Remediation of nutrient-rich waters using the terrestrial plant, Pandanus amaryllifolius Roxb

Effective control of eutrophication is generally established through the reduction of nutrient loading into waterways and water bodies. An economically viable and ecologically sustainable approach to nutrient pollution control could involve the integration of retention ponds, wetlands and greenways...

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Bibliographic Details
Published in:Journal of environmental sciences (China) 2014-02, Vol.26 (2), p.404-414
Main Authors: HAN, Ping, Kumar, Prakash, Ong, Bee-Lian
Format: Article
Language:English
Subjects:
Biodegradation, Environmental
Chlorophyll - metabolism
chlorophyll fluorescence
Ecology
Economics
Eutrophication
nitrate and phosphate removal
Nitrates - metabolism
Nutrients
Pandanaceae - growth & development
Pandanaceae - metabolism
Pandanus
Pandanus amaryllifolius
Phosphates - metabolism
Plant Proteins - metabolism
Pollution control
Reduction
Remediation
Water pollution
Water Quality
Waterways
Wetlands
整治
水体富营养化
水域
污染控制
营养丰富
营养水平
藻类生长
陆生植物
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Summary:Effective control of eutrophication is generally established through the reduction of nutrient loading into waterways and water bodies. An economically viable and ecologically sustainable approach to nutrient pollution control could involve the integration of retention ponds, wetlands and greenways into water management systems. Plants not only play an invaluable role in the assimilation and removal of nutrients, but they also support fauna richness and can be aesthetically pleasing. Pandanus amaryllifolius, a tropical terrestrial plant, was found to establish well in hydrophytic conditions and was highly effective in remediating high nutrient levels in an aquatic environment showing 100% removal of NO~-N up to 200 mg/L in 14 days. Phosphate uptake by the plant was less efficient with 64% of the PO4-P removed at the maximum concentration of 100 mg/L at the end of 6 weeks. With its high NO~-N and PO43--P removal efficiency, P. amaryllifolius depleted the nutrient-rich media and markedly contained the natural colonization of algae. The impediment of algal growth led to improvements in the water quality with significant decreases in turbidity, pH and electrical conductivity. In addition, the plants did not show stress symptoms when grown in high nutrient levels as shown by the changes in their biomass, total soluble proteins and chlorophyll accumulation as well as photochemical efficiency. Thus, P. amaryUifolius is a potential candidate for the mitigation of nutrient pollution in phytoremediation systems in the tropics as the plant requires low maintenance, is tolerant to the natural variability of weather conditions and fluctuating hydro-periods, and exhibit good nutrient removal capabilities.
ISSN:1001-0742
1878-7320
DOI:10.1016/s1001-0742(13)60426-x