Title of article :
Constructed treatment wetland: a study of eight plant species under saline conditions
Author/Authors :
Pantip Klomjek، نويسنده , , Suwanchai Nitisoravut، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2005
Pages :
9
From page :
585
To page :
593
Abstract :
A series of investigations was conducted to evaluate the feasibility of using constructed treatment wetlands to remove pollutants from saline wastewater. Eight emergent plants; cattail, sedge, water grass, Asia crabgrass, salt meadow cordgrass, kallar grass, vetiver grass and Amazon, were planted in experimental plots and fed with municipal wastewater that was spiked with sodium chloride (NaCl) to simulate a saline concentration of approximately 14–16 mS cm−1. All macrophytes were found tolerant under the tested conditions except Amazon and vetiver grass. Nutrient assimilation of salt tolerant species was in the range of 0.006–0.061 and 0.0002–0.0024 g m−2 d−1 for nitrogen and phosphorus, respectively. Treatment performances of planted units were found to be 72.4–78.9% for BOD5, 43.2–56.0% for SS, 67.4–76.5% for NH3-N and 28.9–44.9% for TP. The most satisfactory plant growth and nitrogen assimilation were found for cattail (Typha angustifolia) though the plant growth was limited, whereas Asia crabgrass (Digitaria bicornis) was superior for BOD5 removal. Both were evaluated again in a continuous flow constructed wetland system receiving saline feed processing wastewater. A high removal rate regularly occurred in long-term operating conditions. The reduction in BOD5, SS, NH3-N and TP was in the range of 44.4–67.9%, 41.4–70.4%, 18.0–65.3% and 12.2–40.5%, respectively. Asia crabgrass often provided higher removal especially for BOD5 and SS removal. Nutrient enriched wastewater promoted flourishing growth of algae and plankton in the surface flow system, which tended to reduce treatment performance.
Keywords :
Constructed wetland , saline wastewater , Salt-tolerant plant , Nutrient assimilation , treatment performance
Journal title :
Chemosphere
Serial Year :
2005
Journal title :
Chemosphere
Record number :
737740
Link To Document :
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