Please use this identifier to cite or link to this item: https://doi.org/10.48548/pubdata-77
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FieldValue
Original TitleExperimental data on ready biodegradability, OECD 301D (Closed Bottle Test), 2023, V1
DOI10.48548/pubdata-77
Handle20.500.14123/96
Kinds of DataLaboratory Results
Resource TypeDataset
CreatorOlsson, Oliver  0000-0003-0082-1442 (Institut für Nachhaltige Chemie (INSC), Leuphana Universität Lüneburg  02w2y2t16)
Logunova, Evgenia (Institut für Nachhaltige Chemie (INSC), Leuphana Universität Lüneburg  02w2y2t16)
Suk, Morten  0000-0002-5875-3078
Kümmerer, Klaus  0000-0003-2027-6488  118066382 (Institut für Nachhaltige Chemie (INSC), Leuphana Universität Lüneburg  02w2y2t16)
Description of the DatasetClosed Bottle Test (CBT) is a simple test to evaluate the ready biodegradability of an organic compound in the environment. It was performed according to the OECD test guidelines (OECD, 1992) using a low bacterial density (2 drops STP effluent/L), low nutrient content, and at room temperature (20 ± 1 °C) in the dark. The test system consisted of four different series, each series run in parallel. The readily biodegradable sodium acetate and the test substance used in the test were adjusted to a concentration corresponding to 5 mg L−1 theoretical oxygen demand without nitrification (ThODNH3). All test bottles were inoculated with an aliquot from the effluent of the municipal sewage treatment plant (STP) in AGL Lüneburg, Germany (144,000 inhabitant equivalents). Throughout the test, the biochemical oxygen demand (BOD) was monitored by measuring the dissolved oxygen concentration. A test compound is classified as “readily biodegradable” if biodegradation, expressed as a percentage of oxygen consumed in the test bottle, exceeds 60% within a period of 10 days after the oxygen consumption reached 10% ThOD. Toxicity was assessed by comparing oxygen consumption, as measured in the toxicity controls, with the predicted level calculated based on the oxygen consumption in the quality control and in the test bottles, respectively. Toxicity controls allow for the recognition of false negative results caused by the toxicity of the test compound against the degrading bacteria. --- Validity criteria (all must be fulfilled): (1) The difference of the double determination on day 28 must not be more than 20%. (2) The toxicity control must not be less than 25% degraded on day 14. (3) The oxygen consumption of the blank must be less than 1.5 mg/l on day 28. (4) The oxygen concentration of the test preparations must not be less than 0.5 mg/l. (5) The quality control must be 60% degraded on day 14. --- The data set includes for each tested substance: the smilescode, the biodegradation rate in % of the two test runs, the mean value of these two test results as a basis for the classification easily biodegradable, yes (1) or no (0).
MethodsExperiment (Laboratory)
KeywordsBiologische Abbaubarkeit; Experiment; Test; Nachhaltige Chemie; Klärwasser; Abwasser; Grüne Chemie; Messung; Sauerstoffgehalt; Giftigkeit; Biodegradability; Experiment; Test; Sustainable Chemistry; Sewage Water; Effluent; Green Chemistry; Assessment; Oxygen Concentration; Toxicity
Thematic ClassificationGreen Chemistry
Faculty / departmentFakultät Nachhaltigkeit
Language of the ResourceEnglish
GeolocationCountry: Germany
Region/Location: Lüneburg
Time Period of the Collection of the Data2003 - 2022
Date of Availability2024-02-14T09:31:15Z
Date of issue2024-02-14
Archiving Facility Medien- und Informationszentrum (Leuphana Universität Lüneburg  02w2y2t16)
Publication Year2024
Published byMedien- und Informationszentrum, Leuphana Universität Lüneburg
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Leuphana_CBT_data2022.csv
MD5: 50b496138c2fa26ca9a0ff9273ebf12a
License: 
open-access

58.95 kB
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Superordinate Data Collection: INSC - Biodegradability
FieldValue
Academic DisciplineNatural Sciences / Biological Chemistry and Foof Chemistry
Sustainable Chemistry
Project LeaderKümmerer, Klaus  0000-0003-2027-6488  118066382 (Institut für Nachhaltige Chemie (INSC), Leuphana Universität Lüneburg  02w2y2t16)
Olsson, Oliver  0000-0003-0082-1442 (Institut für Nachhaltige Chemie (INSC), Leuphana Universität Lüneburg  02w2y2t16)
Contact Informationklaus.kümmerer@leuphana.de; oliver.olsson@leuphana.de

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