The human body loading with arsenic (As) through rice consumption is a global health concern. There is a crucial need to limit As build-up in rice, either by remediating As accumulation in soils or reducing As levels in irrigation water. Several conventional approaches have been utilized to alleviate the As accumulation in rice. However, except for some irrigation practices, those approaches success and the adoption rate are not remarkable. This review presents human health risks posed due to consumption of As contaminated rice, evaluates different biomarkers for tracing As loading in the human body, and discusses the latest advancement in As reducing technologies emphasizing the application of seed priming, nanotechnology, and biochar application for limiting As loading in rice grains. We also evaluate different irrigation techniques to reduce As accumulation in rice. Altering water management regimes significantly reduces grain As accumulation. Bio- and nano-priming of rice seeds improve germination and minimize As translocation in rice tissues by protecting cell membrane, building pool around seed coat, methylation and volatilization, or quenching harmful effects of reactive oxygen species. Nanoparticle application in the form of nano-adsorbents or nano-fertilizers facilitates nano-remediation of As through the formation of Fe plaque or sorption or oxidation process. Incorporating biochar in the rice fields significantly reduces As through immobilization, physical adsorption, or surface complexation. In conclusion, As content in cooked rice depends on irrigation source and raw rice As level.

Md ROKONUZZAMAN;LI Wai Chin;MAN Yu Bon;TSANG Yiu Fai;YE Zhihong

Department of Science and Environmental Studies,the Education University of Hong Kong,Hong Kong 999077,China;School of Life Sciences,Sun Yat-Sen University,Guangzhou 510006,China

水稻科学（英文版）

[1]Md ROKONUZZAMAN;LI Wai Chin;MAN Yu Bon;TSANG Yiu Fai;YE Zhihong-.Arsenic Accumulation in Rice: Sources, Human Health Impact and Probable Mitigation Approaches)[J].水稻科学（英文版）,2022(04):309-327

Arsenic,Accumulation,Rice,Sources,Human,Health,Impact,Probable,Mitigation,Approaches,human,body,loading,arsenic,through,rice,consumption,global,health,concern,There,crucial,need,up,either,by,remediating,accumulation,soils,reducing,levels,irrigation,water,Several,conventional,approaches,have,been,utilized,alleviate,However,except,some,practices,those,success,adoption,rate,are,remarkable,This,review,presents,risks,posed,due,contaminated,evaluates,different,biomarkers,tracing,discusses,latest,advancement,technologies,emphasizing,application,priming,nanotechnology,biochar,limiting,grains,We,also,techniques,Altering,management,regimes,significantly,reduces,Bio,seeds,improve,germination,minimize,translocation,tissues,protecting,cell,membrane,building,pool,around,coat,methylation,volatilization,quenching,harmful,effects,reactive,oxygen,species,Nanoparticle,adsorbents,fertilizers,facilitates,remediation,formation,plaque,oxidation,process,Incorporating,fields,immobilization,physical,adsorption,surface,complexation,conclusion,content,cooked,depends,source,raw

0.602204