生物化学管弦乐队：一种评估重金属对河漫滩系统的化学形态和生态毒理学影响的工具。

BIOCHEM-ORCHESTRA: a tool for evaluating chemical speciation and ecotoxicological impacts of heavy metals on river flood plain systems.

作者信息

Vink J P M, Meeussen J C L

机构信息

Institute for Inland Water Management and Waste Water Treatment RIZA, Department of Chemistry & Ecotoxicology, PO Box 17, 8200 AA Lelystad, The Netherlands.

出版信息

Environ Pollut. 2007 Aug;148(3):833-41. doi: 10.1016/j.envpol.2007.01.041. Epub 2007 Mar 26.

DOI:10.1016/j.envpol.2007.01.041

PMID:17379367

Abstract

The chemical speciation model BIOCHEM was extended with ecotoxicological transfer functions for uptake of metals (As, Cd, Cu, Ni, Pb, and Zn) by plants and soil invertebrates. It was coupled to the object-oriented framework ORCHESTRA to achieve a flexible and dynamic decision support system (DSS) to analyse natural or anthropogenic changes that occur in river systems. The DSS uses the chemical characteristics of soils and sediments as input, and calculates speciation and subsequent uptake by biota at various scenarios. Biotic transfer functions were field-validated, and actual hydrological conditions were derived from long-term monitoring data. The DSS was tested for several scenarios that occur in the Meuse catchment areas, such as flooding and sedimentation of riverine sediments on flood plains. Risks are expressed in terms of changes in chemical mobility, and uptake by flood plain key species (flora and fauna).

摘要

化学形态模型BIOCHEM通过植物和土壤无脊椎动物对金属（砷、镉、铜、镍、铅和锌）吸收的生态毒理学传递函数进行了扩展。它与面向对象框架ORCHESTRA耦合，以实现一个灵活且动态的决策支持系统（DSS），用于分析河流系统中发生的自然或人为变化。该DSS以土壤和沉积物的化学特征作为输入，并计算各种情景下的形态以及生物群随后的吸收情况。生物传递函数经过了实地验证，实际水文条件来自长期监测数据。该DSS针对默兹河流域发生的几种情景进行了测试，如洪水以及河漫滩上河流沉积物的沉积。风险以化学迁移性的变化以及河漫滩关键物种（动植物）的吸收情况来表示。

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生物化学管弦乐队：一种评估重金属对河漫滩系统的化学形态和生态毒理学影响的工具。

BIOCHEM-ORCHESTRA: a tool for evaluating chemical speciation and ecotoxicological impacts of heavy metals on river flood plain systems.

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