posted on 2013-12-03, 00:00authored byPeng Wang, Neal W. Menzies, Enzo Lombi, Brigid
A. McKenna, Bernt Johannessen, Chris J. Glover, Peter Kappen, Peter M. Kopittke
The
increasing use of zinc oxide nanoparticles (ZnO-NPs) in various
commercial products is prompting detailed investigation regarding
the fate of these materials in the environment. There is, however,
a lack of information comparing the transformation of ZnO-NPs with
soluble Zn2+ in both soils and plants. Synchrotron-based
techniques were used to examine the uptake and transformation of Zn
in various tissues of cowpea (Vigna unguiculata (L.) Walp.) exposed to ZnO-NPs or ZnCl2 following growth
in either solution or soil culture. In solution culture, soluble Zn
(ZnCl2) was more toxic than the ZnO-NPs, although there
was substantial accumulation of ZnO-NPs on the root surface. When
grown in soil, however, there was no significant difference in plant
growth and accumulation or speciation of Zn between soluble Zn and
ZnO-NP treatments, indicating that the added ZnO-NPs underwent rapid
dissolution following their entry into the soil. This was confirmed
by an incubation experiment with two soils, in which ZnO-NPs could
not be detected after incubation for 1 h. The speciation of Zn was
similar in shoot tissues for both soluble Zn and ZnO-NPs treatments
and no upward translocation of ZnO-NPs from roots to shoots was observed
in either solution or soil culture. Under the current experimental
conditions, the similarity in uptake and toxicity of Zn from ZnO-NPs
and soluble Zn in soils indicates that the ZnO-NPs used in this study
did not constitute nanospecific risks.