Determination of Ammonia Level and Its Protein Conversion in the Water of Biofloc Fish Farming Technology

R. Ghimire, Anjila Ghimire, Dilip Karki, Durga Basyal, K. B. Rai
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Abstract

The biofloc system is a wastewater treatment technology and is used for fish farming by creating the artificial environment. Biofloc Technology (BFT) can enhance the water quality in aquaculture that introduces natural nutrient recycling characteristics with the induction of appropriate Carbon/Nitrogen (C/N) ratio. This study aimed to estimate the effect of BFT implementation on the water quality and production performance of common carp fishes using different concentration of carbon and to attempt a treatment of excess ammonia. The experiment was performed in four tanks (T1, T2, T3 and T4) containing the 10000 liter of water and 5000 shrimps on each tank that has a five weeks’ experimental treatment by adding the carbon as (25%, 30%, 35%, 40% and 45% of sugar) according to its feeding diet from sugar in the interval of one week. The ammonia level before and after the treatment with respect to the percentage of carbon from sugar addition on BFT signifies that the 40% of carbon (C:N ratio of 20:1) and 45% of carbon (C:N ratio of 23:1) have a better performance on the ammonia treatment than 25%, 30% and 35% of carbon. The change in the water's color from green to brownish indicates the protein conversion of ammonia, which informs that the water becomes higher in quality after treatment than it was before for the biofloc fish farming system. It also provides an information about the nitrification process that takes place when the water is treated with carbon derived from sugar. The findings of this study have important implications for the improvement of biofloc fish farming systems.
生物絮团养鱼技术水体氨水平及其蛋白质转化的测定
生物絮团系统是一种污水处理技术,通过创造人工环境用于养鱼。生物絮团技术(Biofloc Technology, BFT)通过引入自然养分循环特性,诱导适当的碳/氮(C/N)比,可以改善水产养殖水质。本研究旨在评估不同碳浓度下BFT实施对鲤鱼水质和生产性能的影响,并尝试处理过量氨。试验设T1、T2、T3、T4 4个水族箱,每个水族箱装10000升水,每水族箱装5000只对虾,每隔1周按食糖饲喂日粮添加碳(25%、30%、35%、40%、45%糖)进行5周的试验处理。处理前后的氨水平相对于BFT上加糖碳的百分比表明,40%碳(C:N比为20:1)和45%碳(C:N比为23:1)的氨处理效果优于25%、30%和35%的碳处理。水的颜色从绿色变为褐色,表明氨的蛋白质转化,这表明处理后的水比生物絮团养鱼系统之前的水质量更高。它还提供了关于硝化过程的信息,当水被糖衍生的碳处理时发生。本研究结果对改善生物群落鱼类养殖系统具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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