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Comprehensive evaluation method for remediation effects of heavy metal contaminated soil based on plants, soil and microorganisms

A technology for comprehensive evaluation of polluted soil, applied in the field of comprehensive evaluation of heavy metal contaminated soil remediation effect, can solve unfavorable land use and land planning decision-making, there are few methods for comprehensive evaluation of farmland heavy metal contaminated soil remediation effect, and the adverse remediation effect is comprehensive and credible evaluation, etc.

Active Publication Date: 2017-08-18
SUN YAT SEN UNIV
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  • Abstract
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  • Application Information

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Problems solved by technology

However, soil is an open system, and relying solely on the total amount of pollutants in the soil cannot comprehensively represent its risks to surrounding plants, animals, and human bodies, which is not conducive to a comprehensive and credible evaluation of the restoration effect, which is not conducive to land use and land conservation. planning decision
[0005] In recent years, scholars at home and abroad have made a lot of achievements in the evaluation of heavy metal pollution in soil according to their own research (Research Progress in Remediation and Remediation Effect Evaluation of Heavy Metal Contaminated Soil. China Agricultural Science Bulletin, 2014.30(20): p.161-167.), However, there are still few methods for comprehensive evaluation of the remediation effect of heavy metal-contaminated soil in farmland.

Method used

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  • Comprehensive evaluation method for remediation effects of heavy metal contaminated soil based on plants, soil and microorganisms
  • Comprehensive evaluation method for remediation effects of heavy metal contaminated soil based on plants, soil and microorganisms
  • Comprehensive evaluation method for remediation effects of heavy metal contaminated soil based on plants, soil and microorganisms

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Experimental program
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Embodiment

[0100] (1) Field experiment setup

[0101] In this embodiment, a piece of farmland around a small workshop for dismantling discarded electronic waste in Qingyuan City, Guangdong Province is used as a heavy metal-contaminated soil test field with an area of ​​2 mu. The phytoextraction restoration method is adopted respectively, namely planting grain amaranth (Amaranthus hypochondriacus) and the plant fixation restoration method. That is, one mu of Jatropha curcas L. is planted.

[0102] The grain amaranth is planted by direct sowing, and fertilizer treatment is applied during the rapid growth period of the grain amaranth. In order to compare the restoration effects between different planting methods, there are five treatment methods in this example, which are: treatment 1: apply urea treatment twice; treatment 2: apply urea treatment once; treatment 3: apply potassium sulfate twice Treatment; treatment 4: one-time application of potassium sulfate treatment; treatment 5: no fer...

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Abstract

The invention particularly discloses a comprehensive evaluation method for remediation effects of heavy metal contaminated soil based on plants, soil and microorganisms. The method comprises the steps that (1) a contaminated soil remediation effect evaluation system is constructed; (2) evaluation indicators are determined; (3) the evaluation indicators are subjected to normalization processing; (4) weights of all the evaluation indicators are determined; and (5) an evaluation score of remedied soil is calculated, and comparison is performed in combination with evaluation standards to obtain the remediation effects of the heavy metal contaminated soil treated by different remediation means. According to the evaluation method, the evaluation indicators include three criterion layer factors, nine element layer factors and fourteen indicator layer factors in total and cover content in the aspects of chemistry, microorganisms and plants, farmland functions and contamination remediation actual conditions are comprehensively considered, the method is suitable for comprehensive evaluation of contamination remediation work and large-range remediation work evaluation, and compared with existing evaluation methods, the method is more comprehensive, accurate and scientific.

Description

technical field [0001] The invention belongs to the technical field of pollution safety evaluation, in particular to a method for comprehensive evaluation of remediation effect of heavy metal polluted soil based on plants, soil and microorganisms. Background technique [0002] In recent years, due to the rapid development of industry and agriculture, as well as the acceleration of product production, consumption, and abandonment processes, more and more areas of soil have been polluted by heavy metals and organic pollutants. At present, more than 10% of my country's arable land is polluted by heavy metals, and the polluted area reaches tens of millions of hectares. The country's annual food production reduction and related economic losses due to heavy metal pollution reach 20 billion yuan. At the same time, since heavy metal elements in soil cannot be decomposed through physical, chemical and biological pathways, they are easy to accumulate and endanger human health through ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F19/00
CPCG16Z99/00G06F2219/10
Inventor 王诗忠林庆祺梁志锋黄礼格李元媛仇荣亮晁元卿汤叶涛
Owner SUN YAT SEN UNIV
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