水分管理耦合改良劑施用阻控水稻鎘累積的機制

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中圖分類號：X53 文獻(xiàn)標(biāo)識碼：A 文章編號： 1000-4440（2025）06-1147-12

Abstract：Cadmium（Cd）contamination poses a severe threat to agricultural production，so effective remediation measures toensurefoodsecurityareurgentlyneeded.Singleremediation strategyis insuffcienttoefectively blocktheuptakeandaccumulationofCd inrice.Therefore，amulti-strategyapproach isrequired.Inthis study，pot experiments were conducted，usingbiochar（BC）andsiliconfertizer（Si）assoilamendmentstoexploretheirefectiveness incontroling

Cd migration and transformation in paddy systems under continuous flooding （CF） and alternate weting and drying （AWD）watermanagement conditions.Theresultsindicated that the CF treatment could increase soil pH and facilitatethetransformation of silicon，andmaintaina lower redoxpotential，therebyit could reduce soil Cd bioavailabilityandensurethesafetyof ricegrainquality.Thecombination of CF with amendments effectively controlled Cd

content，and the CF + BC treatment showed a significant increase in yield.Although AWD treatment increased soil redox potentialandorganicmatercontent，italsoincreasedsoilCdbioavailability，whichwasnotconducivetothecontrolof Cduptake and accumulation in rice.However，the AWD + Sitreatment significantly reduced Cd content in all parts of mature rice plants，decreased Cdaccumulation in rice grains，and increased rice yield compared to the CF treatment.In summary， long-termflooding inregions withabundantwaterresourcescanefectivelyreducegrainCdcontent，butitmaycarraslight risk of yieldreduction，whichcanbe mitigatedbytimelyapplicationof amendments toenhance yield.Inareas with limited waterresources，itisrecommendedtoapplyamendments inconjunction withAWD toensure thesafeproductionof rice.

Key Words： cadmium；rice；water management；biochar；silicon fertilizer；safe production

土壤重金屬污染是全球污染面積最大、最嚴(yán)重的環(huán)境問題之一。（剩余21489字）