posted on 2017-09-21, 00:00authored byPeng Lin, Chen Xu, Saijin Zhang, Nobuhide Fujitake, Daniel I. Kaplan, Chris M. Yeager, Yuko Sugiyama, Kathleen A. Schwehr, Peter H. Santschi
In order to examine the influence
of the HA molecular composition
on the partitioning of Pu, ten different kinds of humic acids (HAs)
of contrasting chemical composition, collected and extracted from
different soil types around the world were equilibrated with groundwater
at low Pu concentrations (10–14 M). Under mildly
acidic conditions (pH ∼ 5.5), 29 ± 24% of the HAs were
released as colloidal organic matter (>3 kDa to <0.45 μm),
yet this HA fraction accounted for a vast majority of the bound Pu,
76 ± 13% on average. In comparison, the particulate HA fraction
bound only 8 ± 4% on average of the added Pu. The truly dissolved
Pu fraction was typically <1%. Pu binding was strongly and positively
correlated with the concentrations of organic nitrogen in both particulate
(>0.45 μm) and colloidal phases in terms of activity percentage
and partitioning coefficient values (logKd). Based on molecular characterization of the HAs by solid state 13C nuclear magnetic resonance (NMR) and elemental analysis,
Pu binding was correlated to the concentration of carboxylate functionalities
and nitrogen groups in the particulate and colloidal phases. The much
greater tendency of Pu to bind to colloidal HAs than to particulate
HA has implications on whether NOM acts as a Pu source or sink during
natural or man-induced episodic flooding.