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Bioconcentration Factor Prediction Method for Water Quality Benchmark and Risk Assessment

A technology of biological enrichment and prediction methods, applied in the fields of genomics, biostatistics, bioinformatics, etc., can solve the lack of biological enrichment factor data, cannot meet the requirements of species diversity, and restrict chemical safety management and environmental protection. Risk management development needs and other issues to meet the needs of biodiversity, avoid biological experiments, and avoid time-consuming and labor-intensive effects

Active Publication Date: 2020-11-27
BEIJING NORMAL UNIVERSITY
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Problems solved by technology

However, each QSAR model can only predict the bioaccumulation factors of multiple chemicals by a single species. Since most of the enrichment factor data are concentrated in model organisms, and the establishment of QSAR models needs to be based on a large amount of data, most QSAR models are based on patterns. Biological establishment cannot meet the requirements for species diversity in water quality benchmarks and risk assessment studies
[0004] The lack of bioaccumulation factor data of chemicals is a common problem in water quality benchmarks and chemical ecological risk assessment, especially for some newly synthesized chemicals, the lack of bioaccumulation factors further restricts the development needs of chemical safety management and environmental risk management

Method used

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  • Bioconcentration Factor Prediction Method for Water Quality Benchmark and Risk Assessment
  • Bioconcentration Factor Prediction Method for Water Quality Benchmark and Risk Assessment
  • Bioconcentration Factor Prediction Method for Water Quality Benchmark and Risk Assessment

Examples

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Embodiment 1

[0041](1) Taking the black-headed minnow as the predicted species and the guppy as the substitute species, through literature research and database search, the same enriched organs, developmental stages, experimental methods, experimental conditions, exposure routes and purity of chemicals were screened out. Bioconcentration factors of grades of minnow and guppy. The geometric mean value of all bioconcentration factors corresponding to the same chemical in the same species was taken, and the bioconcentration factor data of 12 chemicals with different structures were matched after the same compound of the two species was matched, as shown in Table 1.

[0042] Table 1: BCF data of the BCF-ICE model based on guppy and blackhead minnow, unit (L / kg)

[0043]

[0044]

[0045] (2) Based on the bioaccumulation factor data of 12 different structural chemicals, the BCF-ICE model between two species was established, and the BCF-ICE model was established as attached figure 1 shown...

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Abstract

The invention belongs to the field of ecological risk evaluation test strategies, and particularly relates to a biological enrichment factor prediction method for formulating a water quality standardand risk evaluation. The method comprises the following steps: (1) selecting biological enrichment factor data; (2) selecting alternative species; (3) establishing a biological enrichment factor interspecific relationship model; (4) screening prediction data and the like. Time-consuming and labor-consuming biological experiments can be avoided; the biological enrichment factors of more species canbe predicted through the biological enrichment factors of the known species by chemicals; in particular, the blank of biological enrichment factor data of rare and endangered species is filled; the situation that local species data is extremely short in China at present is improved, the requirement of Chinese water quality standards for biodiversity of biological enrichment factor data is met, research and development of the water quality standards are accelerated, and basic data support can be provided for chemical ecological risk assessment.

Description

technical field [0001] The invention belongs to the field of ecological risk assessment testing strategies, and in particular relates to a biological enrichment factor prediction method for formulating water quality benchmarks and risk assessment. Background technique [0002] Water quality benchmarks are the scientific basis for formulating water quality standards and play a very important role in water environment protection. Ecological risk assessment of chemicals is an important part and scientific support of environmental risk management. It is the key and difficult point in the current environmental management field. It helps environmental management departments understand and predict the relationship between external ecological impact factors and ecological consequences, and ultimately provide Risk management provides decision support. However, at present, the relative scarcity of data on bioconcentration factors (BCF) of chemicals by native species is one of the key...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G16B20/00G16B40/20
CPCG16B20/00G16B40/20
Inventor 何佳张璇杜鹏殷国栋郝芳华付永硕郝增超
Owner BEIJING NORMAL UNIVERSITY
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