S
Simone Hasenbein
Researcher at University of California, Davis
Publications - 19
Citations - 536
Simone Hasenbein is an academic researcher from University of California, Davis. The author has contributed to research in topics: Hyalella azteca & Pesticide. The author has an hindex of 11, co-authored 19 publications receiving 406 citations. Previous affiliations of Simone Hasenbein include Technische Universität München & University of California.
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Journal ArticleDOI
LC- and GC-QTOF-MS as Complementary Tools for a Comprehensive Micropollutant Analysis in Aquatic Systems
TL;DR: The results highlight the importance of analyzing water samples using multiple separation techniques and in multiple ionization modes to obtain a comprehensive chemical contaminant profile.
Journal ArticleDOI
The Toxicogenome of Hyalella azteca: A Model for Sediment Ecotoxicology and Evolutionary Toxicology
Helen C. Poynton,Simone Hasenbein,Joshua B. Benoit,Maria S. Sepúlveda,Monica F. Poelchau,Daniel S.T. Hughes,Shwetha C. Murali,Shuai Chen,Karl M. Glastad,Michael A. D. Goodisman,John H. Werren,Joseph H. Vineis,Jennifer L. Bowen,Markus Friedrich,Jeffery W. Jones,Hugh M. Robertson,René Feyereisen,Alexandra Mechler-Hickson,Nicholas Mathers,Carol Eunmi Lee,John K. Colbourne,Adam D. Biales,J. Spencer Johnston,Gary A. Wellborn,Andrew J. Rosendale,Andrew G. Cridge,Monica Munoz-Torres,Peter A. Bain,Austin R. Manny,Kaley M. Major,Faith N. Lambert,Chris D. Vulpe,Padrig Tuck,Bonnie J. Blalock,Yu-Yu Lin,Mark E. Smith,Hugo Ochoa-Acuña,Mei-Ju May Chen,Christopher P. Childers,Jiaxin Qu,Shannon Dugan,Sandra L. Lee,Hsu Chao,Huyen Dinh,Yi Han,Harshavardhan Doddapaneni,Kim C. Worley,Donna M. Muzny,Richard A. Gibbs,Stephen Richards +49 more
TL;DR: The H. azteca genome will greatly facilitate development of genomic tools for environmental assessments and promote an understanding of how evolution shapes toxicological pathways with implications for environmental and human health.
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Transcriptomic changes underlie altered egg protein production and reduced fecundity in an estuarine model fish exposed to bifenthrin.
Susanne M. Brander,Ken M. Jeffries,Bryan J. Cole,Bethany M. DeCourten,J. Wilson White,Simone Hasenbein,Nann A. Fangue,Richard E. Connon +7 more
TL;DR: Environmental concentrations of bifenthrin have potential to interfere with metabolic processes, endocrine signaling, and to decrease reproductive output, as demonstrated by observed changes in endocrine-related gene expression and choriogenin production.
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Environmentally relevant concentrations of herbicides impact non-target species at multiple sublethal endpoints
TL;DR: Herbicide exposure effects were detected at environmentally relevant concentrations, levels considered to be safe according to current USEPA aquatic life benchmarks, suggesting that these benchmarks need to be updated to improve ecological risk assessment.
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A long‐term assessment of pesticide mixture effects on aquatic invertebrate communities
TL;DR: Examination of long-term effects on aquatic invertebrate communities of tertiary mixtures of commonly used pesticides indicates that insecticide mixtures continue to impact natural systems over multiple weeks, even when no longer detectable in water and bound to particles.