Humic-like substances have recently become candidates for making up an impo
rtant Fraction of bulk organic carbon in various atmospheric samples. Their
properties were exploited by various analytical - mostly spectroscopic - t
echniques. For lack of any decisive analytical evidence, their presence in
the samples was proved only by comparison with arbitrarily selected humic o
r fulvic acid standards. This series of evidences requires as many independ
ent principles of determination as possible to minimise false identificatio
n and to better characterise the properties of the bulk organic matter, whi
ch may also be important in various atmospheric processes. In this paper, w
e used anodic stripping voltammetry to characterise the complexing and elec
trochemical behaviour of organic matter in fog water under conditions preva
lent in most surface waters. Although the method provided no quantitative i
nformation, important interference effects formation of electrochemically l
abile complexes, adsorption on the working electrode, complex dissociation,
etc. - were observed. Evaluation of the results revealed all of the major
electrochemical attributes of natural complexants as had been reported for
humic or fulvic acids. These may provide indirect evidence that natural com
plexants similar to humic or fulvic acids are present in fog water in conce
ntrations sufficiently large to produce these effects. This finding which s
upplements previous independent measurements, may be useful in assessing th
e sources and effects of humic-like substances in atmospheric samples. (C)
2000 Elsevier Science B.V. All rights reserved.