Role of Organic Matter, Iron Oxides and Aluminosilicate Content on Physicochemical Interactions between Ciprofloxacin and Andisol Soil

dc.article.number949469
dc.contributor.authorUrdiales, Cristian
dc.contributor.authorVaras Gutiérrez, Mauricio Janssen
dc.contributor.authorSuazo-Hernández, Jonathan
dc.contributor.authorPizarro, Carmen
dc.contributor.authorEscudey, Mauricio
dc.contributor.authorCaceres-Jensen, Lizethly
dc.contributor.authorAntilen Lizana, Mónica Paulina
dc.date.accessioned2025-05-01T10:32:51Z
dc.date.available2025-05-01T10:32:51Z
dc.date.issued2025
dc.description.abstractPurpose The widespread use of antibiotics to treat infectious diseases in humans and animals has raised signifcant environmental concerns due to their presence in soils. The interaction between natural aluminosilicates such as allophane, both with and without iron oxides (FexOy) and organic matter (OM) coatings, in the adsorption of Ciprofoxacin (CIP) remains still unexplored. The objective of this study is to establish the role of diferent soil components, OM and FexOy, in the adsorption of CIP in soils. Methods Santa Bárbara (SB) series soil and chemically treated substrates without OM (SB1) and without OM and FexOy (SB2) were characterized. All CIP adsorption studies were conducted through batch experiments in an electrochemical cell, by using square wave voltammetry to determine CIP concentration. Results Adsorption isotherms revealed two types of adsorption sites in the SB soil: instantaneous and time dependent. The Langmuir-Freundlich model explained cooperative adsorption, while the Freundlich model aligned with SB1 and SB2 samples. SB1 showed higher adsorption capacity but lower intensity than SB2. The removal of OM and FexOy notably infuences the adsorption behavior, resulting in lower capacities than the original SB soil. Conclusions This study emphasizes the complex interaction between CIP and soil components. The adsorption data highlights the strong binding of CIP to soil particles and substrates, suggesting a low leaching potential. The calculated GUS index of 2.758 further supports this, indicating a moderate leaching potential and reinforcing the importance of understanding the strength of CIP binding in environmental matrices. This knowledge is crucial for assessing its mobility and developing strategies to minimize its environmental impact.
dc.description.funderANID/Fondecyt project No. 1210801; ANID and Basal Funding for Scientifc and Technological Centers of Excellence FB0807 Cedenna ANID; ANID/Fondecyt No. 1210801; CEDENNA FB0807, Dr Mónica Antilen.
dc.format.extent14 páginas
dc.fuente.origenWOS
dc.identifier.doi10.1007/s42729-025-02224-2
dc.identifier.eisbn9781665444347
dc.identifier.eissn0718-9516
dc.identifier.isbn978-1-0716-1533-1
dc.identifier.issn0718-9508
dc.identifier.pubmedid36225231
dc.identifier.scieloidS0718-69242020000300109
dc.identifier.scopusidSCOPUS_ID:85139513220
dc.identifier.urihttps://doi.org/10.1007/s42729-025-02224-2
dc.identifier.urihttps://repositorio.uc.cl/handle/11534/103912
dc.identifier.wosidWoS_ID: 001437458900001
dc.information.autorucEscuela de Química; Antilen Lizana, Mónica Paulina; 0000-0003-0512-4267; 144275
dc.information.autorucEscuela de Química; Varas Gutiérrez, Mauricio Janssen; S/I; 1050364
dc.issue.numero2
dc.language.isoen
dc.nota.accesoContenido parcial
dc.pagina.final66
dc.pagina.inicio51
dc.publisherHUMANA PRESS INC
dc.relation.ispartofFrontiers in Cellular and Infection Microbiology
dc.revistaJournal of Soil Science and Plant Nutrition
dc.rightsacceso restringido
dc.subjectSoil organic matter
dc.subjectIron oxides
dc.subjectAntibiotics
dc.subjectEnvironmental and pollution
dc.subject.ddc600
dc.subject.deweyTecnologíaes_ES
dc.subject.ods03 Good health and well-being
dc.subject.odspa03 Salud y bienestar
dc.titleRole of Organic Matter, Iron Oxides and Aluminosilicate Content on Physicochemical Interactions between Ciprofloxacin and Andisol Soil
dc.typeartículo
dc.volumen12
sipa.codpersvinculados144275
sipa.codpersvinculados1050364
sipa.indexWOS
sipa.trazabilidadCarga WOS-SCOPUS;01-05-2025
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