中国环境科学
中國環境科學
중국배경과학
CHINA ENVIRONMENTAL SCIENCE
2014年
12期
3150-3156
,共7页
向倩%许超%张杨珠%吴良欢
嚮倩%許超%張楊珠%吳良歡
향천%허초%장양주%오량환
控释氮肥%镉%有效性%水分
控釋氮肥%鎘%有效性%水分
공석담비%력%유효성%수분
controlled release nitrogen fertilizer%cadmium%availability%moisture
通过培养试验,研究了普通尿素(PU)、硫包膜尿素(SCU)和树脂包膜尿素(PCU)在最大田间持水量(湿润)和60%田间持水量(适宜湿度)对污染土壤Cd有效性的影响.结果表明,不同水分条件下包膜尿素对土壤Cd有效性的影响差异显著.培养60d后水溶态Cd含量最大田间持水量下均显著低于60%田间持水量下.最大田间持水量下施用PU、SCU和PCU均降低了水溶态Cd含量,降低程度为PCU>PU>SCU;施用SCU和PCU均降低了有效态Cd含量,降低程度为SCU>PCU.60%田间持水量下施用PU和PCU均降低了水溶态Cd含量,降低程度为PU>PCU;施用PU、SCU和PCU均降低了有效态Cd含量,降低程度为PCU>PU>SCU.不同控释尿素和水分含量对水溶态Cd的影响较有效态 Cd 的影响更加突出.最大田间持水量下水溶性 SO42-含量与有效态 Cd 含量呈显著正相关;60%田间持水量下铵态氮含量与水溶态Cd含量呈显著负相关,硝态氮含量与有效态Cd含量呈显著负相关.在Cd污染的酸性土壤旱作中,湿润状态下宜施用SCU,适宜湿度下宜施用PCU,以降低土壤Cd的有效性.
通過培養試驗,研究瞭普通尿素(PU)、硫包膜尿素(SCU)和樹脂包膜尿素(PCU)在最大田間持水量(濕潤)和60%田間持水量(適宜濕度)對汙染土壤Cd有效性的影響.結果錶明,不同水分條件下包膜尿素對土壤Cd有效性的影響差異顯著.培養60d後水溶態Cd含量最大田間持水量下均顯著低于60%田間持水量下.最大田間持水量下施用PU、SCU和PCU均降低瞭水溶態Cd含量,降低程度為PCU>PU>SCU;施用SCU和PCU均降低瞭有效態Cd含量,降低程度為SCU>PCU.60%田間持水量下施用PU和PCU均降低瞭水溶態Cd含量,降低程度為PU>PCU;施用PU、SCU和PCU均降低瞭有效態Cd含量,降低程度為PCU>PU>SCU.不同控釋尿素和水分含量對水溶態Cd的影響較有效態 Cd 的影響更加突齣.最大田間持水量下水溶性 SO42-含量與有效態 Cd 含量呈顯著正相關;60%田間持水量下銨態氮含量與水溶態Cd含量呈顯著負相關,硝態氮含量與有效態Cd含量呈顯著負相關.在Cd汙染的痠性土壤旱作中,濕潤狀態下宜施用SCU,適宜濕度下宜施用PCU,以降低土壤Cd的有效性.
통과배양시험,연구료보통뇨소(PU)、류포막뇨소(SCU)화수지포막뇨소(PCU)재최대전간지수량(습윤)화60%전간지수량(괄의습도)대오염토양Cd유효성적영향.결과표명,불동수분조건하포막뇨소대토양Cd유효성적영향차이현저.배양60d후수용태Cd함량최대전간지수량하균현저저우60%전간지수량하.최대전간지수량하시용PU、SCU화PCU균강저료수용태Cd함량,강저정도위PCU>PU>SCU;시용SCU화PCU균강저료유효태Cd함량,강저정도위SCU>PCU.60%전간지수량하시용PU화PCU균강저료수용태Cd함량,강저정도위PU>PCU;시용PU、SCU화PCU균강저료유효태Cd함량,강저정도위PCU>PU>SCU.불동공석뇨소화수분함량대수용태Cd적영향교유효태 Cd 적영향경가돌출.최대전간지수량하수용성 SO42-함량여유효태 Cd 함량정현저정상관;60%전간지수량하안태담함량여수용태Cd함량정현저부상관,초태담함량여유효태Cd함량정현저부상관.재Cd오염적산성토양한작중,습윤상태하의시용SCU,괄의습도하의시용PCU,이강저토양Cd적유효성.
The effects of prilled urea (PU), sulfur coated urea (SCU) and polymer coated urea (PCU) on Cd availability in contaminated soil under two different moisture conditions-maximum water holding capacity (water holding capacity, WHC, noted as humid condition) and 60% of WHC (noted as suitable humid condition) was investigated through incubation experiment. The results showed that the application of different coated nitrogen fertilizer under different moisture conditions significantly affect the availability of Cd. The concentration of water-soluble Cd at maximum WHC were significantly lower than those at 60%WHC after 60 days cultivation. Under maximum WHC condition, compared with the control, the concentrations of water-soluble Cd of the treatments with PU, SCU and PCU decreased in the order of PCU>PU>SCU, while the concentrations of available Cd of the treatments with SCU and PCU decreased in the order of SCU>PCU. Under 60% WHC condition, compared with the control, the concentrations of water-soluble Cd of the treatments with PU and PCU decreased, showing the order of PU>PCU, and the concentrations of available Cd of the treatments with PU, SCU and PCU also decreased, showing the order of PCU>PU>SCU. The application of different coated nitrogen fertilizer under different moisture conditions has a more remarkable effect on water-soluble Cd concentration than available Cd concentration. Furthermore, under maximum WHC condition, water-soluble SO42-concentration had significant positive correlation with available Cd concentration. However, under 60%WHC condition,the concentration of ammonium nitrogen was significantly negatively correlated with water-soluble Cd concentration, and the concentration of nitrate was significantly negatively correlated with available Cd concentration. The results further suggested that under dry farming operation in the Cd contaminated acid soil, SCU could be adopted in humid condition, while PCU be adopted in suitable humid condition, which could effectively lower availability of Cd in soil.