Effect of plant extracts and citric acid on phytoremediation of metal-contaminated soil.

Application of activating agents can significantly improve efficiency of plants for remediation of soils contaminated by heavy metals, however, damage to soil and plants limits application of traditional activating agents. The aim of our experiments is to select an efficient,green and low-cost activating agent to improve efficiency of plant extraction technology. In this study, contaminated soil was remediated by Sedum alfredii. The effects of two plant extracts (i.e., Oxalis corniculata,OX and Medicago sativaextract, ME) in addition to citric acid (CA) were studied in oscillatory activation experiment and pot experiment. The oscillation activation experiment revealed that extraction quantity of heavy metals in the soil was enhanced significantly with concentration of plant extract. The extraction quantity of Zn from 100% OX extract and ME extract were significantly higher than 10 mmol/L CA (54.04% and 33.09%, respectively). The 10 mmol/L CA has best extraction efficiency for Cd, up to 41.36 µg/kg, which is significantly higher than CK (control) (p < 0.05). The pot experiment exhibited that application of CA has significantly reduced soil pH and organic matter content by 8.63% and 28.21%, respectively, however the two extracts have no significant effect on soil properties. The study indicated that application of CA has negative effects on root morphological parameters and chlorophyll fluorescence parameters of Sedum alfredii.The addition of extracts of two plants have not caused any harm to Sedum alfredii. The application of three activating agents was beneficial for purification of Cd and Zn in soils, and its repairing efficiency was improved by 3.92, 3.37, 3.33 times and 0.44, 0.20, 0.86 times, respectively. The combination of plant extracts and hyperaccumulators can effectively remove heavy metals from contaminated soils, which provided a theoretical basis for mitigation of pollution in soils.

Mitigation of Cd accumulation in rice with water management and calcium-magnesium phosphate fertilizer in field environment.

Pollution of Cd has seriously threatened environmental safety and human health. The field experiment was conducted to investigate the effects of calcium-magnesium phosphate fertilizer and water management on bioavailability of Cd in soils and its accumulation in rice. The results revealed that continuous flooding has enhanced soil pH from 5.10 to 5.72 and reduced soil redox potential (Eh) from 164 to - 60 mV. Application of calcium-magnesium phosphate fertilizer has significantly raised soil pH from 5.10 to 6.45 (P < 0.05). The treatment of calcium-magnesium phosphate fertilizer and continuous flooding has reduced available content of Cd in soils by 28.57%. The content of Cd in brown rice was significantly diminished by 51.36% (P < 0.05). The continuous flooding has promoted formation of residual Cd in soil with application of calcium-magnesium phosphate fertilizer. The biomass and grain production of rice was not significantly decreased compared with control.