Biodegradation of Bisphenol a in Aquatic Environments: River Die-Away

Klečka, Gary M.; Gonsior, Stanley J.; West, Robert; Goodwin, Patrick A.; Markham, Dan A.

doi:10.1897/1551-5028(2001)020<2725:bobaia>2.0.co;2

Cited by 45 publications

(57 citation statements)

References 5 publications

(8 reference statements)

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“…It is difficult to accurately estimate uptake efficiency for both compounds in the root exposure treatments due to their instability in the hydroponic system. Previous studies have reported that BPA and NP can quickly degrade in aqueous and soil environments due to microbial action [20,30], similar to this study. Ignoring the instability issue, the total mass uptake ranged from 0.002% (tomatoes) to 0.02% (lettuce, BPA) and 0.07% (lettuce, NP) of the total amount of both contaminants applied to both crops, with roots containing the highest concentrations of each.…”

Section: Discussionsupporting

confidence: 89%

“…For the root exposure treatment, BPA and NP were spiked directly into the hydroponic nutrient solution. BPA and NP can be degraded efficiently by microflora in aqueous and soil environments, with half-lives of 1d or less [20,30]. This short half-life was confirmed in the hydroponic system used in the current study based on several monitoring events using an HPLC equipped with a fluorescence detector (Waters Corporation, Milford, MA).…”

Section: Exposuressupporting

confidence: 57%

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Uptake and distribution of bisphenol A and nonylphenol in vegetable crops irrigated with reclaimed water

Lü

Stoffella

et al. 2015

Journal of Hazardous Materials

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h i g h l i g h t s• BPA was more uniformly distributed between roots, stems, and leaves in lettuce.• NP concentrations were highest at site of exposure for both crops.• BPA concentrations were highest at site of exposure in tomatoes only.• Estimated daily intake of BPA ranged from 8.9 to 62.9 g.• Estimated daily intake of NP ranged from 11.9 to 95.1 g. a r t i c l e i n f o t r a c tThe potential uptake and distribution of bisphenol A (BPA) and nonylphenol (NP) (from reclaimed irrigation water) in edible crops was investigated. BPA and NP were spiked into simulated reclaimed water at environmentally relevant concentrations. Two crops (lettuce, Lactuca sativa and tomato, Lycopersicon esculentum) were grown hydroponically in a greenhouse using the spiked irrigation water under two irrigation exposure scenarios (overhead foliar exposure and subsurface root exposure). BPA concentrations in tomato fruit were 26.6 ± 5.8 (root exposure) and 18.3 ± 3.5 (foliar exposure) g kg −1 , while concentrations in lettuce leaves were 80.6 ± 23.1 (root exposure) and 128.9 ± 17.4 (foliar exposure) g kg −1 . NP concentrations in tomato fruit were 46.1 ± 6.6 (root exposure) and 24.6 ± 6.4 (foliar exposure) g kg −1 , while concentrations in lettuce leaves were 144.1 ± 9.2 (root exposure) and 195.0 ± 16.9 (foliar exposure) g kg −1 . BPA was relatively mobile in lettuce plants regardless of exposure route. Limited mobility was observed for NP in both crops and BPA in tomatoes. The estimated daily intake of BPA and NP through consumption of vegetables irrigated with reclaimed water ranged from 8.9-62.9 to 11.9-95.1 g, respectively, depending on the exposure route.

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Section: Discussionsupporting

confidence: 89%

Section: Exposuressupporting

confidence: 57%

Uptake and distribution of bisphenol A and nonylphenol in vegetable crops irrigated with reclaimed water

Lü

Stoffella

et al. 2015

Journal of Hazardous Materials

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“…The DT 50 -values determined in this experiment correspond well to data reported in the literature (Staples et al, 1998;Ike et al, 2000;Kle´cka et al, 2001). Also the observed lag-phase, after which the rapid disappearance of BPA from the water started, has been observed in other biodegradation tests with BPA (Ike et al, 2000;Kle´cka et al, 2001).…”

Section: Discussionsupporting

confidence: 89%

Bisphenol-A in Artificial Indoor Streams: I. Fate and Effects on Aufwuchs

et al. 2004

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The disappearance (DT50) from water-phase and effects on aufwuchs of three nominal concentrations (5, 50 and 500 microg/l) of bisphenol-A (BPA) were investigated in artificial indoor streams over a period of 103 days. HPLC was used for analyses of BPA in water. Because of the disappearance of BPA from the water-phase, a pulse dosed exposure in weekly intervals was established. At the beginning of the exposure, a lag-phase of approximately 3-8 days was noted. Afterwards DT50 values (time, when 50% of initial BPA disappeared) were about 1 day with no clear trend to lower values during the experiment. The dynamics of aufwuchs was investigated on artificial substrates (unglazed ceramic tiles) in 14-day intervals and quantified by ash free dry weight (AFDW). As an ecotoxicological endpoint the area under the biomass/time curve (AUC) was calculated for: (a) the absolute AFDW-values and (b) values as percentage of start biomass (value of day-2 set as 100%). The reduction of AUC by 10% (EC10) and 50% (EC50) for absolute values was 11 microg/l (nominal: 38) and 46 microg/l (450), respectively; for values as percentage of start biomass: EC10 20 microg/l (239) and EC50 73 microg/l (806). These values are 20-70-fold lower compared to results from standard algae tests (EbC, 96 h).

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“…However, no such positive relationship between the biomass amount and BPA degradation was observed in seawater. The difference may be due to the size of bacterial cell counts that can perform the fast and complete BPA degradation, or due to the existence of other chemical degradation of BPA, such as degradation by reactive oxygen species, in seawater (Klecka et al 2001;Yonokubo 2002, 2003;Kang and Kondo 2005;Zhang et al 2007). The substrate concentration was another factor that affected BPA degradation.…”

Section: Bpa Degradation By Gram-negative Bacteriamentioning

confidence: 99%

Bacteria-mediated bisphenol A degradation

Zhang

Yin

Chen

2013

Appl Microbiol Biotechnol

171

100

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Bisphenol A (BPA) is an important monomer in the manufacture of polycarbonate plastics, food cans, and other daily used chemicals. Daily and worldwide usage of BPA and BPA-contained products led to its ubiquitous distribution in water, sediment/soil, and atmosphere. Moreover, BPA has been identified as an environmental endocrine disruptor for its estrogenic and genotoxic activity. Thus, BPA contamination in the environment is an increasingly worldwide concern, and methods to efficiently remove BPA from the environment are urgently recommended. Although many factors affect the fate of BPA in the environment, BPA degradation is mainly depended on the metabolism of bacteria. Many BPA-degrading bacteria have been identified from water, sediment/soil, and wastewater treatment plants. Metabolic pathways of BPA degradation in specific bacterial strains were proposed, based on the metabolic intermediates detected during the degradation process. In this review, the BPA-degrading bacteria were summarized, and the (proposed) BPA degradation pathway mediated by bacteria were referred.

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Biodegradation of Bisphenol a in Aquatic Environments: River Die-Away

Cited by 45 publications

References 5 publications

Uptake and distribution of bisphenol A and nonylphenol in vegetable crops irrigated with reclaimed water

Uptake and distribution of bisphenol A and nonylphenol in vegetable crops irrigated with reclaimed water

Bisphenol-A in Artificial Indoor Streams: I. Fate and Effects on Aufwuchs

Bacteria-mediated bisphenol A degradation

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