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引用本文:米玮洁,周易勇,朱端卫,杨旺赣.养殖污染水体-沉积物中磷的化学行为.湖泊科学,2008,20(3):271-276. DOI:10.18307/2008.0302
MI Wei-jie,ZHOU Yi-yong,ZHU Duan-wei,YANG Wang-gan.The phosphorous chemical behavior in water-sediment polluted by sewage of manure and aquiculture. J. Lake Sci.2008,20(3):271-276. DOI:10.18307/2008.0302
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养殖污染水体-沉积物中磷的化学行为
米玮洁1, 周易勇2, 朱端卫1, 杨旺赣1
1.华中农业大学植物营养与生态环境研究室, 武汉 430070;2.中国科学院水生生物研究所, 武汉 430072
摘要:
通过受猪场污水影响的池塘和鱼塘水生生态系统中表层水-沉积物的磷含量、磷吸附能力比较,了解猪场污水、鱼塘养殖对表层水-沉积物系统磷行为的影响.结果表明,猪场污水排放和鱼塘养殖都会明显增加水体中溶解性反应磷(DRP)和溶解性有机磷(DOP)的含量,从DRP、DOP、PP3种形态磷在总磷中所占的比例来看,DRP是水体中主要增加的磷含量.猪场污水排放对水体中磷的增加作用比鱼塘养殖更剧烈一些,猪粪是水体中磷的主要来源.但是猪场污水排放对沉积物中不同形态磷含量的影响不明显,这可能与水体中磷的存在形态和转化时间有关.鱼塘养殖增加了沉积物中有机质、Fe-P、Al-P和总无机磷含量,增加了沉积物对磷的最大吸附容量,但是对磷的吸附能力却有所降低,进而增加了沉积物中磷向上覆水释放的可能.
关键词:  养猪场污水  鱼塘养殖    磷形态  磷吸附容量
DOI:10.18307/2008.0302
分类号:
基金项目:中国科学院知识创新工程重要方向项目(KZCX2-YW-426);国家自然科学基金项目(20577013)联合资助
The phosphorous chemical behavior in water-sediment polluted by sewage of manure and aquiculture
MI Wei-jie1, ZHOU Yi-yong2, ZHU Duan-wei1, YANG Wang-gan1
1.Laboratory of Plant Nutrition and Ecological Environment Research, Huazhong Agricultural University, Wuhan 430070, P.R.China;2.Institute of Hydrobiology, Chinese Academy of Sciences, Wuhan 430072, P.R.China
Abstract:
According to compare the content of phosphorus (P) fraction, P sorption ability of water-sediment in ponds polluted by sewage from a hoggery and a rearing-pond, the influences of sewage from hoggery and fishery on P behavior in water-sediment system were studied. The results indicated that sewage from hoggery and fishery could significantly increase P contents in water, and sewage from hoggery increased more significantly dissolved P in water than fishery. Sewage from hoggery had no significant influence on sediment P concentration and P sorption properties, whereas fishery could significantly increase total inorganic P, Fe bound P (Fe-P) in sediment and maximum P sorption capacity and decrease P absorptive capability of sediment. The P sorption properties of sediment had some relationship with organic matter content in sediment.
Key words:  Sewage from hoggery  aquiculture  P  P fractions  P sorption capacity
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