Assessing the aquatic toxicity and environmental safety of tracer compounds Rhodamine B and Rhodamine WT

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Assessing the aquatic toxicity and environmental safety of tracer compounds Rhodamine B and Rhodamine WT. / Skjolding, L. M.; Jørgensen, L. v.G.; Dyhr, K. S.; Köppl, C. J.; McKnight, U. S.; Bauer-Gottwein, P.; Mayer, P.; Bjerg, P. L.; Baun, A.

I: Water Research, Bind 197, 117109, 2021.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Skjolding, LM, Jørgensen, LVG, Dyhr, KS, Köppl, CJ, McKnight, US, Bauer-Gottwein, P, Mayer, P, Bjerg, PL & Baun, A 2021, 'Assessing the aquatic toxicity and environmental safety of tracer compounds Rhodamine B and Rhodamine WT', Water Research, bind 197, 117109. https://doi.org/10.1016/j.watres.2021.117109

APA

Skjolding, L. M., Jørgensen, L. V. G., Dyhr, K. S., Köppl, C. J., McKnight, U. S., Bauer-Gottwein, P., Mayer, P., Bjerg, P. L., & Baun, A. (2021). Assessing the aquatic toxicity and environmental safety of tracer compounds Rhodamine B and Rhodamine WT. Water Research, 197, [117109]. https://doi.org/10.1016/j.watres.2021.117109

Vancouver

Skjolding LM, Jørgensen LVG, Dyhr KS, Köppl CJ, McKnight US, Bauer-Gottwein P o.a. Assessing the aquatic toxicity and environmental safety of tracer compounds Rhodamine B and Rhodamine WT. Water Research. 2021;197. 117109. https://doi.org/10.1016/j.watres.2021.117109

Author

Skjolding, L. M. ; Jørgensen, L. v.G. ; Dyhr, K. S. ; Köppl, C. J. ; McKnight, U. S. ; Bauer-Gottwein, P. ; Mayer, P. ; Bjerg, P. L. ; Baun, A. / Assessing the aquatic toxicity and environmental safety of tracer compounds Rhodamine B and Rhodamine WT. I: Water Research. 2021 ; Bind 197.

Bibtex

@article{0d27bb393ed344e9a2bf1c7afc33ee57,
title = "Assessing the aquatic toxicity and environmental safety of tracer compounds Rhodamine B and Rhodamine WT",
abstract = "Tracer tests represent a well-established method for delineating key environmental processes in various media and engineered systems. Tracers like Rhodamine B and WT are frequently applied due to their strong fluorescence even at low concentrations. However, due to a lack of ecotoxicological data, limit values for these tracers cannot be determined. This study fills this critical data gap by providing ecotoxicity data for Rhodamine B and WT using a battery of short-term standardized tests, including growth rate inhibition tests with algae (Raphidocelis subcapitata) and lethality tests using crustaceans (Daphnia magna) and zebrafish (Danio rerio) embryos, and estimating EQS for surface water. For Rhodamine B, the effective and lethal concentration (EC50 and LC50) –causing 50% toxicity were in the range of 14–24 mg/L. For Rhodamine WT, no statistically significant effects were observed (p<0.05) at the tsted concentrations (up to 91, 100 and 200 mg/L for algae, crustaceans and fish embryos, respectively). Thus for all tested organisms, Rhodamine B was more toxic than Rhodamine WT (more than 14 times more toxic for R. subcapitata, 5.6 times for D. magna, 15 times for D. rerio embryos,based on EC10 and LC10 values). These results signify that read-across assessments using ecotoxicity data obtained with Rhodamine B is not advisable for estimating the ecotoxicity of Rhodamine WT. The annual-average quality standard (AA-QS) and maximum allowable concentration quality standard (MAC-QS) for Rhodamine B were found to be 14 and 140 µg/L, respectively. For Rhodamine WT, the corresponding values were estimated to >91 µg/L (AA-QS) and >910 µg/L (MAC-QS). Hence, concentrations below 140 µg/L or 910 µg/L for Rhodamine B and WT, respectively, are not expected to pose a risk to aquatic freshwater life in the case of intermittent discharges, e.g. tracer experiments released in streams.",
keywords = "Ecotoxicology, Environmental quality standard, Flourescent tracers, Optical mapping, Water framework directive",
author = "Skjolding, {L. M.} and J{\o}rgensen, {L. v.G.} and Dyhr, {K. S.} and K{\"o}ppl, {C. J.} and McKnight, {U. S.} and P. Bauer-Gottwein and P. Mayer and Bjerg, {P. L.} and A. Baun",
note = "Publisher Copyright: {\textcopyright} 2021",
year = "2021",
doi = "10.1016/j.watres.2021.117109",
language = "English",
volume = "197",
journal = "Water Research",
issn = "0043-1354",
publisher = "I W A Publishing",

}

RIS

TY - JOUR

T1 - Assessing the aquatic toxicity and environmental safety of tracer compounds Rhodamine B and Rhodamine WT

AU - Skjolding, L. M.

AU - Jørgensen, L. v.G.

AU - Dyhr, K. S.

AU - Köppl, C. J.

AU - McKnight, U. S.

AU - Bauer-Gottwein, P.

AU - Mayer, P.

AU - Bjerg, P. L.

AU - Baun, A.

N1 - Publisher Copyright: © 2021

PY - 2021

Y1 - 2021

N2 - Tracer tests represent a well-established method for delineating key environmental processes in various media and engineered systems. Tracers like Rhodamine B and WT are frequently applied due to their strong fluorescence even at low concentrations. However, due to a lack of ecotoxicological data, limit values for these tracers cannot be determined. This study fills this critical data gap by providing ecotoxicity data for Rhodamine B and WT using a battery of short-term standardized tests, including growth rate inhibition tests with algae (Raphidocelis subcapitata) and lethality tests using crustaceans (Daphnia magna) and zebrafish (Danio rerio) embryos, and estimating EQS for surface water. For Rhodamine B, the effective and lethal concentration (EC50 and LC50) –causing 50% toxicity were in the range of 14–24 mg/L. For Rhodamine WT, no statistically significant effects were observed (p<0.05) at the tsted concentrations (up to 91, 100 and 200 mg/L for algae, crustaceans and fish embryos, respectively). Thus for all tested organisms, Rhodamine B was more toxic than Rhodamine WT (more than 14 times more toxic for R. subcapitata, 5.6 times for D. magna, 15 times for D. rerio embryos,based on EC10 and LC10 values). These results signify that read-across assessments using ecotoxicity data obtained with Rhodamine B is not advisable for estimating the ecotoxicity of Rhodamine WT. The annual-average quality standard (AA-QS) and maximum allowable concentration quality standard (MAC-QS) for Rhodamine B were found to be 14 and 140 µg/L, respectively. For Rhodamine WT, the corresponding values were estimated to >91 µg/L (AA-QS) and >910 µg/L (MAC-QS). Hence, concentrations below 140 µg/L or 910 µg/L for Rhodamine B and WT, respectively, are not expected to pose a risk to aquatic freshwater life in the case of intermittent discharges, e.g. tracer experiments released in streams.

AB - Tracer tests represent a well-established method for delineating key environmental processes in various media and engineered systems. Tracers like Rhodamine B and WT are frequently applied due to their strong fluorescence even at low concentrations. However, due to a lack of ecotoxicological data, limit values for these tracers cannot be determined. This study fills this critical data gap by providing ecotoxicity data for Rhodamine B and WT using a battery of short-term standardized tests, including growth rate inhibition tests with algae (Raphidocelis subcapitata) and lethality tests using crustaceans (Daphnia magna) and zebrafish (Danio rerio) embryos, and estimating EQS for surface water. For Rhodamine B, the effective and lethal concentration (EC50 and LC50) –causing 50% toxicity were in the range of 14–24 mg/L. For Rhodamine WT, no statistically significant effects were observed (p<0.05) at the tsted concentrations (up to 91, 100 and 200 mg/L for algae, crustaceans and fish embryos, respectively). Thus for all tested organisms, Rhodamine B was more toxic than Rhodamine WT (more than 14 times more toxic for R. subcapitata, 5.6 times for D. magna, 15 times for D. rerio embryos,based on EC10 and LC10 values). These results signify that read-across assessments using ecotoxicity data obtained with Rhodamine B is not advisable for estimating the ecotoxicity of Rhodamine WT. The annual-average quality standard (AA-QS) and maximum allowable concentration quality standard (MAC-QS) for Rhodamine B were found to be 14 and 140 µg/L, respectively. For Rhodamine WT, the corresponding values were estimated to >91 µg/L (AA-QS) and >910 µg/L (MAC-QS). Hence, concentrations below 140 µg/L or 910 µg/L for Rhodamine B and WT, respectively, are not expected to pose a risk to aquatic freshwater life in the case of intermittent discharges, e.g. tracer experiments released in streams.

KW - Ecotoxicology

KW - Environmental quality standard

KW - Flourescent tracers

KW - Optical mapping

KW - Water framework directive

U2 - 10.1016/j.watres.2021.117109

DO - 10.1016/j.watres.2021.117109

M3 - Journal article

C2 - 33857893

AN - SCOPUS:85103978693

VL - 197

JO - Water Research

JF - Water Research

SN - 0043-1354

M1 - 117109

ER -

ID: 275957132