestrial and aquatic...
3.
Taylor M, Nilsson S, Braunig J, Bowles K, Cole V, Moltschaniwskyj N, et al.
Food Chem Toxicol
. 2019 Mar;
127:280-287.
PMID: 30905867
Per-and poly-fluoroalkyl substances (PFASs) are bioaccumulative chemicals of emerging concern. Some PFASs accumulate in seafood, and can contribute to dietary exposure. Previous work has suggested cooking seafood decreases concentrations of...
4.
Taylor M, Beyer-Robson J, Johnson D, Knott N, Bowles K
Mar Pollut Bull
. 2018 Jun;
131(Pt A):303-313.
PMID: 29886951
Spatial patterns in perfluoroalkyl substances were quantified for exploited fish and crustaceans across two contrasting Australian estuaries (Port Stephens and Hunter River). Perfluorooctane sulfonate (PFOS) was detected in 77% of...
5.
Taylor M, Bowles K, Johnson D, Moltschaniwskyj N
Sci Total Environ
. 2017 Jan;
581-582:258-267.
PMID: 28057344
Detection and quantification of poly- and perfluoroalkyl substances (PFASs) in aquatic organisms is increasing, particularly for saltwater species. Depuration can remove PFASs from the tissues of some species once they...
6.
Paquin P, Gorsuch J, Apte S, Batley G, Bowles K, Campbell P, et al.
Comp Biochem Physiol C Toxicol Pharmacol
. 2002 Nov;
133(1-2):3-35.
PMID: 12428632
During recent years, the biotic ligand model (BLM) has been proposed as a tool to evaluate quantitatively the manner in which water chemistry affects the speciation and biological availability of...
7.
Bianchini A, Bowles K
Comp Biochem Physiol C Toxicol Pharmacol
. 2002 Oct;
133(1-2):51-64.
PMID: 12356516
The Biotic Ligand Model (BLM) attempts to predict metal toxicity to aquatic organisms on the basis of metal speciation and effects at the cell surface. Current versions of the BLM...
8.
Bianchini A, Bowles K, Brauner C, Gorsuch J, Kramer J, Wood C
Environ Toxicol Chem
. 2002 Jun;
21(6):1294-300.
PMID: 12069317
The protective effect of reactive sulfide against AgNO3 toxicity to Daphnia magna neonates was studied. Acute (48-h) toxicity tests were performed in the absence (<5 nM) and presence of low...
9.
Bowles K, Bianchini A, Brauner C, Kramer J, Wood C
Environ Toxicol Chem
. 2002 Jun;
21(6):1286-93.
PMID: 12069316
Experiments were designed to assess the potential protective effect of the presence of sulfide against the acute (48-h) toxicity of silver(I) to Daphnia magna. Tests were conducted in borosilicate glass...