Access the full text.
Sign up today, get DeepDyve free for 14 days.
A. Rose, T. Waite (2003)
Kinetics of hydrolysis and precipitation of ferric iron in seawater.Environmental science & technology, 37 17
Heather Macrellis, C. Trick, E. Rue, Geoffrey Smith, K. Bruland (2001)
Collection and detection of natural iron-binding ligands from seawaterMarine Chemistry, 76
K. Hunter (2005)
Comment on 'Measuring Marine Iron(III) Complexes by CLE-AdSV'Environmental Chemistry, 2
M. Wells, L. Mayer (1991)
The phttoconversion of colloidal iron oxyhydroxides in seawater, 38
T. Waite, F. Morel (1984)
Photoreductive dissolution of colloidal iron oxides in natural waters.Environmental science & technology, 18 11
Jingfeng Wu, E. Boyle, W. Sunda, L. Wen (2001)
Soluble and Colloidal Iron in the Oligotrophic North Atlantic and North PacificScience, 293
H. Leeuwen, R. Town (2004)
Stripping chronopotentiometry at scanned deposition potential (SSCP). part 4. The kinetic current regimeJournal of Electroanalytical Chemistry, 561
M. Shuman, I. Shain (1969)
Study of the chemical reaction preceding reduction of cadmium nitrilotriacetic acid complexes using stationary electrode polarographyAnalytical Chemistry, 41
C. Berg (2005)
Organic Iron Complexation Is Real, The Theory Is Used Incorrectly. Comment on 'Measuring Marine Iron(iii) Complexes by CLE-AdSV'Environmental Chemistry, 2
R. Town, H. Leeuwen (2005)
Measuring Marine Iron(iii) Complexes by CLE-AdSVEnvironmental Chemistry, 2
P. Croot, M. Johansson (2000)
Determination of Iron Speciation by Cathodic Stripping Voltammetry in Seawater Using the Competing Ligand 2‐(2‐Thiazolylazo)‐p‐cresol (TAC)Electroanalysis, 12
M. Boyé, A. Aldrich, C. Berg, J. Jong, M. Veldhuis, H. Baar (2003)
Horizontal gradient of the chemical speciation of iron in surface waters of the northeast Atlantic OceanMarine Chemistry, 80
A. Witter, D. Hutchins, A. Butler, G. Luther (2000)
Determination of conditional stability constants and kinetic constants for strong model Fe-binding ligands in seawaterMarine Chemistry, 69
M. Boyé, C. Berg, J. Jong, H. Leach, P. Croot, H. Baar (2001)
Organic complexation of iron in the Southern Ocean, 48
M. Rijkenberg, A. Fischer, J. Kroon, L. Gerringa, K. Timmermans, H. Wolterbeek, H. Baar (2005)
The influence of UV irradiation on the photoreduction of iron in the Southern OceanMarine Chemistry, 93
R. Powell, A. Wilson-Finelli (2003)
Importance of organic Fe complexing ligands in the Mississippi River plumeEstuarine Coastal and Shelf Science, 58
H. Leeuwen (1987)
Voltammetric titrations involving metal complexes: Effect of kinetics and diffusion coefficients.Science of The Total Environment, 60
R. Nolting, L. Gerringa, M. Swagerman, K. Timmermans, D. Baar (1998)
Fe (III) speciation in the high nutrient, low chlorophyll Pacific region of the Southern OceanMarine Chemistry, 62
E. Rue, K. Bruland (1995)
Complexation of iron(III) by natural organic ligands in the Central North Pacific as determined by a new competitive ligand equilibration/adsorptive cathodic stripping voltammetric methodMarine Chemistry, 50
B. Monzyk, A. Crumbliss (1982)
Kinetics and mechanism of the stepwise dissociation of iron(III) from ferrioxamine B in aqueous acidJournal of the American Chemical Society, 104
R. Powell, A. Wilson-Finelli (2003)
Photochemical degradation of organic iron complexing ligands in seawaterAquatic Sciences, 65
C. Berg (1984)
Determination of the complexing capacity and conditional stability constants of complexes of copper(II) with natural organic ligands in seawater by cathodic stripping voltammetry of copper-catechol complex ionsMarine Chemistry, 15
E. Rue, K. Bruland (1997)
The role of organic complexation on ambient iron chemistry in the equatorial Pacific Ocean and the response of a mesoscale iron addition experimentLimnology and Oceanography, 42
B. Cox, N. Trường, H. Schneider (1984)
Alkaline earth cryptates: Dynamics and stabilities in different solvents.Journal of the American Chemical Society, 106
P. Croot, K. Andersson, M. Öztürk, D. Turner (2004)
The distribution and speciation of iron along 6°E in the Southern OceanDeep-sea Research Part Ii-topical Studies in Oceanography, 51
M. Boyé, C. Berg (2000)
Iron availability and the release of iron-complexing ligands by Emiliania huxleyiMarine Chemistry, 70
F. Millero (1998)
SOLUBILITY OF FE(III) IN SEAWATEREarth and Planetary Science Letters, 154
A. Witter, B. Lewis, G. Luther (2000)
Iron speciation in the Arabian SeaDeep-sea Research Part Ii-topical Studies in Oceanography, 47
M. Caudle, A. Crumbliss (1994)
Dissociation Kinetics of (N-Methylacetohydroxamato)iron(III) Complexes: A Model for Probing Electronic and Structural Effects in the Dissociation of Siderophore ComplexesInorganic Chemistry, 33
M. Santos, M. Gonçalves, J. Romão (1996)
Study of CE mechanisms by square wave voltammetry : Cd(II) + nitrilotriacetic acid and Cd(II) + aspartic acid systemsJournal of Electroanalytical Chemistry, 413
R. Powell, J. Donat (2001)
Organic complexation and speciation of iron in the South and Equatorial AtlanticDeep-sea Research Part Ii-topical Studies in Oceanography, 48
Environmental Context. The interpretation of CLE-AdSV based iron( iii ) speciation data for marine waters has been called into question in light of the kinetic features of the measurement. The implications of the re-think may have consequences for understanding iron biogeochemistry and its impact on ecosystem functioning. The challenging of previously accepted results stimulated this debate on what is actually being measured by the CLE-AdSV technique.
Environmental Chemistry – CSIRO Publishing
Published: Jun 24, 2005
Keywords: biogeochemistry — electrochemistry (analysis) — iron — speciation (metals)
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.