Samuel N Luoma
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Explore the profile of Samuel N Luoma including associated specialties, affiliations and a list of published articles.
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Recent Articles
1.
de Bruyn A, Heddle C, Ings J, Gurleyuk H, Brix K, Luoma S, et al.
Environ Toxicol Chem
. 2025 Feb;
44(2):363-374.
PMID: 39919232
Selenium (Se) occurs in natural surface waters as a variety of inorganic and organic chemical species, typically dominated by the oxyanions selenate and selenite. Organoselenium species, although hypothesized to be...
2.
Ponton D, Croteau M, Luoma S, Pourhoseini S, Merrifield R, Lead J
Nanotoxicology
. 2019 Jul;
13(9):1149-1160.
PMID: 31284796
Core-shell silver nanoparticles (NPs) consisting of an inner Ag core and successive layers of Au and Ag (Ag@Au@Ag) were used to measure the simultaneous association of Ag NPs and ionic...
3.
Buchwalter D, Clements W, Luoma S
Environ Toxicol Chem
. 2017 Jan;
36(2):285-291.
PMID: 28117949
The development of water quality criteria (WQC) for the protection of aquatic life is a fundamental component of the Clean Water Act-the primary US legislation responsible for protecting aquatic ecosystems...
4.
Hull R, Luoma S, Bayne B, Iliff J, Larkin D, Paschke M, et al.
Integr Environ Assess Manag
. 2015 Oct;
12(2):296-305.
PMID: 26419951
Ecosystem restoration planning near the beginning of the site assessment and management process ("early integration") involves consideration of restoration goals from the outset in developing solutions for contaminated ecosystems. There...
5.
Stoiber T, Croteau M, Romer I, Tejamaya M, Lead J, Luoma S
Nanotoxicology
. 2015 Feb;
9(7):918-27.
PMID: 25676617
The release of Ag nanoparticles (AgNPs) into the aquatic environment is likely, but the influence of water chemistry on their impacts and fate remains unclear. Here, we characterize the bioavailability...
6.
Khan F, Misra S, Bury N, Smith B, Rainbow P, Luoma S, et al.
Nanotoxicology
. 2014 Aug;
9(4):493-501.
PMID: 25137295
Mechanisms involved in the uptake of Ag NPs, and NPs in general, have been long debated within nano-ecotoxicology. In vitro studies provide evidence of the different available uptake pathways, but...
7.
Croteau M, Misra S, Luoma S, Valsami-Jones E
Environ Sci Technol
. 2014 Aug;
48(18):10929-37.
PMID: 25110983
The incidental ingestion of engineered nanoparticles (NPs) can be an important route of uptake for aquatic organisms. Yet, knowledge of dietary bioavailability and toxicity of NPs is scarce. Here we...
8.
Lopez-Serrano Oliver A, Croteau M, Stoiber T, Tejamaya M, Romer I, Lead J, et al.
Environ Pollut
. 2014 Mar;
189:87-91.
PMID: 24641838
Silver nanoparticles (AgNPs) are widely used in many applications and likely released into the aquatic environment. There is increasing evidence that Ag is efficiently delivered to aquatic organisms from AgNPs...
9.
Garcia-Alonso J, Rodriguez-Sanchez N, Misra S, Valsami-Jones E, Croteau M, Luoma S, et al.
Sci Total Environ
. 2014 Feb;
476-477:688-95.
PMID: 24514586
Pollutants affecting species at the population level generate ecological instability in natural systems. The success of early life stages, such as those of aquatic invertebrates, is highly affected by adverse...
10.
Khan F, Kennaway G, Croteau M, Dybowska A, Smith B, Nogueira A, et al.
Chemosphere
. 2014 Jan;
100:97-104.
PMID: 24411838
In vivo studies with Daphnia magna remain inconclusive as to whether engineered nanoparticles (NPs) are internalized into tissues after ingestion. Here we used a three-pronged approach to study the in...