SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4234354002> ?p ?o ?g. }

Showing items 1 to 100 of ±154 with 100 items per page.

W4234354002 endingPage "222" @default.
W4234354002 startingPage "207" @default.
W4234354002 abstract "It is now well established that there is a diverse array of chemicals discharged into the environment that can mimic or antagonise the action of hormones. These endocrine-disrupting chemicals (EDCs) can thus interact with physiological systems and cause alterations in development, growth and reproduction in wildlife that are exposed to them. As yet, however, there is little information on the relative sensitivities of different wildlife groups to these chemicals and/or mixtures of them (e.g. estrogenic effluents) and hence, there are fundamental shortfalls in our knowledge of the ecological importance of endocrine disruption in wildlife. In this study, the effects of exposure to individual estrogenic chemicals (17α-ethinylestradiol; EE2, bisphenol-A, and 4-tert octylphenol) and a mixture containing these chemicals (treated sewage effluent) on embryo production in the prosobranch mollusc, Potamopyrgus antipodarum, were studied and compared with the effects of EE2 and the same estrogenic effluent on vitellogenin induction and/or egg production in various species of freshwater fish (fathead minnow; Pimaphales promelas, rainbow trout (Oncorhynchus mykiss); Cyprinus carpio, carp; Cyprinus carpio). The lab-based studies demonstrated that all of the tested chemicals (known to be estrogenic and to cause reproductive effects in fish) also affected embryo production in P. antipodarum. Furthermore, exposure to EE2 induced similar reproductive responses in the snails as in the fathead minnow (Pimephales promelas), stimulating egg/embryo production at low doses (up to 1 ng/l in the minnow and 25 ng/l in the snail) and causing inhibitory effects at higher doses. A similar pattern of embryo production occurred in P. antipodarum when it was exposed to a graded concentration of treated sewage effluent containing mixtures of estrogenic EDCs and hence, the total number of new embryos produced by the snails increased steadily over the 9 weeks exposure period in treated snails. Plasma vitellogenin concentrations in two species of male fish (the rainbow trout and the carp) also increased over the same time period. These data indicate that both the nature of the response and the relative sensitivities to environmental estrogens in P. antipodarum and three different fish species fish are comparable. P. antipodarum is thus, potentially a sensitive test organism for assessing estrogenicity of chemicals with a relevance to their activity in vertebrates." @default.
W4234354002 created "2022-05-12" @default.
W4234354002 creator A5002043611 @default.
W4234354002 creator A5002493080 @default.
W4234354002 creator A5013824657 @default.
W4234354002 creator A5039046783 @default.
W4234354002 creator A5046991673 @default.
W4234354002 creator A5058442853 @default.
W4234354002 creator A5062434594 @default.
W4234354002 creator A5063375656 @default.
W4234354002 creator A5070546771 @default.
W4234354002 date "2004-02-01" @default.
W4234354002 modified "2023-10-17" @default.
W4234354002 title "Comparative responses of molluscs and fish to environmental estrogens and an estrogenic effluent" @default.
W4234354002 cites W1966110694 @default.
W4234354002 cites W1966871799 @default.
W4234354002 cites W1968614586 @default.
W4234354002 cites W1968742062 @default.
W4234354002 cites W1970522623 @default.
W4234354002 cites W1977784819 @default.
W4234354002 cites W1980867160 @default.
W4234354002 cites W1983028563 @default.
W4234354002 cites W1988757070 @default.
W4234354002 cites W1992775166 @default.
W4234354002 cites W1993512615 @default.
W4234354002 cites W1995202257 @default.
W4234354002 cites W1995725317 @default.
W4234354002 cites W1999156812 @default.
W4234354002 cites W2002481914 @default.
W4234354002 cites W2007202187 @default.
W4234354002 cites W2007992296 @default.
W4234354002 cites W2016753270 @default.
W4234354002 cites W2020831992 @default.
W4234354002 cites W2023346591 @default.
W4234354002 cites W2023704290 @default.
W4234354002 cites W2024957336 @default.
W4234354002 cites W2026302267 @default.
W4234354002 cites W2035317503 @default.
W4234354002 cites W2041932804 @default.
W4234354002 cites W2045814511 @default.
W4234354002 cites W2052029064 @default.
W4234354002 cites W2055688295 @default.
W4234354002 cites W2058355606 @default.
W4234354002 cites W2059174999 @default.
W4234354002 cites W2068809017 @default.
W4234354002 cites W2070590173 @default.
W4234354002 cites W2071553648 @default.
W4234354002 cites W2077550918 @default.
W4234354002 cites W2083636957 @default.
W4234354002 cites W2088636593 @default.
W4234354002 cites W2091458210 @default.
W4234354002 cites W2092426109 @default.
W4234354002 cites W2093091731 @default.
W4234354002 cites W2101594720 @default.
W4234354002 cites W2120725343 @default.
W4234354002 cites W2153429641 @default.
W4234354002 cites W2165892441 @default.
W4234354002 cites W2188569556 @default.
W4234354002 cites W282628544 @default.
W4234354002 cites W4246053793 @default.
W4234354002 cites W4254306379 @default.
W4234354002 cites W4255004503 @default.
W4234354002 cites W4255487033 @default.
W4234354002 cites W4255789158 @default.
W4234354002 doi "https://doi.org/10.1016/j.aquatox.2004.01.002" @default.
W4234354002 hasPublicationYear "2004" @default.
W4234354002 type Work @default.
W4234354002 citedByCount "147" @default.
W4234354002 countsByYear W42343540022012 @default.
W4234354002 countsByYear W42343540022013 @default.
W4234354002 countsByYear W42343540022014 @default.
W4234354002 countsByYear W42343540022015 @default.
W4234354002 countsByYear W42343540022016 @default.
W4234354002 countsByYear W42343540022017 @default.
W4234354002 countsByYear W42343540022018 @default.
W4234354002 countsByYear W42343540022019 @default.
W4234354002 countsByYear W42343540022020 @default.
W4234354002 countsByYear W42343540022021 @default.
W4234354002 countsByYear W42343540022023 @default.
W4234354002 crossrefType "journal-article" @default.
W4234354002 hasAuthorship W4234354002A5002043611 @default.
W4234354002 hasAuthorship W4234354002A5002493080 @default.
W4234354002 hasAuthorship W4234354002A5013824657 @default.
W4234354002 hasAuthorship W4234354002A5039046783 @default.
W4234354002 hasAuthorship W4234354002A5046991673 @default.
W4234354002 hasAuthorship W4234354002A5058442853 @default.
W4234354002 hasAuthorship W4234354002A5062434594 @default.
W4234354002 hasAuthorship W4234354002A5063375656 @default.
W4234354002 hasAuthorship W4234354002A5070546771 @default.
W4234354002 hasBestOaLocation W42343540021 @default.
W4234354002 hasConcept C115346097 @default.
W4234354002 hasConcept C115448650 @default.
W4234354002 hasConcept C134018914 @default.
W4234354002 hasConcept C181199279 @default.
W4234354002 hasConcept C18903297 @default.
W4234354002 hasConcept C2776451064 @default.
W4234354002 hasConcept C2778891732 @default.
W4234354002 hasConcept C2779078696 @default.