AI Article Synopsis
- The study investigates how the water quality of a constructed wetland in Mount Barker, South Australia, has changed over time due to increased loads of pre-treated domestic wastewater.
- It was found that nitrogen removal efficiencies varied seasonally and decreased as hydraulic loading increased, while the wetland served as a source of organic material and phosphorus instead of effectively removing them.
- The analysis indicates future increases in nitrogen concentrations in the influent, with significant seasonal and management influences on the wetland’s performance.
Article Abstract
There is limited understanding of how constructed wetland (CW) water quality may change over time in response to increased wastewater nutrient and hydraulic loadings. We evaluated long-term water quality trends and drivers for a full-scale (8.19 ha) free water surface CW that was developed in 2001 for the treatment of increasing amounts of pre-treated domestic wastewater from the township of Mount Barker, South Australia. Water quality parameter concentrations and loads, hydraulic loadings rates, trend direction assessments (TDAs), and water quality parameter removal efficiencies were analysed over the study period. The wetland received an annual average loading rate of 947, 19644, 31039, 18140, 2985, and 807 kg year for BOD5, TN, NH-N, TKN-N, NO-N, and TP respectively and removed on average 8%, 72%, 73%, 78%, 12% and -246% of these loadings respectively. The average influent concentrations for the study period were 2.6, 42.3, 40.6, 35.9, 9.0, and 1.9 mg L for BOD5, TN, NH-N, TKN-N, NO-N, and TP respectively. Average concentration removal rates over the study period were 50%, 39%, 40%, 15%, -216% and -600.5% for TN, NH-N, TKN-N, NO-N, BOD5 and TP respectively, suggesting that nitrogen was only partly assimilated by the wetland and it was a source of organic material and phosphorus. Using seasonally and inflow rate adjusted data, TDAs predicted virtually certain increases in TN, NH-N, and TKN-N influent concentrations over time, a decline in NO-N, no trend in BOD5, and a possible decreasing trend in TP. The inflow explained variance accounted for approximately 50% of the variation in TN, NH-N and TKN-N effluent concentrations. Annual removal efficiencies of N declined with increasing hydraulic loads, and hydraulic loading rates varied with management practices. Seasonal analysis showed that N removal was greater during summer and lower in winter. Due to local population growth and various management practices, hydraulic loading is variable and has often exceeded design targets. Our findings indicate the long-term performance of CWs need to be closely monitored, as water quality can deteriorate due to increased hydraulic loadings.
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| http://dx.doi.org/10.1016/j.jenvman.2022.114858 | DOI Listing |
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