Monitoring drainage water quality during green roof irrigation trials using synthetic greywater

British Journal of Environment and Climate Change Pub Date : 2016-01-10 DOI:10.9734/BJECC/2016/18189

Matthew J. Smith, Katherine Hyde

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Abstract

Aims: To evaluate the potential for substituting green roof mains water irrigation by irrigation using lightly loaded synthetic greywater. Study Design: The planted green roof system was designed to be operated and tested within a glasshouse. Place and Duration of Study: Schools of Engineering, and Plant Sciences, The University of Reading, for 28 days commencing 28th of May 2012. Methodology: A trial was conducted for comparing two planting schemes using Sedum and Stachys Byzantina and a third unplanted control. The three sets of growing boxes were subdivided between substrate depths of 10cm and 20cm. By further subdivision, half of each set were watered using mains water, and half using a synthetic greywater. The soil composition and water quality of the drainage (filtrate) water were monitored. Statistical analysis of the results was conducted. Results: Consistency was observed in influent pH and EC, in both mains and greywater samples. Influent Na concentrations were higher in the greywater samples due to detergent content. The Na mass balance calculations for all boxes showed that some Na mass was unaccounted for when comparing aggregated concentrations in influent, plant tissue and soil with the aggregated Na mass in filtrate, plant tissue and soil water. It was concluded that this was likely to be due to retained/ponded irrigation water in the boxes, difficulties in attaining homogenous box flushing and the underestimation of soil Na. The variation in substrate depth affected all results. The plants themselves seemed to have little significant influence on the measured parameters, with the exception of the accumulation of Na mass in plants irrigated with greywater. Conclusion: No improvement was observed in the quality of the greywater following filtration through the soil matrix. For longer term watering using greywater, a choice of Na resistant species should be considered, although the Sedum species used in this trial showed no recorded adverse growth effects due to Na accumulation.

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在使用合成灰水的绿色屋顶灌溉试验中监测排水水质

目的:评价用轻负荷合成灰水灌溉代替屋顶绿色主水管灌溉的潜力。研究设计:种植绿色屋顶系统被设计为在温室内进行操作和测试。学习地点和时间:雷丁大学工程学院和植物科学学院，为期28天，从2012年5月28日开始。方法:采用景天、白屈草两种种植方案和第三种未种植对照进行试验比较。三套生长箱的基质深度分别为10cm和20cm。通过进一步细分，每组一半使用自来水，一半使用合成灰水。对排(滤液)水的土壤组成和水质进行了监测。对结果进行统计分析。结果:在自来水和中水样品中，进水pH值和EC值一致。由于洗涤剂含量的影响，灰水样品的进水钠浓度较高。所有盒子的Na质量平衡计算表明，当将进水、植物组织和土壤中的聚集浓度与滤液、植物组织和土壤水中的聚集Na质量进行比较时，一些Na质量没有考虑在内。得出的结论是，这可能是由于箱中保留/蓄积的灌溉用水，难以实现均匀的箱冲洗以及低估了土壤Na。基质深度的变化影响了所有结果。植物本身似乎对测量参数的影响不大，除了在灰水灌溉的植物中Na质量的积累。结论:经土壤基质过滤后的中水水质未见明显改善。对于长期使用灰水浇水，应考虑选择耐钠品种，尽管本试验中使用的景天属植物没有因钠积累而对生长产生不利影响的记录。

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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British Journal of Environment and Climate Change

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