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Endocrine disrupters in the aquatic environment 总被引:1,自引:0,他引:1
Petra Stahlschmidt-Allner Bernhard Allner Jörg Römbke Thomas Knacker 《Environmental science and pollution research international》1997,4(3):155-162
Possible mechanisms to explain endocrine effects on reproduction and sex differentiation are presented for selected pharmaceuticals,
agrochemicals, industrial chemicals and plant sterols which are known to be present in the aquatic environment. Disruptions
of the hormonal coordination can be induced by xenobiotics on various levels of the hierachically organised endocrine system
of vertebrates. Phthalate plasticisers, for example, may disrupt the pituitary control of gonadal functions; prenatal/larval
exposure to synthetic estrogen impairs sex differentiation and neuroendocrine sexual determination of the central nervous
system; phenylurea herbicides block the androgen receptor; the biotransformation of weakly estrogenic plant sterol components
of paper mill wastewater (e.g. βsitosterol) may lead to androgenic compounds. The effect of hypolipidemic drugs on lipid homeostasis
(peroxysom proliferation) is transmitted via a receptor protein that seems to be closely related to the endocrine system both
functionally as well as phylogenetically; possible interferences with the neuroendocrine control of sex differentiation are
also discussed. In invertebrates, tributyltin is known to effect the biosynthesis of steroidal sexual hormones. PCBs are suspected
to be competitive inhibitors of the steroid catabolism.
In order to identify potential risks caused by chemicals to the reproductive capacities of aquatic animals and to the quality
of drinking water, methods should be established to detect endocrine disrupters at the various levels of the endocrine system. 相似文献
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Allner Bernhard von der Gönna Sabine Griebeler Eva-Maria Nikutowski Nadja Weltin Annette Stahlschmidt-Allner Petra 《Environmental science and pollution research international》2010,17(2):505-518
Background, aim, and scope
Impacts on the reproductive health of wild fish are thought to be suitable early-warning tools indicating contamination of surface waters with endocrine-disrupting compounds. Ecotoxicological assessment of these field observations depends on the availability of reliable biomarkers to enable a discrimination of natural variations of reproductive functions from anthropogenic impacts. 相似文献
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