Item talk:Q45547: Difference between revisions
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ORCID: | |||
'@context': http://schema.org | |||
'@id': https://orcid.org/0000-0003-0346-3580 | |||
'@reverse': | |||
creator: | |||
- '@id': https://doi.org/10.3133/ofr20231017 | |||
'@type': CreativeWork | |||
identifier: | |||
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propertyID: doi | |||
value: 10.3133/ofr20231017 | |||
name: "Near-field receiving-water monitoring of trace metals and a benthic community\ | |||
\ near the Palo Alto Regional Water Quality Control Plant in south San Francisco\ | |||
\ Bay, California\u20142020" | |||
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'@type': CreativeWork | |||
identifier: | |||
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propertyID: doi | |||
value: 10.1002/etc.5271 | |||
name: "Water Chemistry, Exposure Routes, and Metal Forms Determine the Bioaccumulation\ | |||
\ Dynamics of Silver (Ionic and Nanoparticulate) in\n <i>Daphnia\ | |||
\ magna</i>" | |||
- '@id': https://doi.org/10.1021/acs.est.0c05985 | |||
'@type': CreativeWork | |||
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value: 10.1021/acs.est.0c05985 | |||
name: Effect of Nanoparticle Size and Natural Organic Matter Composition on | |||
the Bioavailability of Polyvinylpyrrolidone-Coated Platinum Nanoparticles | |||
to a Model Freshwater Invertebrate | |||
- '@id': https://doi.org/10.1016/j.scitotenv.2020.142017 | |||
'@type': CreativeWork | |||
identifier: | |||
' | |||
USGS Staff Profile: | USGS Staff Profile: | ||
'@context': https://schema.org | '@context': https://schema.org | ||
Revision as of 17:32, 23 May 2024
ORCID:
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USGS Staff Profile:
'@context': https://schema.org '@type': Person affiliation: [] description: - '@type': TextObject abstract: Research Biologist with the Geology, Minerals, Energy, and Geophysics Science Center additionalType: short description - '@type': TextObject abstract: Marie came to the USGS in September 2002 as a postdoctoral fellow to study the bioavailability and bioaccumulation of metals in freshwater food webs. Her work focused on understanding how metals are transferred through food webs and how trophic position in a food web influences exposure to metals. additionalType: staff profile page introductory statement - '@type': TextObject abstract: Marie used nitrogen and carbon stable isotopes to show that cadmium, in contrast to copper, could be magnified along certain freshwater food webs. This suggests that processes that drive Cd trophic transfer are more complex than that of organo-metals, metalloids and organic contaminants.In addition to her work on metal trophic transfer, she refined an approach that involves the use stable metal isotopes (rather than radioisotopes) to describe accumulation and loss dynamics in freshwater invertebrates. Characterization of bioaccumulation dynamics is critical to understanding risks associated with contaminant exposure in organisms. For instance, this tracing technique allowed showing that a slow rate constant of loss for Cu likely explains the elevated levels of this toxic trace metal found in molluscs in nature, and that diet is an important bioaccumulation pathway for metals for several aquatic species.She used biodynamic modeling and the enriched stable isotope tracers in novel ways to understand the fate and effects of nanosized metals in aquatic organisms as well as to investigate how the geochemical properties of mineral particles consumed by organisms affect their bioavailability. additionalType: personal statement email: mcroteau@usgs.gov hasCredential: - '@type': EducationalOccupationalCredential name: PhD. 2002. Water and Environmental Sciences, University of Quebec (INRS-ETE), Canada - '@type': EducationalOccupationalCredential name: M.Sc. 1997. Water and Environmental Sciences, University of Quebec (INRS-ETE), Canada hasOccupation: - '@type': OrganizationalRole affiliatedOrganization: '@type': Organization name: Geology, Minerals, Energy, and Geophysics Science Center url: https://www.usgs.gov/centers/gmeg roleName: Research Biologist startDate: '2024-05-12T15:45:22.059439' identifier: - '@type': PropertyValue propertyID: GeoKB value: https://geokb.wikibase.cloud/entity/Q45547 - '@type': PropertyValue propertyID: ORCID value: 0000-0003-0346-3580 jobTitle: Research Biologist knowsAbout: - '@type': Thing additionalType: self-claimed expertise name: aquatic ecosystems - '@type': Thing additionalType: self-claimed expertise name: contamination and pollution - '@type': Thing additionalType: self-claimed expertise name: mine drainage - '@type': Thing additionalType: self-claimed expertise name: toxic trace element contamination memberOf: '@type': OrganizationalRole member: '@type': Organization name: U.S. Geological Survey name: staff member startDate: '2024-05-12T15:45:22.056723' name: Marie Noele Croteau, Ph.D. url: https://www.usgs.gov/staff-profiles/marie-noele-croteau
