J
Jason P. Berninger
Researcher at United States Geological Survey
Publications - 35
Citations - 2293
Jason P. Berninger is an academic researcher from United States Geological Survey. The author has contributed to research in topics: Environmental exposure & Oil dispersants. The author has an hindex of 20, co-authored 33 publications receiving 1925 citations. Previous affiliations of Jason P. Berninger include Baylor University & United States Environmental Protection Agency.
Papers
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Journal ArticleDOI
Observed and modeled effects of pH on bioconcentration of diphenhydramine, a weakly basic pharmaceutical, in fathead minnows
John W. Nichols,Bowen Du,Jason P. Berninger,Kristin A. Connors,C. Kevin Chambliss,Russell J. Erickson,Alex D. Hoffman,Bryan W. Brooks +7 more
TL;DR: In this paper, fathead minnows were exposed to diphenhydramine (DPH; disassociation constant) in water for up to 96'h at 3 nominal pH levels: 6.7, 7.7 and 8.7.
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Comparative toxicity of Prymnesium parvum in inland waters.
Bryan W. Brooks,Susan V. James,Theodore W. Valenti,Fabiola Ureña-Boeck,Carlos A. Serrano,Jason P. Berninger,Leslie Schwierzke,Laura D. Mydlarz,James P. Grover,Daniel L. Roelke +9 more
TL;DR: In this paper, a comparative toxicity of P.parvum filtrate from a laboratory study (20°C, 12:12 light:dark cycle, f/8 media, 2.4 ǫpsu) to several common standardized in vitro and in vivo models is presented.
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Prioritization of pharmaceuticals for potential environmental hazard through leveraging a large‐scale mammalian pharmacological dataset
TL;DR: A probabilistic model and scoring system were developed and evaluated and it is anticipated that the MaPPFAST database and the associated API prioritization approach will help guide research and/or inform ecological risk assessment.
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Leveraging existing data for prioritization of the ecological risks of human and veterinary pharmaceuticals to aquatic organisms.
TL;DR: The utility of read-across approaches to leverage mammalian absorption, distribution, metabolism and elimination data; analyse cross-species molecular target conservation and translate therapeutic MOA to an adverse outcome pathway relevant to aquatic organisms as a means to inform prioritization of drugs for focused toxicity testing and environmental monitoring are demonstrated.
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Mixed-chemical exposure and predicted effects potential in wadeable southeastern USA streams
Paul M. Bradley,Celeste A. Journey,Jason P. Berninger,Daniel T. Button,Jimmy M. Clark,Steve R. Corsi,Laura A. DeCicco,Kristina G. Hopkins,Bradley J. Huffman,Naomi Nakagaki,Julia E. Norman,Lisa H. Nowell,Sharon L. Qi,Peter C. VanMetre,Ian R. Waite +14 more
TL;DR: It is demonstrated that mixed-contaminant exposures are ubiquitous and varied in sampled headwater streams and compelling multiple lines of evidence for adverse effects on aquatic communities.