Ecotoxicity test methods for engineered nanomaterials: practical experiences and recommendations from the bench.
about
Titanium dioxide nanoparticles increase sensitivity in the next generation of the water flea Daphnia magnaDrosophila embryos as model to assess cellular and developmental toxicity of multi-walled carbon nanotubes (MWCNT) in living organismsAquatic Ecotoxicity Testing of Nanoparticles-The Quest To Disclose Nanoparticle EffectsIdentification and avoidance of potential artifacts and misinterpretations in nanomaterial ecotoxicity measurementsConcern-driven integrated approaches to nanomaterial testing and assessment--report of the NanoSafety Cluster Working Group 10Considerations of Environmentally Relevant Test Conditions for Improved Evaluation of Ecological Hazards of Engineered NanomaterialsEffects of surface-engineered nanoparticle-based dispersants for marine oil spills on the model organism Artemia franciscanaImmunomodulation by different types of N-oxides in the hemocytes of the marine bivalve Mytilus galloprovincialisEmergent Properties and Toxicological Considerations for Nanohybrid Materials in Aquatic SystemsNanomaterials in the aquatic environment: A European Union-United States perspective on the status of ecotoxicity testing, research priorities, and challenges aheadUptake and depuration of gold nanoparticles in Daphnia magnaEffects of nano-titanium dioxide on freshwater algal population dynamicsAcute toxicity of TiO2 nanoparticles to Ceriodaphnia dubia under visible light and dark conditions in a freshwater system.Experimental studies with nematodes in ecotoxicology: an overviewA colloidal singularity reveals the crucial role of colloidal stability for nanomaterials in-vitro toxicity testing: nZVI-microalgae colloidal system as a case studyHarmful effects of silver nanoparticles on a complex detrital model system.Practical considerations for conducting ecotoxicity test methods with manufactured nanomaterials: what have we learnt so far?Genetic correlations and little genetic variance for reaction norms may limit potential for adaptation to pollution by ionic and nanoparticulate silver in a whitefish (Salmonidae).Toxicity of Ag, CuO and ZnO nanoparticles to selected environmentally relevant test organisms and mammalian cells in vitro: a critical review.Bioaccumulation and ecotoxicity of carbon nanotubes.Metal-based nanoparticles in soil: fate, behavior, and effects on soil invertebrates.Biological accumulation of engineered nanomaterials: a review of current knowledge.Potential environmental implications of nano-enabled medical applications: critical review.Analytical approaches to support current understanding of exposure, uptake and distributions of engineered nanoparticles by aquatic and terrestrial organisms.Integrated transcriptome, proteome and physiology analysis of Epinephelus coioides after exposure to copper nanoparticles or copper sulfate.Techniques and Protocols for Dispersing Nanoparticle Powders in Aqueous Media-Is there a Rationale for Harmonization?Towards a Consensus View on Understanding Nanomaterials Hazards and Managing Exposure: Knowledge Gaps and Recommendations.Increasing evidence indicates low bioaccumulation of carbon nanotubes.A critical evaluation of the fish early-life stage toxicity test for engineered nanomaterials: experimental modifications and recommendations.Is gene transcription in mussel gills altered after exposure to Ag nanoparticles?Towards sensible toxicity testing for nanomaterials: proposal for the specification of test design.Species sensitivity and dependence on exposure conditions impacting the phototoxicity of TiO₂ nanoparticles to benthic organisms.Chironomus riparius exposure to fullerene-contaminated sediment results in oxidative stress and may impact life cycle parameters.Combining exposure and effect modeling into an integrated probabilistic environmental risk assessment for nanoparticles.Cerium oxide nanoparticle aggregates affect stress response and function in Caenorhabditis elegans.Probabilistic environmental risk assessment of five nanomaterials (nano-TiO2, nano-Ag, nano-ZnO, CNT, and fullerenes).Controlling silver nanoparticle exposure in algal toxicity testing--a matter of timing.Ecotoxicity of multiwalled carbon nanotubes: standardization of the dispersion methods and concentration measurements.Hydrodynamic chromatography - inductively coupled plasma mass spectrometry, with post-column injection capability for simultaneous determination of nanoparticle size, mass concentration and particle number concentration (HDC-PCi-ICP-MS).Chronic exposure of tilapia (Oreochromis niloticus) to iron oxide nanoparticles: Effects of particle morphology on accumulation, elimination, hematology and immune responses
P2860
Q21089834-E3A9FE03-20F0-46CE-BCC1-3BF7946F0A08Q27322435-122FCAE5-EB82-4C52-B9E5-18299D8E557DQ28068302-E027E8A8-649C-4C74-A11A-4F17F1FCEE63Q28384347-993D3817-C7E4-4D15-B8D0-4FCFFA7A5A1CQ28384830-93A6980F-28ED-4FB3-ACAF-BF1C5488CE27Q28385493-ACE47403-A2C1-461E-B382-213F010417B0Q28387265-4383441A-DFAB-4322-AB1F-248757B11CFEQ28483651-B46BA295-B3C7-4F01-B385-39413ECAC0EEQ29248320-E5469EC7-9B69-406D-9BD8-AE429B13C44AQ30377387-E4DA60E1-E4D9-4550-B8CA-17C849BAF204Q34038239-6762D66C-7690-49E3-BF82-236AD2A41612Q34447953-3B327060-C721-4F84-8F59-E886F17B53AFQ34712246-AC91325D-55AB-48E7-8C55-A3C713C27A19Q35302627-4AAC083F-99F9-464C-B5A0-ECDAFE31B377Q35361266-141A0F9D-5A40-491D-B0EC-24BF48CE5221Q35860490-073E20BB-921C-44BA-B574-95725311C449Q35886305-03A8CC86-68FB-424C-8B5C-3DE9974D0464Q36703241-976A4814-1ADA-4B29-BC43-03CC476DCBD0Q36917097-11F1815B-88E0-407C-AFF2-572745C044DCQ37359950-D2D82D72-A0B7-46D0-A25E-0DB8F0103293Q38008988-42EC8031-933B-4B75-9CE4-1B01482D826EQ38193125-71F64D07-5084-468B-81E4-5FACD07C90FCQ38193126-7097816C-19D8-46F7-A8E6-061FCFF47AABQ38291381-4BAAF6C0-F6DD-4174-9AF6-2DCE32B18FB8Q38437538-CB70566D-BA88-442C-98D5-665A0B9C878AQ38591527-F1FD617C-AC12-437E-942F-61254C38C005Q38624087-73E35252-ACA3-48A5-A7F6-30D6684742FAQ38685088-88D15CAC-8BD4-4845-A6F4-645FB32E826DQ38869530-21117A7F-9E15-4A90-9FFE-D00CBB974A08Q38973694-A8B67191-B45A-4356-B063-208D24492E37Q39161151-D8842FC7-2741-4FCC-8108-6F56501B55D9Q39188989-57274A69-2C92-4CF1-B304-891866B1B1C0Q39766871-E6DEB145-18F3-45D9-AB94-E3C19A3AC73DQ39793947-6154D3DB-B698-41CB-896C-EAFF51685123Q40104391-24A6C5D0-595C-4B99-BF18-D1B2668EF567Q40337620-82EF1B1D-8592-4C86-9CA5-7899DE593F25Q40447912-D4C8CD95-D3C9-4419-895D-95C064435C75Q41143720-CB176E8B-A88F-4E0D-A2DC-04CE23E0CED7Q41516944-AD9F9EC9-2BCA-43FF-AE2A-3DE94288F3FBQ42085269-FABBBCFA-3CCD-48AB-B5A4-B71CF9EDD43D
P2860
Ecotoxicity test methods for engineered nanomaterials: practical experiences and recommendations from the bench.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh
2011年學術文章
@zh-hant
name
Ecotoxicity test methods for e ...... ecommendations from the bench.
@en
Ecotoxicity test methods for e ...... ecommendations from the bench.
@nl
type
label
Ecotoxicity test methods for e ...... ecommendations from the bench.
@en
Ecotoxicity test methods for e ...... ecommendations from the bench.
@nl
prefLabel
Ecotoxicity test methods for e ...... ecommendations from the bench.
@en
Ecotoxicity test methods for e ...... ecommendations from the bench.
@nl
P2093
P2860
P50
P356
P1476
Ecotoxicity test methods for e ...... recommendations from the bench
@en
P2093
Alan Decho
Chris Metcalfe
Jeffery A Steevens
Nina Horne
Richard D Handy
Stephen J Klaine
Tara Sabo-Attwood
P2860
P356
10.1002/ETC.706
P577
2011-11-18T00:00:00Z