Iron plaque is usually formed on th

Iron plaque is usually formed on the surface of rice roots owing
to the release of oxygen or oxidants from roots into the rhizosphere
(Chen et al., 1980). This iron plaque exhibits a high capacity to
sequestrate certain metals. The proportion of As, Cd, and Pb distributed in iron plaque on rice root surface could reach 88%, 43% and
33% respectively (Lei et al., 2011). The presence of iron plaque on
root surfaces has been reported to reduce the uptake of metals
by plants because of the high adsorption capacity of its iron
hydroxide functional groups (Greipsson and Crowder, 1992; Batty
et al., 2000; Liu et al., 2011). The formation of iron plaque and its
ability to sequestrate contaminant metals is influenced by soil contents and soil amendments. It was reported that both formation of
iron plaque and iron plaque adsorbed Cd increases with increasing
Fe amendment, though the proportion of iron plaque adsorbed Cd
decreases when Cd levels in soil are enhanced (Liu et al., 2008).
Sequestration of Zn in iron plaque was reported to be significant
under field conditions, but not in nutrient solution cultures (Ye
et al., 1998). It is expected that biochar-amendments may also
influence iron plaque formation and thereby the sorption, mobility
and plant translocation of heavy metals. This present study is the
first to investigate this potential influence of biochar.