Application of ditch millets in repairing heavy metal copper pollution of mine soil in Karst mountain areas
A technology of heavy metal and copper pollution, which is applied in the repair of heavy metal copper pollution in the soil of karst mountainous mining areas, and in the field of phytoremediation, can solve the problems of difficult selection of hyperaccumulator plants, and achieve easy engineering implementation, strong saline-alkali resistance, Seeding and managing simple effects
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Embodiment 1
[0038] The experimental site is the copper-contaminated soil around the Yinhe Coal Mine Wasteland in Hongguo Town, Pan County, Liupanshui City, Guizhou Province. The litter and soil seed banks were taken from the surrounding forest. The pH value of the soil in the Yinhe Coal Mine sample plot in Hongguo Town, Pan County, ranges from 3.04 to 5.04, which is strongly acidic, and the copper ion content in the soil is 65.86 mg·kg -1 , exceeding the secondary standard of 50 mg·kg in the soil environmental governance standard (GB15618-1995) -1 , reached the standard of copper pollution.
[0039] The experiment was divided into seven groups. The experiment started in October. The experimental site was divided into 1m*1m squares, covered with litter respectively, with a thickness of 0cm, 2cm, 2-4cm, 4-6cm, 6-8, 8-10cm , 10-12cm, repeat five times for each thickness. Then sow the paspalum seeds.
[0040] Water every three days after sowing, and stop artificial watering after two week...
Embodiment 2
[0051] The experimental site is the copper-contaminated soil around the abandoned coal mine in Maiping Township, Huaxi District, Guiyang City, Guizhou Province, and the experimental process is the same as in Example 1. The experimental results show that paspalum has hyperaccumulation ability to soil copper pollution. Among them, the average value of copper content absorbed by the aerial parts of paspalum was 1223.412mg·kg -1 . The enrichment factor reaches 1.1-2.4. One year after the restoration experiment in the experimental plot, the vegetation coverage increased from 0% before restoration to an average of 30%, and the Shannon-Winer diversity index of the experimental plot increased from 0 to 0.7.
[0052] This study suggests that paspalum has a strong remediation potential for copper-contaminated soil and is a hyperaccumulator plant for copper-contaminated soil treatment. Before sowing, it is more beneficial to cover the polluted soil with surrounding forest litter and s...
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