Integrating bioavailability measurements in persistence testing of partially biodegradable organic chemicals in soil

Rosa Posada-Baquero; Carmen Fernández-López; Dieter Hennecke; Jose-Julio Ortega-Calvo

doi:10.1016/j.scitotenv.2023.168460

Integrating bioavailability measurements in persistence testing of partially biodegradable organic chemicals in soil

Sci Total Environ. 2024 Jan 20:909:168460. doi: 10.1016/j.scitotenv.2023.168460. Epub 2023 Nov 11.

Authors

Rosa Posada-Baquero¹, Carmen Fernández-López², Dieter Hennecke³, Jose-Julio Ortega-Calvo⁴

Affiliations

¹ Instituto de Recursos Naturales y Agrobiología (IRNAS), C.S.I.C., Avenida Reina Mercedes, 10, E-41012 Seville, Spain.
² Centro Universitario de la Defensa, Universidad Politécnica de Cartagena, C/Coronel López Peña S/N, Santiago de La Ribera, 30720 Murcia, Spain.
³ Fraunhover Institute for Molecular Biology and Applied Ecology, Auf dem Aberg Schmallenberg, Germany.
⁴ Instituto de Recursos Naturales y Agrobiología (IRNAS), C.S.I.C., Avenida Reina Mercedes, 10, E-41012 Seville, Spain. Electronic address: jjortega@irnase.csic.es.

PMID: 37956845
DOI: 10.1016/j.scitotenv.2023.168460

Abstract

Overestimation of risk is one of the main problems in environmental risk assessments if only total concentration of organic pollutants is considered. In this study, we integrated bioavailability measurements into persistence testing of pollutants in soil to show that it is the key to have a more realistic environmental risk assessment (ERA). To this integration, two standardized methods were used: OECD 307, as persistence test, and ISO 16751: 2020, to bioavailability measurements based on 20 h extractions with a strong adsorbent (Tenax), using pyrene and carbamazepine as model test substances. Because the ISO method was initially designed for nonpolar compounds with log K_ow > 3, a slight adaptation was necessary for carbamazepine (log K_ow = 2.7), assuming this also as an extension of the applicability domain of the method. During the biodegradation of these compounds, the mineralization extents did not exceed 4 %, giving rise to transformation products. Therefore, the bioavailability measurements covered both the parent compound and the metabolites produced. In the case of pyrene, the partial transformation carried out by a specialized microbial inoculum accounted for, respectively, 32 % or 40 % of the initial concentration (4 mg kg^-1) in unamended or compost-amended soil. Only 1 % was present as hydrophilic transformation products that were not trapped by Tenax, but partitioned into the water. The nonbioavailable residue increased in both soils after biodegradation. The distribution of chemicals in the different phases of the system was the key to assess more realistically the shifts in bioavailability during persistence testing. The same procedure was carried out for carbamazepine where an additional desorption study showed a slower desorption rate of the parent compound after incubation. In this case, 25 % of transformation products was mobilized to the aqueous phase. Our results show that bioavailability measurements provide valuable information when integrated in persistence testing, therefore contributing to realism in prospective ERA scenarios.

Keywords: Bioavailability; Biodegradation; Organic chemicals; Risk; Standardization.

MeSH terms

Biodegradation, Environmental
Biological Availability
Carbamazepine
Environmental Pollutants*
Prospective Studies
Pyrenes
Soil / chemistry
Soil Pollutants* / analysis

Substances

Soil
Soil Pollutants
pyrene
Pyrenes
Environmental Pollutants
Carbamazepine