三菌联合型功能微生物菌剂对土壤和稻米砷的阻控研究
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中图分类号S511文献标识码A文章编号 0517-6611(2025)11-0047-04
doi:10.3969/j. issn.0517-6611.2025.11. 012
Study on the Inhibition and Controlof Arsenic in Soil and Rice byThree-bacterial Combined Functional Microbial Agents YUAN Hai-weiLIYuan-xing-lu,TANG Shou-yinetal(HunanHuanbaoqiaoEcologyand EnvironmentEngineringCo.,Ld.Changsha,Hunan 410205)
AbstractOetie]exploetetasfoationofsenicfosinsilythbacterombindfunctioalmrobalagtdis impactmechanismonteabsorptionandtranslocationofarsenicinice.MethodTisstudyselectedthericeVarietyTaiou39Oasthere searchobjectandonuctedpotexperimentsheexperientstablisedfourdferentreatmentgroups:acotrolgrouwithostion (CK)and three inoculant treatment groups with varying application rates -M1 ( 3000kg/hm2 ), M2 (2 ÷250kg/hm2 )and M3 (20 ( 1500kg/hm2 ).Theeffetsof diferent treatment methodsontheformsofarsenicinsoilandthechanges inarseniccontentinbrowrice werestudied.ResultTheedoxpotential(E)itialldecreasedaidlyndtengraduallireas.Meanhile,hesoilpbied significantuwadtrndurigtesdintogesofteco,flodygdaldlieadevealsablizatral ityThiseomeonasompanedyuctioieproortiosofspifcalldsodsenicndsecificalldsod nic,longsidseioosidoudicaloiddcdalectetihl Specifically, in the M1 treatment group,the content of non-specificand specific adsorbed arsenic decreased significantly by6.24 percentage pointsandl6.65petaetspectielyiltesofmoosidoudicaloodb nicandresidualasenicreasdby.58prentageoints,.5prcentageoitsd86percetagepintsspectivelyoard thecontrolgroup,alltreatmengoupseibitedsignifcantreductioninteaymetalaseicontentiegrains,withecasan ging from 32. 14% to 60.71% . Among them,the M1 treatment group showed the most effctive inhibition of arsenic accumulation in rice grains,with an arsenic content of only 0.11mg/kg .[Conclusion]This study provides a theoretical basis for the development of new arsenic-reducing functional microbial agents.
Key WordsThree-bacterium combined functional microbial agent;Soil;Arsenic forms;Brownrice;As content
稻田在长期灌溉条件下,可使土壤形成稳定的厌氧环境,导致水稻对砷元素的富集能力远超其他陆生植物[1]。(剩余8535字)