Effect of silicon on calcium, proline, growth rate and salt stress of narrow-leaved cattails in synthetic reactive dye wastewater

Narrow-leaved cattails (Typha angustifolia L.) show higher efficiency in the removal of colour and reduction of pH, TDS, and conductivity from synthetic reactive red dye wastewater (Rw) when silicon is added to the wastewater. The efficiency of the colour removal was increased from 86% within 12 day...

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Bibliographic Details
Published in:International journal of phytoremediation 2013-01, Vol.15 (1), p.24-37
Main Authors: Maneesuwannarat, Dussadee, Maneesuwannarat, Sirikan, Nilratnisakorn, Sumol, Thiravetyan, Paitip
Format: Article
Language:English
Subjects:
Biodegradation, Environmental
Bioremediation
Calcium
Calcium - analysis
Calcium - metabolism
Color
Coloring Agents - metabolism
Colour
Conductometry
decolorization
Dyes
Flowers & plants
Hydrogen-Ion Concentration
leaves
narrow-leaved cattail
plant growth
Plant Leaves - drug effects
Plant Leaves - growth & development
Plant Leaves - metabolism
Plant Leaves - physiology
Plant Roots - drug effects
Plant Roots - growth & development
Plant Roots - metabolism
Plant Roots - physiology
Proline
Proline - analysis
Proline - metabolism
reactive dye
Salinity
salt stress
Silicon
Silicon - pharmacology
Sodium - metabolism
Stresses
Typha angustifolia
Typhaceae - drug effects
Typhaceae - growth & development
Typhaceae - metabolism
Typhaceae - physiology
Waste water
Waste Water - chemistry
wastewater
Water - chemistry
Water - metabolism
water balance
water potential
Water treatment
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Summary:Narrow-leaved cattails (Typha angustifolia L.) show higher efficiency in the removal of colour and reduction of pH, TDS, and conductivity from synthetic reactive red dye wastewater (Rw) when silicon is added to the wastewater. The efficiency of the colour removal was increased from 86% within 12 days to 93% within 9 days with the addition of silicon. Furthermore, the TDS was also decreased when adding silicon in the wastewater. In addition, calcium and proline accumulation in the plant leaf increased in response to increasing Rw concentrations in the absence of added silicon. Higher salinity was also observed with increasing Rw concentrations. Plants attempt to balance their water potential by secreting proline as an osmotic adjustment. But both calcium and proline levels decreased when silicon was added to the wastewater. This result implies that the plant uses silicon as primary element for responsibility under salt stress condition by increasing growth of plant. In addition, silicon can be used instead of calcium, resulting in decreased proline and calcium production in the plant.
ISSN:1549-7879
1522-6514
1549-7879
DOI:10.1080/15226514.2012.670313