植物营养与肥料学报
植物營養與肥料學報
식물영양여비료학보
PLANT NUTRITION AND FERTILIZER SCIENCE
2010年
1期
136-144
,共9页
秸秆%猪粪%镉%富里酸%胡敏酸%pH
秸稈%豬糞%鎘%富裏痠%鬍敏痠%pH
갈간%저분%력%부리산%호민산%pH
straw%pig manure%cadmium%humic acid%fulvic acid%pH
采用室内培养试验,研究作物新鲜秸秆和腐熟猪粪对模拟镉(Cd)污染的土壤中Cd形态转化的动态影响.结果表明,各处理土壤交换态Cd含量随培养时间均逐渐降低.碳酸盐结合态和铁锰氧化物结合态Cd含量先增加后降低,而有机质结合态和残渣态Cd含量则逐渐增加.添加秸秆可增加土壤交换态Cd含量,但随时间延长,增幅逐渐降低,猪粪则可降低土壤交换态Cd含量.添加有机物后土壤交换态Cd含量的变化主要是由有机质结合态或残渣态Cd含量的变化而引起.秸秆和猪粪对土壤Cd形态的转化与土壤胡敏酸(HA)和富里酸(FA)的变化有关.秸秆对能活化土壤Cd的FA增加幅度大于对能钝化土壤Cd的HA增加幅度,降低HA/FA比,但降幅随时间逐渐减少;猪粪在整个培养阶段对HA增加幅度均大于FA的增加幅度,增加HA/FA比.秸秆和猪粪均可降低潮土pH而提高红壤pH,但只有猪粪可通过提高红壤pH降低Cd向交换态转化.添加秸秆和猪粪后,Cd由低活性态向交换态转化与HA/FA呈显著负相关.
採用室內培養試驗,研究作物新鮮秸稈和腐熟豬糞對模擬鎘(Cd)汙染的土壤中Cd形態轉化的動態影響.結果錶明,各處理土壤交換態Cd含量隨培養時間均逐漸降低.碳痠鹽結閤態和鐵錳氧化物結閤態Cd含量先增加後降低,而有機質結閤態和殘渣態Cd含量則逐漸增加.添加秸稈可增加土壤交換態Cd含量,但隨時間延長,增幅逐漸降低,豬糞則可降低土壤交換態Cd含量.添加有機物後土壤交換態Cd含量的變化主要是由有機質結閤態或殘渣態Cd含量的變化而引起.秸稈和豬糞對土壤Cd形態的轉化與土壤鬍敏痠(HA)和富裏痠(FA)的變化有關.秸稈對能活化土壤Cd的FA增加幅度大于對能鈍化土壤Cd的HA增加幅度,降低HA/FA比,但降幅隨時間逐漸減少;豬糞在整箇培養階段對HA增加幅度均大于FA的增加幅度,增加HA/FA比.秸稈和豬糞均可降低潮土pH而提高紅壤pH,但隻有豬糞可通過提高紅壤pH降低Cd嚮交換態轉化.添加秸稈和豬糞後,Cd由低活性態嚮交換態轉化與HA/FA呈顯著負相關.
채용실내배양시험,연구작물신선갈간화부숙저분대모의력(Cd)오염적토양중Cd형태전화적동태영향.결과표명,각처리토양교환태Cd함량수배양시간균축점강저.탄산염결합태화철맹양화물결합태Cd함량선증가후강저,이유궤질결합태화잔사태Cd함량칙축점증가.첨가갈간가증가토양교환태Cd함량,단수시간연장,증폭축점강저,저분칙가강저토양교환태Cd함량.첨가유궤물후토양교환태Cd함량적변화주요시유유궤질결합태혹잔사태Cd함량적변화이인기.갈간화저분대토양Cd형태적전화여토양호민산(HA)화부리산(FA)적변화유관.갈간대능활화토양Cd적FA증가폭도대우대능둔화토양Cd적HA증가폭도,강저HA/FA비,단강폭수시간축점감소;저분재정개배양계단대HA증가폭도균대우FA적증가폭도,증가HA/FA비.갈간화저분균가강저조토pH이제고홍양pH,단지유저분가통과제고홍양pH강저Cd향교환태전화.첨가갈간화저분후,Cd유저활성태향교환태전화여HA/FA정현저부상관.
A soil incubation experiment was conducted to study the effects of fresh straw or composted pig manure application on the fraction of cadmium (Cd) in soils. Results showed that exchangeable Cd in soils decreased with the incubation time, carbonate and oxide bound Cd first increased and then decreased, whereas organic bound and residual Cd increased with incubation time. Application of straw increased the exchangeable Cd, but this increase weakened with the incubation time. Application of pig manure decreased exchangeable Cd. The variation of exchangeable Cd was mainly affected by organic bound or residual Cd. The effect of straw or pig manure on the transformation of Cd fraction in soils was related with the changes of soil humic acid (HA) and fulvic acid (FA). When straw was applied, the increase of FA in the soils was more than HA and therefore HA/FA ration decreased. While when pig manure was applied the increase of HA in the soil was more than FA and HA/FA ratio increased during incubation period. Results also showed that straw or pig manure amendment significantly influenced soil pH, but only pig manure could reduce Cd solubility by increasing soil pH in acid Ferralsols. The transformation of Cd in soils applied with straw or pig manure from low mobility fractions to exchangeable fraction was negatively correlated with HA/FA.