凤眼莲(Eichhornia crassipes)渗滤液中的植物生长和总氮吸收率

Dyah Wijayanti, W. B. Sediawan, A. Prasetya
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摘要

植物修复是一种简单的废水处理技术,利用植物活性来消除、取代、稳定或破坏有机或无机污染物。本研究利用凤眼莲作为生物滤池处理有机垃圾降解产生的渗滤液。本研究的目的是了解凤眼莲对植物生长速率和渗滤液中总氮的吸收。实验表明,渗滤液的浓度影响植物对总氮的吸收率和湿重。该模型与实验数据相吻合。测定了渗滤液浓度为5%、10%、15%、20%、25%和30%时的代谢反应速率常数()和吸收速率常数(。最高反应速率常数和吸收速率常数为渗滤液浓度的5%,分别为0.008042/天和2.30811/天,而在渗滤液浓度为30%时,反应速率常数和吸收速率常数最低,分别为0.00029/d和0.04576/d。水葫芦吸收渗滤液中氮的能力受到植物中氮代谢反应速率和氮降解为氨(NH4)和硝酸的反应速率的影响植物根中的离子(NO3)。渗滤液浓度影响水葫芦对氮的吸收效率。渗滤液浓度为5时的吸氮效率;10;15;20;分别为89.81%、68.99%、49.51%、36.32%、30.28%和21.64%。总之,该技术提供了一种简单的技术途径,并利用渗滤液中的元素作为植物的营养。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Plant growth and total Nitrogen absorption rate in leachate with water hyacinth (Eichhornia crassipes)
Phytoremediation is a simple technique of wastewater  processing by utilizing the plant activity to vanish, replace and stabilize or destroy the pollutant either organic compound or inorganic. This research utilizes Eichhornia crassipes as the biofilter in handling the leachate produced from organic waste degradation. The purposes of this research are to find out the plant growth rate and total Nitrogen (N) absorption in leachate by the Eichhornia crassipes. The experiment shows that the concentration of leachate affects the absorption rate of total N and wet weight of the plant. The model was fit to the experimental data. The metabolism reaction rate constant ( ) and absorption rate constant ( ) at leachate concentration 5%, 10%, 15%, 20%, 25% and 30% were measured. The highest reaction rate constant and absorption rate constant were  5% of leachate concentration where = 0.008042/day and = 2.30811/day, whilst at the leachate concentration of 30% reaction rate constant and absorption rate constant were the lowest where it reached = 0.00029/day and = 0.04576/day. The absorption ability of water hyacinth to absorb the N which contained in the leachate was affected by the metabolism reaction rate of nitrogen in the plant and the reaction rate of nitrogen degradation into ammonia (NH4) and nitric ion (NO3) in the plant root. The leachate concentration affected the efficiency of N absorption by the water hyacinth. The efficiency of N absorption at leachate concentration of 5; 10; 15; 20; 25 and 30 were 89.81%, 68.99%, 49.51%, 36.32%, 30.28% and 21.64% respectively. Overall, this technique presents a simple technique approach and the utilization of elements contained in the leachate as the nutrition for plant.
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