Environmental Engineering Reference
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Research Academy of Environmental Sciences, Chaoyang, China. We acknwoledge copyright
(2011) by The Geochemical Society of Japan; Copyright (2009) CSIRO; reprinted (adapted) with
permission from Midorikawa T, Tanoue E, Sugimura Y, Determination of complexing ability
of natural ligands in seawater for various metal ions using ion selective electrodes, Analylical
Chemistry, 62(17), 1737-1746. Copyright (1990) American Chemical Society; reprinted from
Mar Chem, 62(3-4), Midorikawa T, Tanoue E, Molecular masses and chromophoric properties
of dissolved organic ligands for copper(II) in oceanic water, 219-239, Copyright (1998), with
permission from Elsevier; reprinted from Geochim Cosmochim Acta 70(6), Sonke JE, Salters
VJM, Lanthanide-humic substances complexation I Experimental evidence for a lanthanide
contraction effect, 1495-1506, Copyright (2006), with permission from Elsevier; reprinted from
Organic Goechemistry, 28(12), Kaiser K, Fractionation of dissolved organic matter affected by
polyvalent metal cations, 849-854, Copyright (1998), with permission from Elsevier; reprinted
(adapted) with permission from Christoforidis KC, Un S, Deligiannakis Y, Effect of Metal Ions on
the Indigenous Radicals of Humic Acids: High Field Electron Paramagnetic Resonance Studym,
Environ Sci Technol, 44(18), 7011-7016. Copyright (2010) American Chemical Society; reprinted
(adapted) with permission from (Hays MD, Ryan DK, Pennell S (2004) A modified multisite Stern-
Volmer equation for the determination of conditional stability constants and ligand concentrations
of soil fulvic acid with metal ions. Anal Chem 76(3), 848-854. Copyright (2004) American
Chemical Society; reprinted (adapted) with permission from Ryan DK, Weber JH, Fluorescence
quenching titration for determination of complexing capacities and stability constants of fulvic
acid, Anal Chem, 54(6), 986-990). Copyright (1982) American Chemical Society; reprinted
(adapted) with permission from Wu FC, Mills RB, Evans RD, Dillon PJ, Kinetics of metal-fulvic
acid complexation using a stopped-flow technique and three-dimensional excitation emission
fluorescence spectrometer, 76(1), 110-113. Copyright (2004) American Chemical Society; with
kind permission from Springer Science
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Business Media: J Solut Chem, Studies on Complexation
of Resorcinol with Some Divalent Transition Metal Ions and Aliphatic Dicarboxylic Acids in
Aqueous Media, 39, 2010, 1394-1407, Radalla A, 2010; with kind permission from Springer
Science
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Business Media: J Solut Chem, Studies on Complexation of Resorcinol with Some
Divalent Transition Metal Ions and Aliphatic Dicarboxylic Acids in Aqueous Media, 39, 2010,
1394-1407, Radalla A; and with kind permission from Springer Science
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Business Media:
Reviews in Environmental Science and Bio/Technology, Developments in bioremediation of soils
and sediments polluted with metals and radionuclides - 1 Microbial processes and mechanisms
affecting bioremediation of metal contamination and influencing metal toxicity and transport, 4,
2005, 115-156, Tabak HH, Lens P, van Hullebusch ED, Dejonghe W, Fig.
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