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Potential application of population models in the European ecological risk assessment of chemicals II: Review of models and their potential to address environmental protection aims

Galic, Nika ; Hommen, Udo ; Baveco, JM (Hans) ; [et al.]

Wiley ; 2010

In: Integrated Environmental Assessment and Management Vol. 6, No. 3 ( 2010-07), p. 338-360

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In: Integrated Environmental Assessment and Management, Wiley, Vol. 6, No. 3 ( 2010-07), p. 338-360

Abstract: Whereas current chemical risk assessment (RA) schemes within the European Union (EU) focus mainly on toxicity and bioaccumulation of chemicals in individual organisms, most protection goals aim at preserving populations of nontarget organisms rather than individuals. Ecological models are tools rarely recommended in official technical documents on RA of chemicals, but are widely used by researchers to assess risks to populations, communities and ecosystems. Their great advantage is the relatively straightforward integration of the sensitivity of species to chemicals, the mode of action and fate in the environment of toxicants, life‐history traits of the species of concern, and landscape features. To promote the usage of ecological models in regulatory risk assessment, this study tries to establish whether existing, published ecological modeling studies have addressed or have the potential to address the protection aims and requirements of the chemical directives of the EU. We reviewed 148 publications, and evaluated and analyzed them in a database according to defined criteria. Published models were also classified in terms of 5 areas where their application would be most useful for chemical RA. All potential application areas are well represented in the published literature. Most models were developed to estimate population‐level responses on the basis of individual effects, followed by recovery process assessment, both in individuals and at the level of metapopulations. We provide case studies for each of the proposed areas of ecological model application. The lack of clarity about protection goals in legislative documents made it impossible to establish a direct link between modeling studies and protection goals. Because most of the models reviewed here were not developed for regulatory risk assessment, there is great potential and a variety of ecological models in the published literature. Integr Environ Assess Manag 2010;6:338–360. © 2010 SETAC

Type of Medium: Online Resource

ISSN: 1551-3777 , 1551-3793

URL: Issue

URL: Article

DOI: 10.1002/ieam.v6:3

DOI: 10.1002/ieam.68

Language: English

Publisher: Wiley

Publication Date: 2010

detail.hit.zdb_id: 2231760-0

SSG: 21

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Potential application of ecological models in the European environmental risk assessment of chemicals I: Review of protection goals in EU directives and regulations

Hommen, Udo ; Baveco, JM (Hans) ; Galic, Nika ; [et al.]

Wiley ; 2010

In: Integrated Environmental Assessment and Management Vol. 6, No. 3 ( 2010-07), p. 325-337

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In: Integrated Environmental Assessment and Management, Wiley, Vol. 6, No. 3 ( 2010-07), p. 325-337

Abstract: Several European directives and regulations address the environmental risk assessment of chemicals. We used the protection of freshwater ecosystems against plant protection products, biocidal products, human and veterinary pharmaceuticals, and other chemicals and priority substances under the Water Framework Directive as examples to explore the potential of ecological effect models for a refined risk assessment. Our analysis of the directives, regulations, and related guidance documents lead us to distinguish the following 5 areas for the application of ecological models in chemical risk assessment: 1) Extrapolation of organism‐level effects to the population level: The protection goals are formulated in general terms, e.g., avoiding “unacceptable effects” or “adverse impact” on the environment or the “viability of exposed species.” In contrast, most of the standard ecotoxicological tests provide data only on organism‐level endpoints and are thus not directly linked to the protection goals which focus on populations and communities. 2) Extrapolation of effects between different exposure profiles: Especially for plant protection products, exposure profiles can be very variable and impossible to cover in toxicological tests. 3) Extrapolation of recovery processes: As a consequence of the often short‐term exposures to plant protection products, the risk assessment is based on the community recovery principle. On the other hand, assessments under the other directives assume a more or less constant exposure and are based on the ecosystem threshold principle. 4) Analysis and prediction of indirect effects: Because effects on 1 or a few taxa might have consequences on other taxa that are not directly affected by the chemical, such indirect effects on communities have to be considered. 5) Prediction of bioaccumulation within food chains: All directives take the possibility of bioaccumulation, and thus secondary poisoning within the food chain, into account. Integr Environ Assess Manag 2010;6:325–337. © 2010 SETAC

Type of Medium: Online Resource

ISSN: 1551-3777 , 1551-3793

URL: Issue

URL: Article

DOI: 10.1002/ieam.v6:3

DOI: 10.1002/ieam.69

Language: English

Publisher: Wiley

Publication Date: 2010

detail.hit.zdb_id: 2231760-0

SSG: 21

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The use of traits‐based approaches and eco(toxico)logical models to advance the ecological risk assessment framework for chemicals

Van den Brink, Paul J ; Baird, Donald J ; Baveco, Hans (JM) ; [et al.]

Wiley ; 2013

In: Integrated Environmental Assessment and Management Vol. 9, No. 3 ( 2013-07)

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In: Integrated Environmental Assessment and Management, Wiley, Vol. 9, No. 3 ( 2013-07)

Abstract: This article presents a framework to diagnose and predict the effects of chemicals, integrating 2 promising tools to incorporate more ecology into ecological risk assessment, namely traits‐based approaches and ecological modeling. Traits‐based approaches are used increasingly to derive correlations between the occurrence of species traits and chemical exposure from biological and chemical monitoring data. This assessment can also be used in a diagnostic way, i.e., to identify the chemicals probably posing the highest risks to the aquatic ecosystems. The article also describes how ecological models can be used to explore how traits govern the species‐substance interactions and to predict effects at the individual, population, and community and ecosystem level, i.e., from the receptor to the landscape level. This can be done by developing models describing the toxicokinetics and toxicodynamics of the chemical in the individual, the life‐history of species and the connectivity of populations, determining their recovery, and the food web relations at the community and ecosystem level that determine the indirect effects. Special attention is given on how spatial aspects can be included in the ecological risk assessments using ecological models. The components of the framework are introduced and critically discussed. We describe how the different tools and data generated through experimentation (laboratory and semifield) and biomonitoring can be integrated. The article uses examples from the aquatic compartment, but the concepts that are used, and their integration within the framework, can be generalized to other environmental compartments. Integr Environ Assess Manag 2013;9:e47–e57. © 2013 SETAC

Type of Medium: Online Resource

ISSN: 1551-3777 , 1551-3793

URL: Issue

URL: Article

DOI: 10.1002/ieam.v9.3

DOI: 10.1002/ieam.1443

Language: English

Publisher: Wiley

Publication Date: 2013

detail.hit.zdb_id: 2231760-0

SSG: 21

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