鱼塘肥水中的养分被水田吸收利用

Yuan Zhou, Jian-qiang Zhu, Gu Li
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引用次数: 6

摘要

水产养殖废水有时被称为植物的肥沃水,因为它含有氮和磷等有用成分。为实现养殖废水零排放,采用鱼塘养殖水(植物肥沃水)灌溉水田进行了田间试验。结果表明:1)水田对鱼塘灌溉水中部分成分的去除效果明显,特别是对硝态氮和总磷的去除效果较好。当养殖水滞留稻田超过8小时,水体中营养物质被稻田吸收的TN为65.23%,TP为71.97%,NO3——N为87.28%,NH4+-N为66.84%,CODMn为51.06%。2)养殖水进入田间与土壤表面和植物接触时,吸附的各种形态氮多于TP和CODMn,其中NH4+-N和NO3——N的吸附分别高达49.92%和41.78%;养殖水渗透土壤时,TP吸收量为45.51%,CODMn吸收量为35.63%,NO3—N吸收量为37.36%。3)利用鱼塘肥水灌溉水田,在常规施肥量80%的情况下,水稻产量可达9000 kg/hm2以上,比当地常规施肥量节肥20%,无肥水稻产量可达7950 kg/hm2,无疑是最经济、最环保的。
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The nutrients in the fertile water from fish pond assimilated and utilized by paddy field
Wastewater from aquiculture sometimes is called fertile water for plants because it contains useful ingredients such as nitrogen and phosphorus. In order to realize zero-discharge of wastewater from aquiculture, a field experiment was done that aquiculture water (fertile water for plants) from fish pond was applied to irrigate paddy field. The results showed that: 1) paddy field has an obvious effect on removal of some ingredients contained in irrigation water from fish pond, especially for NO3--N and TP. When aquiculture water stranded in the paddy field for more than 8 hours, the nutrient in it may be assimilated by paddy field 65.23% for TN, 71.97% for TP, 87.28% for NO3--N, 66.84% for NH4+-N and 51.06% for CODMn. 2) when aquiculture water entered to the field and contacted with soil surface and plants, the various forms of nitrogen adsorbed is more than that of the TP and CODMn, in which the NH4+-N and NO3--N adsorbed reach up to 49.92% and 41.78% respectively; when aquiculture water penetrates the soil, the absorption is 45.51% for TP, 35.63% for CODMn and 37.36% for NO3--N. 3) using fertile water from fish pond to irrigate paddy field, an output of rice may get to more than 9000 kg/hm2 under 80% of the conventional fertilizer dosage which means fertilizer-saving 20% in contrast to the local conventional fertilizer use, and get to 7950 kg/hm2 without fertilizer that undoubtedly is the most economical and friendly to environment.
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