@incollection{, EEADBDF8296B96BB4FB3C21D888F03B3 , author={{M.Befani} and {C.Quintero} and {J.Panozzo} and {M.Zamero}}, journal={{Global Journal of Science Frontier Research}}, journal={{GJSFR}}2249-46260975-589610.34257/GJSFR, address={Cambridge, United States}, publisher={Global Journals Organisation}2283137 } @incollection{b0, , title={{Effects of arsenic-contaminated irrigation water, zinc and organic matter on the mobilization of arsenic in soils in relation to rice (Oryza sativa L}} , author={{ DKDas }} , booktitle={{Trace Metals and other Contaminants in the Environment}} , editor={ PBhattacharya ABMukherjee JBundschuh RZevenhoven RHLoeppert } , year={2007} 9 } @incollection{b1, , title={{Arsenic mitigation in soil-plant system through zinc application in West Bengal soils}} , author={{ IDas } and { SKSanyal } and { KGhosh } and { DKDas }} , journal={{Bioremediation Journal}} 20 , year={2016} } @incollection{b2, , title={{Accumulation of arsenic in soil and rice under wetland condition in Bangladesh}} , author={{ MAKhan } and { MRIslam } and { GMPanaullah } and { JMDuxbury } and { MJahiruddin } and { RHLoeppert }} , journal={{Plant and Soil}} 333 , year={2010} } @incollection{b3, , title={{Managing arsenic (V) toxicity by phosphate supplementation in rice seedlings: modulations in AsA-GSH cycle and other antioxidant enzymes}} , author={{ RKMishra } and { GMishra } and { RSingh }} , journal={{Environ Sci Pollut Res}} 29 , year={2022} } @incollection{b4, , title={{Variation in grain arsenic assessed in a diverse panel of rice (Oryza sativa) grown in multiple sites}} , author={{ GNorton } and { SPinson } and { JAlexander } and { SMckay } and { HHansen } and { GDuan } and { MIslam } and { SIslam } and { JLStroud } and { FJZhao } and { RIslam } and { SIslam } and { JStroud } and { F-JZhao } and { SMcgrath } and { Y-GZhu } and { BLahner } and { EYakubova } and { MGuerinot } and { LTarpley } and { GEizenga } and { DSalt } and { AMeharg } and { APrice }} , journal={{New Phytologist}} 193 , year={2012} } @incollection{b5, , title={{Arsenic in Argentinean polished rice: situation overview and regulatory framework}} , author={{ JMOteiza } and { PABarril } and { CEQuintero } and { MSavio } and { RBefani } and { AFernandez } and { NSEchegaray } and { CMurad } and { ABuedo }} , journal={{Food Control}} 109 106909 , year={2020} } @book{b6, , title={{Effect of irrigation management and incorporation of plant residues on arsenic species and physiological vaneo in rice}} , author={{ JPanozzo } and { CQuintero } and { RBefani } and { MZamero } and { EDíaz } and { GBoschetti } and { SFarías } and { ALondonio } and { YMorisio } and { PSmichowski } and { RServant }} , editor={Litter, M., Nicolli, H., Meichtry, M., Quici, N., Bundschuh, J., Bhattacharya, P. & Naidu, R.} , year={2014. 2014} , note={One Century of the Discovery of Arsenicosis en Latin America (1914-2014)} } @incollection{b7, , title={{Concentration and origin of arsenic species in rice cv Cambá grow in Entre Ríos (Argentina)}} , author={{ CQuintero } and { MBefani } and { CTemporetti } and { EDíaz } and { SFarías } and { ALondonio } and { YMorisio } and { PSmichowski } and { R; MServant } and { HNicolli } and { MMeichtry } and { NQuici } and { JBundschuh }} , booktitle={{Litter}} , editor={ PBhattacharya RNaidu } , year={2014} , note={One Century of the Discovery of Arsenicosis en Latin America (1914-2014} } @incollection{b8, , title={{Relations of arsenic concentrations among groundwater, soil and paddy from an alluvial plain of Korea}} , author={{ PKSahoo } and { WZhu } and { S-HKim } and { MCJung } and { KKim }} , journal={{Geosci J}} 17 , year={2013} } @incollection{b9, , title={{Efectos de la inundación y secado del suelo en las reacciones del fosforo}} , author={{ CSnyder } and { NSlaton }} , journal={{Informaciones Agronómicas Nº}} 51 , year={2003} } @book{b10, , title={{Codex Committee on Contaminants in Foods. Proposed Draft Maximum Levels for Arsenic in Rice}} 10.13140/RG.2.1.3879.0884 , year={2012} } @incollection{b11, , title={{Growing rice aerobically markedly decreases arsenic accumulation}} , author={{ XYXu } and { SPMcgrath } and { AAMeharg } and { FJZhao }} , journal={{Environmental Science and Technology}} 42 , year={2008} } @incollection{b12, , title={{Phosphorus regulates As uptake by rice via releasing pore water and sequestrating it on Fe plaque}} , author={{ YYang } and { HHu } and { QFu } and { JZhu } and { XZhang } and { RXi }} , journal={{Sci Total Environ}} 10 738 139869 , year={2020} } @incollection{b13, , title={{Arsenic uptake and metabolism in plants}} , author={{ FJZhao } and { JFMa } and { AAMeharg } and { SPMcgrath }} 10.1111/j.1469-8137.2008.02716.x , journal={{New Phytologist}} 181 , year={2009} } @book{b14, , title={{General standard for contaminants and toxins in food and feed. CXS 193-1995}} , year={2019} }