Potential of Lemnoideae Species for Phytoremediation of Fresh Water with Elevated Manganese Concentration

Background. Wastewater treatment using physical, chemical, and biological methods is primary solution for the reduction of water pollution that reaching the critical thresholds. The members of subfamily Lemnoideae, commonly called duckweed, are considered the most efficient aquatic plants for wastew...

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Bibliographic Details
Published in:Innovative biosystems and bioengineering 2019-12, Vol.3 (4), p.232-238
Main Authors: Zhou, Yuzhen, Bai, Tianxia, Kishchenko, Olena
Format: Article
Language:English
Subjects:
duckweed
landoltia punctata
lemna aequinoctialis
lemna turionifera
manganese
phytoremediation
spirodela polyrhiza
water purification
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Summary:Background. Wastewater treatment using physical, chemical, and biological methods is primary solution for the reduction of water pollution that reaching the critical thresholds. The members of subfamily Lemnoideae, commonly called duckweed, are considered the most efficient aquatic plants for wastewater remediation. Although properties of duckweed to survive in water with high concentration of heavy metal ions such as chromium, cobalt, lead, nickel and cuprum are well documented, the growth of duckweed in water with high concentrations of manganese and the efficiency of retention of manganese from water by these species has not been estimated. Objective. Four duckweed species (Spirodela polyrhiza, Landoltia punctata, Lemna aequinoctialis, and L. turionifera) were used for establishment of influence Mn on their vitality and growth and for studying their potential for phytoremediation of fresh water with elevated manganese concentration. Methods. Duckweed collected in Eastern China was introduced in tissue culture in vitro by surface sterilization. The identification of the collected duckweed species was determined by DNA barcoding using primers specific for chloroplast intergenic spacers atpF-atpH (ATP) and psbK-psbL (PSB). The experiments for establishment of influence Mn on duckweed growth carried out in aseptic condition. To determinate concentration of Mn, the samples of different water type (Hongze Lake, ponds around Hongze Lake, Huaian local municipal sewage plant and industrial sewage plant) were analyzed by the Inductively Coupled Plasma Optical Emission Spectrometry. Results. The most sensitive duckweed to Mn was S. polyzhiza, the first characteristic symptoms of toxicity like brown spots have appeared when concentration of Mn was 40 mg/L, the concentration 200 mg/L Mn resulted in chlorosis and death of fronds. L. aequinoctialis and L. turionifera had similar effects in SH medium supplemented with 650 mg/L and 975 mg/L Mn, respectively. L. punctata was the most tolerant duckweed to Mn plants continued to grow even at concentration 975 mg/L. Response of duckweed on Mn was dependent on availability of nitrogen in nutrient medium. Using four duckweed species for treatment of water containing 4.12 mg/L Mn allowed to reduce concentration until safe level of standard (0.1 mg/L Mn). Conclusions. All investigated duckweed species (S. polyrhiza, L. punctata, L. aequinoctialis, and L. turionifera) were characterized by a high level of resistance to manganese
ISSN:2616-177X
2616-177X
DOI:10.20535/ibb.2019.3.4.183207