Dissipation of pterosin B in acid soils - tracking the fate of the bracken fern carcinogen ptaquiloside

Department of Plant and Environmental Sciences

Dissipation of pterosin B in acid soils - tracking the fate of the bracken fern carcinogen ptaquiloside

Research output: Contribution to journal › Journal article › Research › peer-review

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Dissipation of pterosin B in acid soils - tracking the fate of the bracken fern carcinogen ptaquiloside. / Skourti-Stathaki, Eirini; Clauson-Kaas, Frederik; Brandt, Kristian Koefoed; Rasmussen, Lars Holm; Hansen, Hans Chr. Bruun.

In: Chemosphere, Vol. 165, 2016, p. 453-459.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Skourti-Stathaki, E, Clauson-Kaas, F, Brandt, KK, Rasmussen, LH & Hansen, HCB 2016, 'Dissipation of pterosin B in acid soils - tracking the fate of the bracken fern carcinogen ptaquiloside', Chemosphere, vol. 165, pp. 453-459. https://doi.org/10.1016/j.chemosphere.2016.09.050

APA

Skourti-Stathaki, E., Clauson-Kaas, F., Brandt, K. K., Rasmussen, L. H., & Hansen, H. C. B. (2016). Dissipation of pterosin B in acid soils - tracking the fate of the bracken fern carcinogen ptaquiloside. Chemosphere, 165, 453-459. https://doi.org/10.1016/j.chemosphere.2016.09.050

Vancouver

Skourti-Stathaki E, Clauson-Kaas F, Brandt KK, Rasmussen LH, Hansen HCB. Dissipation of pterosin B in acid soils - tracking the fate of the bracken fern carcinogen ptaquiloside. Chemosphere. 2016;165:453-459. https://doi.org/10.1016/j.chemosphere.2016.09.050

Author

Skourti-Stathaki, Eirini ; Clauson-Kaas, Frederik ; Brandt, Kristian Koefoed ; Rasmussen, Lars Holm ; Hansen, Hans Chr. Bruun. / Dissipation of pterosin B in acid soils - tracking the fate of the bracken fern carcinogen ptaquiloside. In: Chemosphere. 2016 ; Vol. 165. pp. 453-459.

Bibtex

@article{93ba730ac6c54284b2946c51c32fcde8,

title = "Dissipation of pterosin B in acid soils - tracking the fate of the bracken fern carcinogen ptaquiloside",

abstract = "Bracken ferns (Pteridium spp.) are well-known for their carcinogenic properties, which are ascribed to the content of ptaquiloside and ptaquiloside-like substances. Ptaquiloside leach from the ferns and may cause contamination of drinking water. Pterosin B is formed by hydrolysis of ptaquiloside. In soil, Pterosin B is adsorbed more strongly and it is expected to have a slower turnover than ptaquiloside. We thus hypothesized that pterosin B may serve as an indicator for any past presence of ptaquiloside. Pterosin B degradation was studied in acid forest soils from bracken-covered and bracken-free areas. Soil samples were incubated with pterosin B at 3 and 8 μg g(-1) for 10 days, whereas sterile (autoclaved) samples were incubated for 23 days. Pterosin B showed unexpected fast degradation in soils with full degradation in topsoils in 2-5 days. Pterosin B dissipation followed the sum of two-first order reactions. The initial fast reaction with half-lives of 0.7-3.5 h contributed 11-59% of the total pterosin B degradation, while the slow reaction was 20-100 times slower than the fast reaction. Total dissipation half-lives were shorter for loamy sand (4 h) than for sandy loam soils (28 h). No degradation of pterosin B took place under sterile conditions assuming observed dissipation during the first 3 h could be attributed to irreversible sorption. Our results demonstrate that pterosin B is microbially degraded and that pterosin B is as unstable as ptaquiloside and hence cannot be used as an indicator for former presence of ptaquiloside in soil.",

author = "Eirini Skourti-Stathaki and Frederik Clauson-Kaas and Brandt, {Kristian Koefoed} and Rasmussen, {Lars Holm} and Hansen, {Hans Chr. Bruun}",

year = "2016",

doi = "10.1016/j.chemosphere.2016.09.050",

language = "English",

volume = "165",

pages = "453--459",

journal = "Chemosphere",

issn = "0045-6535",

publisher = "Pergamon Press",

}

RIS

TY - JOUR

T1 - Dissipation of pterosin B in acid soils - tracking the fate of the bracken fern carcinogen ptaquiloside

AU - Skourti-Stathaki, Eirini

AU - Clauson-Kaas, Frederik

AU - Brandt, Kristian Koefoed

AU - Rasmussen, Lars Holm

AU - Hansen, Hans Chr. Bruun

PY - 2016

Y1 - 2016

N2 - Bracken ferns (Pteridium spp.) are well-known for their carcinogenic properties, which are ascribed to the content of ptaquiloside and ptaquiloside-like substances. Ptaquiloside leach from the ferns and may cause contamination of drinking water. Pterosin B is formed by hydrolysis of ptaquiloside. In soil, Pterosin B is adsorbed more strongly and it is expected to have a slower turnover than ptaquiloside. We thus hypothesized that pterosin B may serve as an indicator for any past presence of ptaquiloside. Pterosin B degradation was studied in acid forest soils from bracken-covered and bracken-free areas. Soil samples were incubated with pterosin B at 3 and 8 μg g(-1) for 10 days, whereas sterile (autoclaved) samples were incubated for 23 days. Pterosin B showed unexpected fast degradation in soils with full degradation in topsoils in 2-5 days. Pterosin B dissipation followed the sum of two-first order reactions. The initial fast reaction with half-lives of 0.7-3.5 h contributed 11-59% of the total pterosin B degradation, while the slow reaction was 20-100 times slower than the fast reaction. Total dissipation half-lives were shorter for loamy sand (4 h) than for sandy loam soils (28 h). No degradation of pterosin B took place under sterile conditions assuming observed dissipation during the first 3 h could be attributed to irreversible sorption. Our results demonstrate that pterosin B is microbially degraded and that pterosin B is as unstable as ptaquiloside and hence cannot be used as an indicator for former presence of ptaquiloside in soil.

AB - Bracken ferns (Pteridium spp.) are well-known for their carcinogenic properties, which are ascribed to the content of ptaquiloside and ptaquiloside-like substances. Ptaquiloside leach from the ferns and may cause contamination of drinking water. Pterosin B is formed by hydrolysis of ptaquiloside. In soil, Pterosin B is adsorbed more strongly and it is expected to have a slower turnover than ptaquiloside. We thus hypothesized that pterosin B may serve as an indicator for any past presence of ptaquiloside. Pterosin B degradation was studied in acid forest soils from bracken-covered and bracken-free areas. Soil samples were incubated with pterosin B at 3 and 8 μg g(-1) for 10 days, whereas sterile (autoclaved) samples were incubated for 23 days. Pterosin B showed unexpected fast degradation in soils with full degradation in topsoils in 2-5 days. Pterosin B dissipation followed the sum of two-first order reactions. The initial fast reaction with half-lives of 0.7-3.5 h contributed 11-59% of the total pterosin B degradation, while the slow reaction was 20-100 times slower than the fast reaction. Total dissipation half-lives were shorter for loamy sand (4 h) than for sandy loam soils (28 h). No degradation of pterosin B took place under sterile conditions assuming observed dissipation during the first 3 h could be attributed to irreversible sorption. Our results demonstrate that pterosin B is microbially degraded and that pterosin B is as unstable as ptaquiloside and hence cannot be used as an indicator for former presence of ptaquiloside in soil.

U2 - 10.1016/j.chemosphere.2016.09.050

DO - 10.1016/j.chemosphere.2016.09.050

M3 - Journal article

C2 - 27677121

VL - 165

SP - 453

EP - 459

JO - Chemosphere

JF - Chemosphere

SN - 0045-6535

ER -

ID: 169102999