Abstract
The application of scientific concepts to management decisions is a clear need nowadays. The regulation of environmental pollutants requires the application of cost/benefit analysis. Human health and ecosystem status can be seriously affected and, therefore, are essential parts of the cost assessment. Ecotoxicology must provide the scientific basis for the prediction, control, monitoring and diagnosis of the expected/observed effects of chemical substances on the structure and function of ecosystems. The basic problem is to select which levels of risk/alteration can be accepted, taken into account the degree of uncertainty in the assessment. This paper summarizes some biologically based approaches that try to reduce the level of uncertainty and/or to improve the decisions on the basic thresholds: acceptable/unacceptable and safe/dangerous. The presentation will focus on two specific aspects. Starting with prediction related topics, the first aspect will regard on the evolution of Hazard and Risk Assessments and the biological developments that try to improve these evaluations. The discussion will cover ecotoxicological concepts included in the adopted criteria for different regulatory aspects, i.e. setting Water Quality Objectives, classifying potential hazards using the “inherent” toxicity of a substance, or predicting Non Effect Concentration in risk characterization procedures. The second aspect will cover the use of biologically based systems as complementary and even alternative tools in management decisions related to the control, monitoring and diagnosis of the environmental alterations produced by highly toxic chemicals on biological systems.
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References
Bartell SM, Gardner RH, O’Neill RV (1992) Ecological risk estimations. Lewis Pub, Boca Raton, 250 pp.
Bro-Rasmussen F, Calow P, Canton JH, Chambers PH, Silva Fernandes A, Hoffmann L, Jouany JM, Klein W, Persoone G, Scoullos M, Tarazona JV, Vigni M (1994) EEC water quality objectives for chemicals dangerous to aquatic environment (List 1). Rev Environ Con tarn Toxicol 137:83–110.
Castaño A, Cantarino MJ, Castillo P, Tarazona JV (1996) Correlations between the RTG-2 cytotoxicity test EC50 and in vivo LC50 rainbow trout bioassay. Chemosphere (in press).
Castaño A, Vega M, Blazquez T, Tarazona JV (1994) Biological alternatives to chemical identification for the ecotoxicological assessment of industrial effluents: the RTG-2 in vitro cytotoxicity test. Environ Toxicol Chem 13:1607–1611.
de la Torre AI, Fernandez C, Tarazona JV, Muñoz MJ (1995) Detection of arochlor, DDT, malathion, and HCB using semipermeable membranes as concentration method. Chemosphere 31:2727–2737.
ECB (1996) Technical guidance document for the hazard and risk assessment of new and existing substances. European Chemical Bureau, Ispra.
Harras MC (1996) Regulatory use of ecotoxicity statistics: a US perspective. Ecotoxicol. 5:145–154.
Mulliss RM, Revitt DM, Shutes RBE (1996) The determination of the toxic influences to Gammarus pulex (amphipoda) caged in urban receiving waters. Ecotoxicol 5:209–215.
Muñoz MJ, Ramos C, Tarazona JV (1996) Bioaccumulation and toxicity of hexachlorobenzene in Chlorella vulgaris and Daphnia magna. Aquat Toxicol (in press).
Renner R (1996) Ecological risk assessment struggles to define itself. Environ Sci Tech 33:172A–174A.
Scheuplein RJ (1995) Information needed to support hazard identification and risk assessment of toxic substances. Toxicol Lett 79:23–28.
Tarazona JV, Carballo M, Castaño A, Muñoz MJ. (1995) The role of cell biology on the application of toxicology to environmental sciences: biological assessment of pollution and biomarkers. In Cajaraville MP (ed) Cell Biology in Environmental Toxicology, UPV, Bilbao, pp 15–28.
USEPA (1992) Framework for Ecological risk assessment. EPA/630/R92/001, Risk Assessment Forum, Washington DC.
van Asselt MBA, Beusen AHW, Hilderink HBM (1996) Uncertainty in integrated assessment: A social scientific perspective. Environ Model Assess 1:71–90.
Vandenberg JJ (1995) Risk assessment and research: an essential link. Toxicol Lett 79:17–22.
Whitehouse P, Crane M, Redshaw CJ, Turner C (1996) Aquatic toxicity tests for the control of effluent discharges in the UK - the influence of test precision. Ecotoxicol 5:155–168.
Wilson JD, Cibulas W, DERosa CT, Mumtaz MM, Murray E. (eds) (1995) Decision support methodologies for human health risk assessment of toxic substances. Toxicol Lett Special Issue 79:1–316.
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© 1997 Springer-Verlag Berlin Heidelberg
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Tarazona, J.V. (1997). The Identification of Thresholds of Acceptability and Danger: The Biological Route. In: Seiler, J.P., Vilanova, E. (eds) Applied Toxicology: Approaches Through Basic Science. Archives of Toxicology, vol 19. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-60682-3_12
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DOI: https://doi.org/10.1007/978-3-642-60682-3_12
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