Foliar-applied zinc promotes cadmium allocation from leaf surfaces to grains in rice

The accumulation of Cd by rice poses significant health risks. Foliar fertilization with Zn can reduce grain Cd contents in rice grown in Cd-contaminated soils. However, atmospheric deposition on leaves is another vector of Cd contamination, and it remains unclear how Zn application affects the allo...

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Published in:Journal of environmental sciences (China) 2025-05, Vol.151, p.582-593
Main Authors: Liu, Ya-Ting, Yan, Bo-Fang, Cai, Xuan, Zheng, Hong-Xiang, Qiu, Rong-Liang, Tang, Ye-Tao
Format: Article
Language:English
Subjects:
Atmospheric deposition
Cadmium - metabolism
Cadmium - toxicity
Cell wall
Edible Grain - drug effects
Edible Grain - metabolism
Isotope labelling
Metal interaction
Oryza - drug effects
Oryza - metabolism
Phloem
Plant Leaves - drug effects
Plant Leaves - metabolism
Soil Pollutants - metabolism
Zinc - metabolism
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container_title Journal of environmental sciences (China)
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creator Liu, Ya-Ting
Yan, Bo-Fang
Cai, Xuan
Zheng, Hong-Xiang
Qiu, Rong-Liang
Tang, Ye-Tao
description The accumulation of Cd by rice poses significant health risks. Foliar fertilization with Zn can reduce grain Cd contents in rice grown in Cd-contaminated soils. However, atmospheric deposition on leaves is another vector of Cd contamination, and it remains unclear how Zn application affects the allocation of such Cd. We conducted an experiment where the flag leaves of rice plants were treated with solutions with various Zn concentrations and a constant Cd concentration. The 111Cd stable isotope was used to trace the flux of foliar-applied Cd. Higher levels of foliar-applied Zn enhanced Cd efflux and grain allocation. This is attributed to limited sequestration of foliar-applied Cd in the leaf cell symplasm and increased Cd desorption from leaf cell walls when a high Zn2+ concentration occurs in the apoplast. Nonionic Zn oxide nanoparticles mitigated these effects. Additionally, the expressions of OsLCT1 and OsZIP7 in flag leaves and OsHMA2 and OsZIP7 in the uppermost nodes were upregulated under high-Zn2+ treatment, which may facilitate Cd phloem loading and grain allocation. Caution is advised in using foliar Zn in areas with high atmospheric Cd due to potential grain-contamination risks. [Display omitted]
doi_str_mv 10.1016/j.jes.2024.04.033
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Foliar fertilization with Zn can reduce grain Cd contents in rice grown in Cd-contaminated soils. However, atmospheric deposition on leaves is another vector of Cd contamination, and it remains unclear how Zn application affects the allocation of such Cd. We conducted an experiment where the flag leaves of rice plants were treated with solutions with various Zn concentrations and a constant Cd concentration. The 111Cd stable isotope was used to trace the flux of foliar-applied Cd. Higher levels of foliar-applied Zn enhanced Cd efflux and grain allocation. This is attributed to limited sequestration of foliar-applied Cd in the leaf cell symplasm and increased Cd desorption from leaf cell walls when a high Zn2+ concentration occurs in the apoplast. Nonionic Zn oxide nanoparticles mitigated these effects. Additionally, the expressions of OsLCT1 and OsZIP7 in flag leaves and OsHMA2 and OsZIP7 in the uppermost nodes were upregulated under high-Zn2+ treatment, which may facilitate Cd phloem loading and grain allocation. Caution is advised in using foliar Zn in areas with high atmospheric Cd due to potential grain-contamination risks. 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subjects Atmospheric deposition
Cadmium - metabolism
Cadmium - toxicity
Cell wall
Edible Grain - drug effects
Edible Grain - metabolism
Isotope labelling
Metal interaction
Oryza - drug effects
Oryza - metabolism
Phloem
Plant Leaves - drug effects
Plant Leaves - metabolism
Soil Pollutants - metabolism
Zinc - metabolism
title Foliar-applied zinc promotes cadmium allocation from leaf surfaces to grains in rice
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