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OEKOSKOP 4/15

Literaturnachweis
zum Beitrag «Chemikalien: Menge und Zeit machen das Gift»
von Dr. Henk Tennekes und Dr. Josef Hoppichler

[1] Druckrey, H., Kupfmuller, K. (1949). Dosis und Wirkung. Beiträge zur theoretischen Pharmakologie. Editio Cantor GmbH, Freiburg im Breisgau.

[2] Haber, F. (1924). Zur Geschichte des Gaskrieges. In Fünf Vorträge aus den Jahren 1920–1923, pp. 76-92. Julius Springer, Berlin

[3] Druckrey, H., Schildbach, A., Schmaehl, D., Preussmann, R., Ivankovic, S. (1963). Quantitative Analysis of the Carcinogenic Effect of Diethylnitrosamine. Arzneimittelforschung 13, 841–51

[4] Druckrey, H., Dischler, W. (1963). Dosis-Wirkungsbeziehungen bei der Krebserzeugung durch 4-dimethylaminostilben bei Ratten. Z Krebsforsch 65, 272

[5] Magee, P. N., Farber, E. (1962). Toxic liver injury and carcinogenesis. Methylation of rat-liver nucleic acids by dimethylnitrosamine in vivo. Biochem J 83, 114–24

[6] Sánchez-Bayo, F. (2009). From simple toxicological models to prediction of toxic effects in time. Ecotoxicology 18, 343–354

[7] Tennekes, H. A. (2010a). The significance of the Druckrey-Küpfmüller equation for risk assessment - The toxicity of neonicotinoid insecticides to arthropods is reinforced by exposure time. Toxicology 276:1–4.

[8] Tennekes, H. A., Sánchez-Bayo, F. (2013). The molecular basis of simple relationships between exposure concentration and toxic effects with time. Toxicology 309:39-51.

[9] Tennekes, H.A. (2010b). The Systemic Insecticides: A Disaster in the Making, ETS Nederland BV, Zutphen. www.disasterinthemaking.com.

[10] Van Dijk, T. C., Van Staalduinen, M. A., Van der Sluijs, J. P. (2013). Macro-Invertebrate Decline in Surface Water Polluted with Imidacloprid. PLoS ONE 8(5): e62374. doi:10.1371/journal.pone.0062374

[11] Hallmann C.A., Foppen, R.P.B., van Turnhout, C. A. M., de Kroon, H., Jongejans, E. (2014). Declines in insectivorous birds are associated with high neonicotinoid concentrations. Nature 511:341–3.

[12] Bouchard, M.F., Chevrier, J., Harley, K.G. , Kogut, K. et al. (2011). Prenatal Exposure to Organophosphate Pesticides and IQ in 7-Year-Old Children Environ Health Perspect. 119(8): 1189–1195

[13] Rauh, V., Arunajadai, S., Horton, M., Perera, F. et al. (2011). Seven-Year Neurodevelopmental Scores and Prenatal Exposure to Chlorpyrifos, a Common Agricultural Pesticide. Environ Health Perspect. 119(8): 1196–1201

[14] Engel, S. M., Wetmur, J., Chen, J., Zhu, C. et al. (2011). Prenatal Exposure to Organophosphates, Paraoxonase 1, and Cognitive Development in Childhood. Environ Health Perspect. 119(8): 1182–1188

[15] Rauh, V.A., Garfinkel, R., Perera, F.P., Andrews, H.F., Hoepner, L., Barr, D.B., Whitehead, R., Tang, D., Whyatt, R.W. (2006). Impact of Prenatal Chlorpyrifos Exposure on Neurodevelopment in the First 3 Years of Life Among Inner-City Children. Pediatrics 118, 1845–1859

[16] Lacasana, M., Lopez-Flores, I., Rodriguez-Barranco, M., Aguilar-Garduno, C., Blanco-Munoz, J., Perez-Mendez, O. et al. (2010). Association between organophosphate pesticides exposure and thyroid hormones in floriculture workers. Toxicology and Applied Pharmacology 243: 19– 26.

[17] Zoeller, Th. (2015). Identifying EDCs for public health protection: The endocrine perspective (University of Massachusetts Amherst). Presentation on the Conference "Endocrine disruptors: criteria for identification and related impacts" – EC-SANCO, Brussels, 01 June 2015.

[18] Toft, G., Hagmar, L., Giwercman, A. and Bonde, J.P. (2004). Epidemiological evidence on reproductive effects of persistent organochlorines in humans. Reproductive Toxicology 19: 5– 26.

[19] Du, G., Shen, O., Sun, H., Fei, J., Lu, C., Song L, et al. (2010). Assessing hormone receptor activities of pyrethroid insecticides and their metabolites in reporter gene assays. Toxicological Sciences 116(1): 58–66.

[20] Meeker, J.D., Barr, D.B. and Hauser, R. (2009). Pyrethroid insecticide metabolites ressociated with serum hormone levels in adult men. Reproductive Toxicology 27: 155–160.

[21] Sekeroglu V, Atlı Sekeroglu Z and Demirhan̆, E.S. (2014). Effects of commercial formulations of deltamethrin and/or thiacloprid on thyroid hormone levels in rat serum. Toxicology and Industrial Health 2014, Vol. 30(1) 40–46

[22] Vandenberg, L.N., Colborn, T., Hayes, T.B., Heindel, J.J., Jacobs, D.R. Jr., Lee D.H., Shioda, T., Soto, A.M., vom Saal F.S., Welshons, R.V., Zoeller, R.Th. and Myers J. P. (2012). Hormones and endocrine-disrupting chemicals: Low-dose effects and nonmonotonic dose responses. Endocr Rev 33: 378–455.

[23] Endocrine Society (2015). Society Submits Comments to European Commission on Identifying and Assessing EDCs; Statement der ‹Endocrine Society› vom 29. Januar 2015 – on-line (17/09/2015): www.endocrine.org/membership/email-newsletters/endocrine-insider/2015/january-29-2015/society-submits-comments-to-european-commission-on-identifying-and-assessing-edcs

[24] Latham, J. (2014). EU Safety Institutions Caught Plotting an Industry «escape route» Around Looming Pesticide Ban. Independent Science News, May 26, 2014 – on-line (17/09/2015): www.independentsciencenews.org/news/eu-safety-institutions-caught-plotting-an-industry-escape-route-around-looming-pesticide-ban/

[25] Neslen, A. (2015). ‹Suppressed› EU report could have banned pesticides worth billions. The Guardian, February 2, 2015 – on-line (17/09/2015): www.theguardian.com/environment/2015/feb/02/suppressed-eu-report-could-have-banned-pesticides-worth-billions

[26] Neslen, A. (2015). Health costs of hormone disrupting chemicals over €150bn a year in Europe, says study. The Guardian, May 6,2015 – on-line (17/09/2015): www.theguardian.com/environment/2015/mar/06/health-costs-hormone-disrupting-chemicals-150bn-a-year-europe-says-study

[27] Hamlyn, O. (2015). Sustainability and the Failure of Ambition in European Pesticides Regulation. J Environmental Law (2015) doi: 10.1093/jel/eqv021