Fate of 14C-bisphenol A in soils

Fent, G.; Hein, Werner J; Moendel, Martin J; Kubiak, Roland

doi:10.1016/s0045-6535(03)00100-0

Cited by 93 publications

(73 citation statements)

References 12 publications

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“…Based on data for degradation of bisphenol A in water, the European Union (2003) predicted that bisphenol A would be degraded in soil and estimated a half-life of 30 days for degradation of bisphenol A in soil. Subsequent to the Staples et al (1998) and European Union (2003) reviews, a study examining fate of 14 C-bisphenol A in soils through laboratory soil degradation and batch adsorption tests was released by Fent et al (2003). In that study, 14 C-bisphenol A was dissipated and not detectable in 4 different soil types within 3 days.…”

Section: Technical Products and Impuritiesmentioning

confidence: 99%

“…Chlorinated congeners of bisphenol A resulting from chlorination of water may be degraded less rapidly (Gallard et al, 2004). Bisphenol A is not expected to be stable, mobile, or bioavailable from soils (Fent et al, 2003). A study of 222 homes and 29 day care centers found bisphenol A in 25-70% of indoor dust samples with concentrations of oLOD (20) to 707 ng/g (Wilson et al, 2006).…”

Section: Summary Of Human Exposurementioning

confidence: 99%

See 1 more Smart Citation

NTP‐CERHR expert panel report on the reproductive and developmental toxicity of bisphenol A

Chapin

Adams

Boekelheide

et al. 2008

Birth Defects Research Pt B

402

304

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Section: Technical Products and Impuritiesmentioning

confidence: 99%

Section: Summary Of Human Exposurementioning

confidence: 99%

NTP‐CERHR expert panel report on the reproductive and developmental toxicity of bisphenol A

Chapin

Adams

Boekelheide

et al. 2008

Birth Defects Research Pt B

402

304

View full text Add to dashboard Cite

“…Various methods have been suggested to remove BPA from water, such as biological method [9][10][11][12], chemical oxidation [13][14], electrochemical oxidation [15] and photocatalytic method [16,17]. Among them, photocatalysis has been the focus of numerous investigations in recent years for the potential use sunlight as the energy source to degrade pollutions [18,19].…”

Section: Introductionmentioning

confidence: 99%

Rapid degradation of bisphenol A using air as the oxidant catalyzed by polynuclear phthalocyanine complexes under visible light irradiation

Tai

Jiang

Liu

et al. 2005

Journal of Photochemistry and Photobiology A: Chemistry

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“…Increasing the concentration of mud to 10 mg L -1 increased the mortality of snails to be 70 % by using concentration of LC 50 of PBA. This could be because the BPA had a moderate affinity for soil organic matter and is therefore unlikely to be mobile or bioavailable in soils than water column [32]. The half-life of BPA in soils has been estimated as 3 days [32], 7 days [33], and 37.5 days [34].…”

Section: Discussionmentioning

confidence: 99%

“…This could be because the BPA had a moderate affinity for soil organic matter and is therefore unlikely to be mobile or bioavailable in soils than water column [32]. The half-life of BPA in soils has been estimated as 3 days [32], 7 days [33], and 37.5 days [34]. Increasing the concentration of mud caused increasing the toxicity of BPA on the snails.…”

Section: Discussionmentioning

confidence: 99%

Factors Affecting Lethality of Bisphenol a on Biomphalaria alexandrina Snails

Mansour¹,

Soliman²,

Deeb³

et al. 2016

Int J Vet Sci Res

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The present study was undertaken to investigate the influence of some environmental factors including temperature, water vegetation, bed mud and pH on LC 50, LC 90 and LT 50 of bisphenol A (BPA) on the snail host of Schistosoma mansoni, Biomphalaria alexandrina. Effects of exposure to the sublethal concentrations of BPA on some biological aspects of the snails and on the cercarial output form S. mansoni infected snails were studied. Results showed that temperature, water vegetation, bed mud and pH markedly affected the lethality of BPA. The biological parameters of B. alexandrina including survival rate, egg hatchability and egg laying capacity were greatly affected by exposure to BPA and the response was dose dependent. Regarding the possible effect of BPA on transmission of schistosomiasis, results showed that exposure to different concentration of BPA for 7 days before miracidial infection caused the death of all the snails before reaching the patent period while, no cercarial output was recorded from snails exposed to BPA for 24 hrs till their death. In conclusion, our results showed that the environmental characteristics may alter the biological impacts of BPA and the exposure of snail to BPA may affect the transmission of schistosomiasis.organs, enlarged sex glands, oviduct deformities, and increased fecundity), oviduct rupture, and mortality [12]. In the mollusk Mytilus edulis, spawning induction, as well as oocyte and ovarian follicle damage, was observed following BPA exposure for 3 weeks at 50.0 mg L -1 [13]. The effect of BPA appears to vary considerably among related taxa, and it appears that some invertebrates may be hypersensitive to BPA exposure (freshwater molluscs and insect larvae, and marine copepods in particular).The present study was undertaken to investigate the influence of some environmental factors including temperature, water vegetation, bed mud and pH on the effect of bisphenol A on the fresh water snails, B. alexandrina and consequently the transmission of schistosomiasis. The possible effect of BPA on the Schistosoma cercarial output form the snails was also studied. Materials and MethodsMaintenance and rearing of B. alexandrina snails B. alexandrina snails were collected from fresh water canals in Warrak El-Arab village, Giza Governorate. The collected snails were maintained in glass tank filled with dechlorinated tap water under constant temperature (25 ± 2 ºC) with diurnal alteration and fed on dried lettuce leaves for at least three weeks before being used for the following experiments. Maintenance and rearing of the snails were done according to [14]. Determination of LC 50, LC 90 and LT 50 of bisphenol A against B. alexandrina snailsBisphenol A (4,4´-isopropylidinedi-phenol) was purchased from Sigma Aldrich Company, Germany. Stock solution of BPA (100 mg L -1 ) was prepared according to the method of [15]. A series of IntroductionStudying the environmental conditions related to the occurrence of snail intermediate host can provide valuable information on its breeding s...

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Fate of 14C-bisphenol A in soils

Cited by 93 publications

References 12 publications

NTP‐CERHR expert panel report on the reproductive and developmental toxicity of bisphenol A

NTP‐CERHR expert panel report on the reproductive and developmental toxicity of bisphenol A

Rapid degradation of bisphenol A using air as the oxidant catalyzed by polynuclear phthalocyanine complexes under visible light irradiation

Factors Affecting Lethality of Bisphenol a on Biomphalaria alexandrina Snails

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