This study evaluated the physiological characteristics
(e.g., growth
parameters, chlorophyll content, metabolites and antioxidative enzymes
activity) of Alternanthera philoxeroides (A. philoxeroides), as a hyperaccumulator plant, during the
phytoremediation of cadmium (Cd) from water. After cultivating A. philoxeroides in a Cd-containing medium for 30 days,
the growth rate was inhibited by up to 33.5% as the exposed Cd concentration
increased to 0.80 mmol·L–1. Cd exposure interfered
with the photosynthesis of A. philoxeroides and caused
oxidative stress as indicated by the rise of malondialdehyde (MDA)
and H2O2, which increased by 8 times and 3 times
compared to the control group. Moreover, high exposure concentrations
of Cd also reduced the activities of multiple antioxidants (e.g.,
GSH and AsA), indicating the inhibition of Cd on the plant’s
ability to mitigate oxidative damage. Finally, the fluorescent patterns
of the rhizosphere dissolved organic matter (rDOM) revealed three
major components (humic, fulvic substances and protein-like substances)
well correlated with the changes in antioxidant activities. Partial
least-squares discriminant analysis (PLS-DA) visualized the difference
in the activity of the antioxidative enzymes between different groups.
The study unravelled deep insights into the potential mechanisms of
tolerance and resistance of A. philoxeroides for
phytoremediation of Cd pollution.