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RESEARCH ARTICLE

Monod-based ‘single-data’ strategy for biodegradation screening tests

Yolanda Martín-Biosca A , Laura Escuder-Gilabert A C , Mireia Pérez-Baeza A , Salvador Sagrado A B and María José Medina-Hernández A C
+ Author Affiliations
- Author Affiliations

A Departamento de Química Analítica, Universitat de València, Burjassot, Valencia 46100, Spain.

B Instituto Interuniversitario de Investigación de Reconocimiento Molecular y Desarrollo Tecnológico (IDM), Universitat Politècnica de València, Universitat de València, Burjassot, Valencia 46100, Spain.

C Corresponding authors. Email: lescuder@uv.es; maria.j.medina@uv.es

Environmental Chemistry 17(3) 278-288 https://doi.org/10.1071/EN19171
Submitted: 13 March 2019  Accepted: 13 September 2019   Published: 12 November 2019

Environmental context. Obtaining biodegradation data over time can be difficult, especially when dealing with environmental compartments of increasing complexity. We evaluated the possibility of obtaining a full biodegradation depletion curve from a single biodegradation-time experimental measurement, and found that environmental information related to potential chemical persistence can be derived. The applicability of this ‘single-data’ strategy is illustrated using simulated and experimental data for several compounds.

Abstract. Information obtained from biodegradability tests, e.g. half-life (t50) or kinetics parameters, is relevant in environmental risk assessment of new chemicals. In these tests, the removal of the tested compound is measured over a prefixed period of time (e.g. 28 days in ready biodegradability tests) to derive a substrate depletion curve. The implementation can be time-consuming, costly and difficult, especially when the complexity of the environmental compartment increases. In this work, the possibility of obtaining a full biodegradation depletion curve from a single biodegradation-time experimental data point (‘single-data’ strategy) was evaluated. Monod kinetics are assumed to avoid the limitations related to first-order kinetics (only valid for very low substrate concentrations). Experimental and simulated data were used to illustrate the potential of the proposed strategy. The effects on the estimates of several variables (e.g. Monod kinetics parameters, compound concentration or variability in biodegradation data) and the errors introduced to some of the variables were also evaluated. The results suggest that the proposed strategy can be used as a rapid (based on data measured at day 7) and low-cost screening approach to anticipate the result of a biodegradability test for new chemicals. The applicability and practical limitations of the ‘single-data’ strategy have been illustrated using experimental data for several compounds ranging from readily biodegradable (e.g. benzoic acid, acetylsalicylic acid, p-toluic acid) to potentially persistent compounds (e.g. bupivacaine, p-phenitidine, phtadinitrile).

Additional keywords: chemical persistence, half-life, Monod model.


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