Floating Wetlands Prove Competitive, Cost-Effective Water Treatmentโ Option: new Study
Adelaide, Australia – A new โstudy published in ACSโ ES&T Water โฃ reveals that floating wetlands can be a cost-competitive and ecologically beneficial option to conventional engineered water treatment systems. โResearchers from UniSA and โฃCSIRO foundโ that,while costs vary,these nature-based solutions are particularly โeffective atโฃ nitrogen removal,frequently enough โขat a lower price point than phosphorus removal.
The research addressesโข a โcritical gap in understanding the true costs associated with implementing floating wetlands at scale. The studyโข demonstrates that the cost of removing nitrogen averaged betweenโ A$15 and A$183 per kilogram,โค whileโ phosphorus removalโข ranged from โคA$23 to A$4979 per kilogram.
“Scale matters,”โ explains Dr. John Awad of CSIRO.”Larger wetlands reduced the cost per kilogram of nutrients removed, making them moreโข economical over time. Climate also plays a role,with warmer regions benefiting from longer growing seasons and increased pollutant removal rates.”
Floating wetlands are gaining โtraction globally for treating diverse water sources, including domestic wastewater, stormwater, โand polluted urban rivers.Current trials are underway in australia – specifically the Sunshine Coast region โขandโฃ Victoria – targeting wastewater and stormwater.Similar projects in the Unitedโค States are integrating the technology with communityโ spaces,ecological restoration efforts,and even boardwalks.
Beyond water purification, the study highlights additional advantages. UniSA Professor Simon Beecham notes that โfloating wetlandsโ can be “retrofittedโ into existing lakes and stormwater โponds without the need for costly landโข acquisition,” and provide valuable โhabitat โฃfor wildlife, enhance urban aesthetics, and perhaps contribute to carbon sequestration.
Notable cost variations were observed between projects in developed and developing nations. Construction costs in Pakistan, for example, were as low as A$13-20 per square meter, significantly less than those in Australia and North America due to lower labor โฃand material expenses.
“Understanding these variations helps governments and planners adapt the technologyโข to local conditions,” Dr. awad stated. “It also shows that floating wetlandsโฃ could be a particularly valuable option in low- and middle-income countries, where affordable, low-energy treatment systems are urgently needed.”
The researchers emphasize that floating wetlands are not a standalone solution, but rather a valuable component of โa complete water treatment strategy.
Contact:
Dr. John Awad, CSIRO, media@csiro.au
Professor Simon Beecham,UniSA,Simon.Beecham@unisa.edu.au
Candy Gibson, UniSA, +61 434 605 142, Candy.Gibson@unisa.edu.au