Validation of a two-generational reproduction test in Daphnia magna: An interlaboratory exercise

Carlos Barata; Bruno Campos; Claudia Rivetti; Gerald A. LeBlanc; Stephanie Eytcheson; Stephanie McKnight; Marysia Tobor-Kaplon; Selinda de Vries Buitenweg; Suhyon Choi; Jinhee Choi; Elena I. Sarapultseva; Marie Agnès Coutellec; Maïra Coke; Pascal Pandard; Arnaud Chaumot; Hervé Quéau; Nicolas Delorme; Olivier Geffard; Fernando Martínez-Jerónimo; Haruna Watanabe; Norihisa Tatarazako; Isabel Lopes; João L.T. Pestana; Amadeu M.V.M. Soares; Cecilia Manuela Pereira; Karel De Schamphelaere

doi:10.1016/j.scitotenv.2016.11.066

Validation of a two-generational reproduction test in Daphnia magna: An interlaboratory exercise

Carlos Barata, Bruno Campos, Claudia Rivetti, Gerald A. LeBlanc, Stephanie Eytcheson, Stephanie McKnight, Marysia Tobor-Kaplon, Selinda de Vries Buitenweg, Suhyon Choi, Jinhee Choi, Elena I. Sarapultseva, Marie Agnès Coutellec, Maïra Coke, Pascal Pandard, Arnaud Chaumot, Hervé Quéau, Nicolas Delorme, Olivier Geffard, Fernando Martínez-Jerónimo, Haruna WatanabeNorihisa Tatarazako, Isabel Lopes, João L.T. Pestana, Amadeu M.V.M. Soares, Cecilia Manuela Pereira, Karel De Schamphelaere

Escuela Nacional de Ciencias Biológicas (ENCB)

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

Effects observed within one generation disregard potential detrimental effects that may appear across generations. Previously we have developed a two generation Daphnia magna reproduction test using the OECD TG 211 protocol with a few amendments, including initiating the second generation with third brood neonates produced from first generation individuals. Here we showed the results of an inter-laboratory calibration exercise among 12 partners that aimed to test the robustness and consistency of a two generation Daphnia magna reproduction test. Pyperonyl butoxide (PBO) was used as a test compound. Following experiments, PBO residues were determined by TQD-LC/MS/MS. Chemical analysis denoted minor deviations of measured PBO concentrations in freshly prepared and old test solutions and between real and nominal concentrations in all labs. Other test conditions (water, food, D. magna clone, type of test vessel) varied across partners as allowed in the OECD test guidelines. Cumulative fecundity and intrinsic population growth rates (r) were used to estimate “No observed effect concentrations “NOEC using the solvent control as the control treatment. EC₁₀ and EC-₅₀ values were obtained regression analyses. Eleven of the twelve labs succeeded in meeting the OECD criteria of producing > 60 offspring per female in control treatments during 21 days in each of the two consecutive generations. Analysis of variance partitioning of cumulative fecundity indicated a relatively good performance of most labs with most of the variance accounted for by PBO (56.4%) and PBO by interlaboratory interactions (20.2%), with multigenerational effects within and across PBO concentrations explaining about 6% of the variance. EC₅₀ values for reproduction and population growth rates were on average 16.6 and 20.8% lower among second generation individuals, respectively. In summary these results suggest that the proposed assay is reproducible but cumulative toxicity in the second generation cannot reliably be detected with this assay.

Original language	English
Pages (from-to)	1073-1083
Number of pages	11
Journal	Science of the Total Environment
Volume	579
DOIs	https://doi.org/10.1016/j.scitotenv.2016.11.066
State	Published - 1 Feb 2017

Keywords

Contaminants
Daphnia reproduction
Interlaboratory
Life-history
Multigeneration assay
OECD 211
Offspring quality

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10.1016/j.scitotenv.2016.11.066

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Barata, C., Campos, B., Rivetti, C., LeBlanc, G. A., Eytcheson, S., McKnight, S., Tobor-Kaplon, M., de Vries Buitenweg, S., Choi, S., Choi, J., Sarapultseva, E. I., Coutellec, M. A., Coke, M., Pandard, P., Chaumot, A., Quéau, H., Delorme, N., Geffard, O., Martínez-Jerónimo, F., ... De Schamphelaere, K. (2017). Validation of a two-generational reproduction test in Daphnia magna: An interlaboratory exercise. Science of the Total Environment, 579, 1073-1083. https://doi.org/10.1016/j.scitotenv.2016.11.066

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abstract = "Effects observed within one generation disregard potential detrimental effects that may appear across generations. Previously we have developed a two generation Daphnia magna reproduction test using the OECD TG 211 protocol with a few amendments, including initiating the second generation with third brood neonates produced from first generation individuals. Here we showed the results of an inter-laboratory calibration exercise among 12 partners that aimed to test the robustness and consistency of a two generation Daphnia magna reproduction test. Pyperonyl butoxide (PBO) was used as a test compound. Following experiments, PBO residues were determined by TQD-LC/MS/MS. Chemical analysis denoted minor deviations of measured PBO concentrations in freshly prepared and old test solutions and between real and nominal concentrations in all labs. Other test conditions (water, food, D. magna clone, type of test vessel) varied across partners as allowed in the OECD test guidelines. Cumulative fecundity and intrinsic population growth rates (r) were used to estimate “No observed effect concentrations “NOEC using the solvent control as the control treatment. EC10 and EC-50 values were obtained regression analyses. Eleven of the twelve labs succeeded in meeting the OECD criteria of producing > 60 offspring per female in control treatments during 21 days in each of the two consecutive generations. Analysis of variance partitioning of cumulative fecundity indicated a relatively good performance of most labs with most of the variance accounted for by PBO (56.4%) and PBO by interlaboratory interactions (20.2%), with multigenerational effects within and across PBO concentrations explaining about 6% of the variance. EC50 values for reproduction and population growth rates were on average 16.6 and 20.8% lower among second generation individuals, respectively. In summary these results suggest that the proposed assay is reproducible but cumulative toxicity in the second generation cannot reliably be detected with this assay.",

keywords = "Contaminants, Daphnia reproduction, Interlaboratory, Life-history, Multigeneration assay, OECD 211, Offspring quality",

author = "Carlos Barata and Bruno Campos and Claudia Rivetti and LeBlanc, {Gerald A.} and Stephanie Eytcheson and Stephanie McKnight and Marysia Tobor-Kaplon and {de Vries Buitenweg}, Selinda and Suhyon Choi and Jinhee Choi and Sarapultseva, {Elena I.} and Coutellec, {Marie Agn{\`e}s} and Ma{\"i}ra Coke and Pascal Pandard and Arnaud Chaumot and Herv{\'e} Qu{\'e}au and Nicolas Delorme and Olivier Geffard and Fernando Mart{\'i}nez-Jer{\'o}nimo and Haruna Watanabe and Norihisa Tatarazako and Isabel Lopes and Pestana, {Jo{\~a}o L.T.} and Soares, {Amadeu M.V.M.} and Pereira, {Cecilia Manuela} and {De Schamphelaere}, Karel",

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year = "2017",

month = feb,

day = "1",

doi = "10.1016/j.scitotenv.2016.11.066",

language = "Ingl{\'e}s",

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Barata, C, Campos, B, Rivetti, C, LeBlanc, GA, Eytcheson, S, McKnight, S, Tobor-Kaplon, M, de Vries Buitenweg, S, Choi, S, Choi, J, Sarapultseva, EI, Coutellec, MA, Coke, M, Pandard, P, Chaumot, A, Quéau, H, Delorme, N, Geffard, O, Martínez-Jerónimo, F, Watanabe, H, Tatarazako, N, Lopes, I, Pestana, JLT, Soares, AMVM, Pereira, CM & De Schamphelaere, K 2017, 'Validation of a two-generational reproduction test in Daphnia magna: An interlaboratory exercise', Science of the Total Environment, vol. 579, pp. 1073-1083. https://doi.org/10.1016/j.scitotenv.2016.11.066

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T1 - Validation of a two-generational reproduction test in Daphnia magna

T2 - An interlaboratory exercise

AU - Barata, Carlos

AU - Campos, Bruno

AU - Rivetti, Claudia

AU - LeBlanc, Gerald A.

AU - Eytcheson, Stephanie

AU - McKnight, Stephanie

AU - Tobor-Kaplon, Marysia

AU - de Vries Buitenweg, Selinda

AU - Choi, Suhyon

AU - Choi, Jinhee

AU - Sarapultseva, Elena I.

AU - Coutellec, Marie Agnès

AU - Coke, Maïra

AU - Pandard, Pascal

AU - Chaumot, Arnaud

AU - Quéau, Hervé

AU - Delorme, Nicolas

AU - Geffard, Olivier

AU - Martínez-Jerónimo, Fernando

AU - Watanabe, Haruna

AU - Tatarazako, Norihisa

AU - Lopes, Isabel

AU - Pestana, João L.T.

AU - Soares, Amadeu M.V.M.

AU - Pereira, Cecilia Manuela

AU - De Schamphelaere, Karel

PY - 2017/2/1

Y1 - 2017/2/1

N2 - Effects observed within one generation disregard potential detrimental effects that may appear across generations. Previously we have developed a two generation Daphnia magna reproduction test using the OECD TG 211 protocol with a few amendments, including initiating the second generation with third brood neonates produced from first generation individuals. Here we showed the results of an inter-laboratory calibration exercise among 12 partners that aimed to test the robustness and consistency of a two generation Daphnia magna reproduction test. Pyperonyl butoxide (PBO) was used as a test compound. Following experiments, PBO residues were determined by TQD-LC/MS/MS. Chemical analysis denoted minor deviations of measured PBO concentrations in freshly prepared and old test solutions and between real and nominal concentrations in all labs. Other test conditions (water, food, D. magna clone, type of test vessel) varied across partners as allowed in the OECD test guidelines. Cumulative fecundity and intrinsic population growth rates (r) were used to estimate “No observed effect concentrations “NOEC using the solvent control as the control treatment. EC10 and EC-50 values were obtained regression analyses. Eleven of the twelve labs succeeded in meeting the OECD criteria of producing > 60 offspring per female in control treatments during 21 days in each of the two consecutive generations. Analysis of variance partitioning of cumulative fecundity indicated a relatively good performance of most labs with most of the variance accounted for by PBO (56.4%) and PBO by interlaboratory interactions (20.2%), with multigenerational effects within and across PBO concentrations explaining about 6% of the variance. EC50 values for reproduction and population growth rates were on average 16.6 and 20.8% lower among second generation individuals, respectively. In summary these results suggest that the proposed assay is reproducible but cumulative toxicity in the second generation cannot reliably be detected with this assay.

AB - Effects observed within one generation disregard potential detrimental effects that may appear across generations. Previously we have developed a two generation Daphnia magna reproduction test using the OECD TG 211 protocol with a few amendments, including initiating the second generation with third brood neonates produced from first generation individuals. Here we showed the results of an inter-laboratory calibration exercise among 12 partners that aimed to test the robustness and consistency of a two generation Daphnia magna reproduction test. Pyperonyl butoxide (PBO) was used as a test compound. Following experiments, PBO residues were determined by TQD-LC/MS/MS. Chemical analysis denoted minor deviations of measured PBO concentrations in freshly prepared and old test solutions and between real and nominal concentrations in all labs. Other test conditions (water, food, D. magna clone, type of test vessel) varied across partners as allowed in the OECD test guidelines. Cumulative fecundity and intrinsic population growth rates (r) were used to estimate “No observed effect concentrations “NOEC using the solvent control as the control treatment. EC10 and EC-50 values were obtained regression analyses. Eleven of the twelve labs succeeded in meeting the OECD criteria of producing > 60 offspring per female in control treatments during 21 days in each of the two consecutive generations. Analysis of variance partitioning of cumulative fecundity indicated a relatively good performance of most labs with most of the variance accounted for by PBO (56.4%) and PBO by interlaboratory interactions (20.2%), with multigenerational effects within and across PBO concentrations explaining about 6% of the variance. EC50 values for reproduction and population growth rates were on average 16.6 and 20.8% lower among second generation individuals, respectively. In summary these results suggest that the proposed assay is reproducible but cumulative toxicity in the second generation cannot reliably be detected with this assay.

KW - Contaminants

KW - Daphnia reproduction

KW - Interlaboratory

KW - Life-history

KW - Multigeneration assay

KW - OECD 211

KW - Offspring quality

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U2 - 10.1016/j.scitotenv.2016.11.066

DO - 10.1016/j.scitotenv.2016.11.066

M3 - Artículo

C2 - 27908627

SN - 0048-9697

VL - 579

SP - 1073

EP - 1083

JO - Science of the Total Environment

JF - Science of the Total Environment

ER -

Validation of a two-generational reproduction test in Daphnia magna: An interlaboratory exercise

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Keywords

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