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kw.\*:("Modèle ligand biotique")

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Dissolved Organic Carbon-a Practical Consideration in Application of Biotic Ligand Models in Chinese WatersHAO CHENN; BINGHUI ZHENG; FENGCHANG WU et al.Environmental science & technology. 2011, Vol 45, Num 23, pp 9835-9836, issn 0013-936X, 2 p.Article

THE BIOTIC LIGAND MODEL APPROACH FOR ADDRESSING EFFECTS OF EXPOSURE WATER CHEMISTRY ON AQUATIC TOXICITY OF METALS: GENESIS AND CHALLENGESERICKSON, Russell J.Environmental toxicology and chemistry. 2013, Vol 32, Num 6, pp 1212-1214, issn 0730-7268, 3 p.Article

Extending the Biotic Ligand Model to Account for Positive and Negative Feedback Interactions between Cadmium and Zinc in a Freshwater AlgaLAVOIE, Michel; CAMPBELL, Peter G. C; FORTIN, Claude et al.Environmental science & technology. 2012, Vol 46, Num 21, pp 12129-12136, issn 0013-936X, 8 p.Article

Can the Biotic Ligand Model Predict Cu Toxicity Across a Range of pHs in Softwater-Acclimated Rainbow Trout?NG, Tania Y.-T; JASIM CHOWDHURY, M; WOOD, Chris M et al.Environmental science & technology. 2010, Vol 44, Num 16, pp 6263-6268, issn 0013-936X, 6 p.Article

Biotic ligand model, a flexible tool for developing site-specific water quality guidelines for metalsNIYOGI, Soumya; WOOD, Chris M.Environmental science & technology. 2004, Vol 38, Num 23, pp 6177-6192, issn 0013-936X, 16 p.Article

Modelling uptake and toxicity of nickel in solution to Enchytraeus crypticus with biotic ligand model theoryERKAI HE; HAO QIU; VAN GESTEL, Cornelis A. M et al.Environmental pollution (1987). 2014, Vol 188, pp 17-26, issn 0269-7491, 10 p.Article

EFFECT OF MAJOR CATIONS (Ca2+, Mg2+, Na+, K+) AND ANIONS (SO42―, Cl, NO3) ON Ni ACCUMULATION AND TOXICITY IN AQUATIC PLANT (LEMNA MINOR L.): IMPLICATIONS FOR Ni RISK ASSESSMENTGOPALAPILLAI, Yamini; HALE, Beverley; VIGNEAULT, Bernard et al.Environmental toxicology and chemistry. 2013, Vol 32, Num 4, pp 810-821, issn 0730-7268, 12 p.Article

The Biotic Ligand Model Can Successfully Predict the Uptake of a Trivalent Ion by a Unicellular Alga Below pH 6.50 but not Above: Possible Role of Hydroxo-SpeciesCREMAZY, Anne; CAMPBELL, Peter G. C; FORTIN, Claude et al.Environmental science & technology. 2013, Vol 47, Num 5, pp 2408-2415, issn 0013-936X, 8 p.Article

Effect of dissolved organic matter source on phytotoxicity to Lemna aequinoctialisSHOJI, Ryo.Aquatic toxicology. 2008, Vol 87, Num 3, pp 210-214, issn 0166-445X, 5 p.Article

Copper bioavailability and toxicity to Mytilus galloprovincialis in Shelter Island Yacht Basin, San Diego, CABOSSE, Casey; ROSEN, Gunther; COLVIN, Marienne et al.Marine pollution bulletin. 2014, Vol 85, Num 1, pp 225-234, issn 0025-326X, 10 p.Article

Validation of the Biotic Ligand Model in Metal Mixtures: Bioaccumulation of Lead and CopperZHONGZHI CHEN; LIN ZHU; WILKINSON, Kevin J et al.Environmental science & technology. 2010, Vol 44, Num 9, pp 3580-3586, issn 0013-936X, 7 p.Article

The relationship between metal toxicity and biotic ligand binding affinities in aquatic and soil organisms: A reviewARDESTANI, Masoud M; VAN STRAALEN, Nico M; VAN GESTEL, Cornelis A. M et al.Environmental pollution (1987). 2014, Vol 195, pp 133-147, issn 0269-7491, 15 p.Article

Bioavailability and chronic toxicity of zinc to juvenile rainbow trout (Oncorhynchus mykiss): Comparison with other fish species and development of a biotic ligand modelDE SCHAMPHELAERE, Karel A. C; JANSSEN, Colin R.Environmental science & technology. 2004, Vol 38, Num 23, pp 6201-6209, issn 0013-936X, 9 p.Article

Characterization of freshwater natural dissolved organic matter (DOM): Mechanistic explanations for protective effects against metal toxicity and direct effects on organismsAL-REASI, Hassan A; WOOD, Chris M; SMITH, D. Scott et al.Environment international. 2013, Vol 59, pp 201-207, issn 0160-4120, 7 p.Article

Copper phytotoxicity in native and agronomical plant speciesLAMB, Dane T; NAIDU, Ravi; HUI MING et al.Ecotoxicology and environmental safety (Print). 2012, Vol 85, pp 23-29, issn 0147-6513, 7 p.Article

Assessing time-integrated dissolved concentrations and predicting toxicity of metals during diel cycling in streamsBALISTRIERI, Laurie S; NIMICK, David A; MEBANE, Christopher A et al.Science of the total environment. 2012, Vol 425, pp 155-168, issn 0048-9697, 14 p.Article

Cross-species extrapolation of chronic nickel Biotic Ligand ModelsSCHLEKAT, Christian E; VAN GENDEREN, Eric; DE SCHAMPHELAERE, Karel A. C et al.Science of the total environment. 2010, Vol 408, Num 24, pp 6148-6157, issn 0048-9697, 10 p.Article

Effect of Major Cations and pH on the Acute Toxicity of Cadmium to the Earthworm Eisenia fetida : Implications for the Biotic Ligand Model ApproachLI, Lian-Zhen; ZHOU, Dong-Mei; LUO, Xiao-San et al.Archives of environmental contamination and toxicology (Print). 2008, Vol 55, Num 1, pp 70-77, issn 0090-4341, 8 p.Article

Modes of metal toxicity and impaired branchial ionoregulation in rainbow trout exposed to mixtures of Pb and Cd in soft waterBIRCEANU, Oana; JASIM CHOWDHURY, M; GILLIS, Patricia L et al.Aquatic toxicology. 2008, Vol 89, Num 4, pp 222-231, issn 0166-445X, 10 p.Article

Uptake and elimination kinetics of metals in soil invertebrates: A reviewARDESTANI, Masoud M; VAN STRAALEN, Nico M; VAN GESTEL, Cornelis A. M et al.Environmental pollution (1987). 2014, Vol 193, pp 277-295, issn 0269-7491, 19 p.Article

Interactions of Pb and Cd mixtures in the presence or absence of natural organic matter with the fish gillWINTER, AnnaR; PLAYLE, Richard C; GEORGE DIXON, D et al.Ecotoxicology and environmental safety (Print). 2012, Vol 83, pp 16-24, issn 0147-6513, 9 p.Article

Bioavailability links mode of action can improve the long-term field risk assessment for tilapia exposed to arsenicTSAI, Jeng-Wei; CHEN, Wei-Yu; JU, Yun-Ru et al.Environment international. 2009, Vol 35, Num 4, pp 727-736, issn 0160-4120, 10 p.Article

Development of a biotic ligand model for the acute toxicity of zinc to Daphnia pulex in soft watersCLIFFORD, Matthew; MCGEER, James C.Aquatic toxicology. 2009, Vol 91, Num 1, pp 26-32, issn 0166-445X, 7 p.Article

Linking valve closure behavior and sodium transport mechanism in freshwater clam Corbicula fluminea in response to copperLIAO, Chung-Min; LIN, Chieh-Ming; JOU, Li-John et al.Environmental pollution (1987). 2007, Vol 147, Num 3, pp 656-667, issn 0269-7491, 12 p.Article

MODELING TOXICITY OF BINARY METAL MIXTURES (Cu2+―Ag+, Cu2+―Zn2+) TO LETTUCE, LACTUCA SATIVA, WITH THE BIOTIC LIGAND MODELYEN LE, T. T; VIJVER, Martina G; HENDRIKS, A. Jan et al.Environmental toxicology and chemistry. 2013, Vol 32, Num 1, pp 137-143, issn 0730-7268, 7 p.Article

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