posted on 2014-01-21, 00:00authored byYan Jia, Hai Huang, Zheng Chen, Yong-Guan Zhu
Arsenic
(As) uptake by rice is largely determined by As speciation,
which is strongly influenced by microbial activities. However, little
is known about interactions between root and rhizosphere microbes,
particularly on arsenic oxidation and reduction. In this study, two
rice cultivars with different radial oxygen loss (ROL) ability were
used to investigate the impact of microbially mediated As redox changes
in the rhizosphere on As uptake. Results showed that the cultivar
with higher ROL (Yangdao) had lower As uptake than that with lower
ROL (Nongken). The enhancement of the rhizospheric effect on the abundance
of the arsenite (As(III)) oxidase gene (aroA-like)
was greater than on the arsenate (As(V)) reductase gene (arsC), and As(V) respiratory reductase gene (arrA),
resulting in As oxidation and sequestration in the rhizosphere, particularly
for cultivar Yangdao. The community of As(III)-oxidizing bacteria
in the rhizosphere was dominated by α-Proteobacteria and β-Proteobacteria
and was influenced by rhizospheric effects, rice straw application,
growth stage, and cultivar. Application of rice straw into the soil
increased As release and accumulation into rice plants. These results
highlighted that uptake of As by rice is influenced by microbial processes,
especially As oxidation in the rhizosphere, and these processes are
influenced by root ROL and organic matter application.