Narcosis due to environmental pollutants in aquatic organisms: residue-based toxicity, mechanisms, and membrane burdens.
about
Effects of surface-engineered nanoparticle-based dispersants for marine oil spills on the model organism Artemia franciscanaAre pharmaceuticals with evolutionary conserved molecular drug targets more potent to cause toxic effects in non-target organisms?Structurally distinct polycyclic aromatic hydrocarbons induce differential transcriptional responses in developing zebrafishCharacterization of a MexAB-OprM efflux system necessary for productive metabolism of Pseudomonas azelaica HBP1 on 2-hydroxybiphenylIdentifying and designing chemicals with minimal acute aquatic toxicityRe-analysis of narcotic critical body residue data using the equilibrium distribution concept and refined partition coefficients.Crucial role of mechanisms and modes of toxic action for understanding tissue residue toxicity and internal effect concentrations of organic chemicals.Reintroducing Environmental Change Drivers in Biodiversity-Ecosystem Functioning Research.Bioavailability in dose and exposure assessment of organic contaminants in (eco)toxicology.Advancing environmental toxicology through chemical dosimetry: external exposures versus tissue residues.A review of the tissue residue approach for organic and organometallic compounds in aquatic organisms.Adverse Outcome Pathways for Regulatory Applications: Examination of Four Case Studies With Different Degrees of Completeness and Scientific Confidence.Toxicity of 56 substances to trees.(Q)SARs to predict environmental toxicities: current status and future needs.Defining and Controlling Exposure During In Vitro Toxicity Testing and the Potential of Passive Dosing.A toxicokinetic study of specifically acting and reactive organic chemicals for the prediction of internal effect concentrations in Scenedesmus vacuolatus.Evaluating pyrene toxicity on Arctic key copepod species Calanus hyperboreus.Effects of pyrene exposure and temperature on early development of two co-existing Arctic copepods.Time-varying effects of aromatic oil constituents on the survival of aquatic species: Deviations between model estimates and observations.A fugacity-based toxicokinetic model for narcotic organic chemicals in fish.1H NMR-Based Metabolomic Analysis of Sub-Lethal Perfluorooctane Sulfonate Exposure to the Earthworm, Eisenia fetida, in Soil.Consumption-based approach for predicting environmental risk in Greece due to the presence of antimicrobials in domestic wastewater.Structure-toxicity analyses of Tetrahymena pyriformis exposed to pyridines -- an examination into extension of surface-response domains.Trends in structure-toxicity relationships for carbonyl-containing alpha,beta-unsaturated compounds.Ecotoxicological mechanisms and models in an impact analysis tool for oil spills.Baseline toxicity and ion-trapping models to describe the pH-dependence of bacterial toxicity of pharmaceuticals.Lethal and behavioral impacts of diesel and fuel oil on the Antarctic amphipod Paramoera walkeri.Phototoxic target lipid model of single polycyclic aromatic hydrocarbons.The antimicrobial agents triclocarban and triclosan as potent modulators of reproduction in Potamopyrgus antipodarum (Mollusca: Hydrobiidae).A simple mechanistic model to interpret the effects of narcotics.Sorptive capacity of membrane lipids, storage lipids, and proteins: a preliminary study of partitioning of organochlorines in lean fish from a PCB-contaminated freshwater lake.General baseline toxicity QSAR for nonpolar, polar and ionisable chemicals and their mixtures in the bioluminescence inhibition assay with Aliivibrio fischeri.Effects of ammonium-based ionic liquids and 2,4-dichlorophenol on the phospholipid fatty acid composition of zebrafish embryos.Effects of the antihistamine diphenhydramine on selected aquatic organisms.Ecotoxicological characterization of polyoxyethylene glycerol ester non-ionic surfactants and their mixtures with anionic and non-ionic surfactants.Challenges for exposure prediction in ecological risk assessment.The tissue residue approach for toxicity assessment: findings and critical reviews from a Society of Environmental Toxicology and Chemistry Pellston Workshop.An automated screening method for detecting compounds with goitrogenic activity using transgenic zebrafish embryosHarvesting the promise of AOPs: An assessment and recommendationsRationale and Procedures for Using the Tissue-Residue Approach for Toxicity Assessment and Determination of Tissue, Water, and Sediment Quality Guidelines for Aquatic Organisms
P2860
Q28387265-CB7C03D7-2BDF-4ED6-9078-42FCB069A176Q28542416-E04F1792-062C-4ED9-85EF-C243B099483DQ28655697-4E51B037-3D64-49B6-B1D2-F1A436DD0AAAQ28677016-50C04D72-5525-463A-8DA0-47E6F06898D8Q30388706-EBBAF14A-1DCD-44CC-9E74-A332848F822DQ31089293-0F343FEA-D00F-4D19-93AF-C88887C54FC4Q34156521-D28865C6-B5DD-4E3E-B2B8-093737764BE9Q36164188-685D3448-CB6A-4068-AC35-0C3D3C39F079Q36871691-6022BFB0-59FA-4849-888A-1154FDDE7A02Q37823886-53843797-FEAC-40C3-9708-0BF2CFA18BA5Q37823888-A564E16C-7EC6-4EA5-8A6B-26EE779D1FE2Q38616250-4023573D-DCA1-4192-A0BA-1F9C470AA206Q38720781-9D9C3445-B34D-421C-92E4-F14B47BDB9A2Q38752498-8402E492-1911-4291-AAB2-B5040ACB29C3Q38894327-CE5C95DB-2355-4FCD-99A2-4BB002C56609Q39121971-0742CAA8-1172-4491-9A07-D17D68E98D5CQ39294953-CDC3D077-01C0-43B7-B3FF-6AFB25D55B36Q39521787-102E030C-49AE-429A-8281-F9193D77FC61Q39735831-FF6AC107-1C44-462B-A24A-0C5AFBE1E989Q39842660-0873C68B-6C14-41E2-AF45-264DC59B270CQ41889880-96696317-59B5-43DA-BDEA-06A48E30B18FQ43577039-94F589B3-FE67-409F-85FD-0148892F1B75Q43592190-A505B3D5-2591-4B74-B237-CC4F71485B7FQ44938751-41257DB4-7F17-4200-9D2C-B9FAC3ED3354Q45055619-B7CC3700-A889-446B-A70A-0D0448E5709DQ46357219-3651E0D5-FD05-47CB-90F8-9ED7C831CE33Q46409878-7807C0A0-B882-4E62-9AD9-A010EF052C57Q46498159-46AFD5F1-B854-41C4-8A0E-02C171F5E109Q46510951-CE374168-6372-410F-BB7B-82953F7F90AEQ46758964-8E167DB8-56E3-4DE5-AF79-7730DB629CF4Q46851456-74D1A773-762E-4DED-84F3-AD3BD060C6C2Q48047274-A4A67F1F-BE4D-4C71-8D4A-33F579587AC8Q48226600-766AF9F9-3633-44F6-8578-DD09E0843D89Q48257334-F367B7B2-5CD1-49D9-A2F8-016099E4BF68Q50979482-34BAD2BB-2574-4D25-B907-AA4F5C5F9015Q51166282-2EDAF42D-34FF-4419-BC58-5DCA7D517CBFQ51611385-AF07BB69-E550-4172-9005-7A553107CEB0Q57003816-F402D443-4FDB-4E31-9E91-C617C6D677F4Q57178963-A722B083-BA88-4C1E-BD21-5F9621D7F172Q57524357-3FFA6712-9AC5-4ABE-AD9D-7D320B169E9A
P2860
Narcosis due to environmental pollutants in aquatic organisms: residue-based toxicity, mechanisms, and membrane burdens.
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年学术文章
@wuu
1995年学术文章
@zh-cn
1995年学术文章
@zh-hans
1995年学术文章
@zh-my
1995年学术文章
@zh-sg
1995年學術文章
@yue
1995年學術文章
@zh
1995年學術文章
@zh-hant
name
Narcosis due to environmental ...... hanisms, and membrane burdens.
@en
type
label
Narcosis due to environmental ...... hanisms, and membrane burdens.
@en
prefLabel
Narcosis due to environmental ...... hanisms, and membrane burdens.
@en
P2860
P1476
Narcosis due to environmental ...... hanisms, and membrane burdens.
@en
P2093
Opperhuizen A
P2860
P304
P356
10.3109/10408449509089890
P407
P577
1995-01-01T00:00:00Z