The Ratio of S2−/SO42− Induces the Transference of Cadmium in Rhizosphere Soil, Soil Pore Water and Root Iron Plaque
Yuansheng Liu, Kun Wang, Xia Jiang, Guoxi Wang

TL;DR
This study shows how sulfur redox processes affect cadmium mobility in rice paddies, reducing cadmium availability and uptake by rice plants.
Contribution
The study reveals that the S2−/SO42− ratio controls cadmium transference in soil, pore water, and root iron plaque under waterlogged conditions.
Findings
Sulfur addition reduced cadmium in soil pore water at all growth stages.
Sulfur application increased cadmium sequestration in rice root iron plaque by 32–67%.
Sulfur altered the rhizosphere microbiome, increasing sulfate-reducing and sulfur-oxidizing bacteria.
Abstract
Rice (Oryza sativa L.) readily accumulates cadmium (Cd), posing dietary exposure risks in populations dependent on rice-based diets. This study investigated how sulfur (S) redox processes regulate Cd mobility in S-deficient, Cd-contaminated paddy soil under waterlogged conditions. A pot experiment was conducted with two S treatments (−S and +S, 30 mg kg−1) throughout the rice growing season. S addition markedly increased pore water S2− concentrations during early growth (tillering) and mid-season (booting) and suppressed the diffusion of SO42− from non-rhizosphere to rhizosphere at later stages (filling–maturity). Consequently, Cd in soil pore water was significantly lower in +S than −S treatments at all stages. Sulfur-amended soil showed a redistribution of Cd from labile fractions (exchangeable and carbonate-bound) to more stable fractions (Fe/Mn oxide-bound). Sulfur application also…
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Taxonomy
TopicsHeavy metals in environment · Plant Stress Responses and Tolerance · Mine drainage and remediation techniques
