Approach combining on-line metal exchange and tangential-flow ultrafiltration for in-situ characterization of metal species in humic hydrocolloids.
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2010
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Resumo
This paper deals with the development and
optimization of an analytical procedure using ultrafiltration
and a flow-injection system, and its application in in-situ
experiments to characterize the lability and availability of
metal species in humic-rich hydrocolloids. The on-line system
consists of a tangential flow ultrafiltration device equipped
with a 3-kDa filtration membrane. The concentration of free
ions in the filtrate was determined by atomic-absorption
spectrometry, assuming that metals not complexed by aquatic
humic substances (AHS) were separated from the complexed
species (M–AHS) retained by the membrane. For optimization,
exchange experiments using Cu(II) solutions and AHS
solutions doped with the metal ions Ni(II),Mn(II), Fe(III), Cd
(II), and Zn(II) were carried out to characterize the stability of
the metal–AHS complexes. The new procedure was then
applied in-situ at a tributary of the Ribeira do Iguape river
(Iguape, São Paulo State, Brazil) and evaluated using the ions
Fe(III) and Mn(II), which are considered to be essential
constituents of aquatic systems. From the exchange between
metal–natural organic matter (M–NOM) and the Cu(II) ions it
was concluded that Cu(II) concentrations >485 μg L−1 were
necessary to obtain maximum exchange of the complexes
Mn–NOM and Fe–NOM, corresponding to 100% Mn and
8% Fe. Moreover, the new analytical procedure is simple and
opens up new perspectives for understanding the complexation,
transport, stability, and lability of metal species in
humic-rich aquatic environments.
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Lability/availability, Metal, Aquatic humic substances, Ultrafiltration
Citação
GOVEIA, D. et al. Approach combining on-line metal exchange and tangential-flow ultrafiltration for in-situ characterization of metal species in humic hydrocolloids. Analytical and Bioanalytical Chemistry, v. 397, p. 851-860, 2010. Disponível em: <https://link.springer.com/article/10.1007%2Fs00216-010-3547-5>. Acesso em: 20 abr. 2017.