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1. Degradation of cephalexin in the presence of pure and doped ZnS nanostructures.

   Bailón-Ruiz, Sonia; Cedeño-Mattei, Yarilyn; Torres-Torres, Kerianys; Núñez-Colón, Angelie (May 2025, Ceiba)

   The rapid discharge of antibiotic pollutants from pharmaceutical industries into natural water sources poses a significant threat to human health and the environment. Conventional water treatment methods often fail to effectively remove these contaminants, leading to a pressing need for eco-friendly degradation approaches. This study focused on synthesizing pure and iron-doped zinc sulfide (ZnS) nanoparticles using a microwave-assisted technique in aqueous solution to evaluate their photocatalytic efficiency in degrading the antibiotic cephalexin. High-resolution transmission electron microscopy (TEM) characterized the synthesized nanoparticles, revealing crystalline structures approximately 5 nm in size. The photocatalytic capacity was assessed using a spectrophotometric method, demonstrating that both pure and iron-doped ZnS nanostructures exhibit higher efficiency in degrading cephalexin under UV irradiation. These findings underscore the potential of ZnS nanostructures for photocatalytic applications in environmental remediation, particularly in degrading resistant antibiotic pollutants, highlighting their role in addressing organic pollution in water sources. 

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2. ContaminOSO: Ontological Foundations and Design Choices for an Ontology for Environmental Contamination Data

   https://doi.org/10.3233/FAIA250501  

   Hahmann, Torsten; Schweikert, Katrina; Stephen, Shirly; Kedrowski, David (August 2025, IOS Press)

   Prince_Sales, Tiago; Masolo, Claudio; Keet, Maria (Ed.)

   Contamination by heavy metals, per- and polyfluoroalkyl substances (PFAS), and other emerging pollutants poses serious risks to environmental and human health. Effective monitoring and tracing require integrating data from diverse sources. A knowledge graph approach enables semantic integration, but relies on an ontology that supports intuitive and robust querying and reasoning. To address this, we present the Contaminant Observations and Samples Ontology (ContaminOSO), a framework for semantically enriching environmental contaminant data. Built on SOSA and QUDT ontologies, ContaminOSO introduces key extensions to meet contamination-specific needs and real-world data challenges. This paper highlights four of its core design solutions: (1) extending SOSA to model multiple features of interest; (2) using QUDT to standardize the representation of contaminants and observed properties; (3) developing a detailed and nuanced pattern for measurement result representation using QUDT and STAD; and (4) adopting a pragmatic approach for connecting to existing taxonomies from the OBO Foundry, such as the NCBI organismal classification and relevant subsets of the Food Ontology (FoodOn), for classifying samples. 

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3. Combating small molecule environmental contaminants: detection and sequestration using functional nucleic acids

   https://doi.org/10.1039/D2SC00117A  

   Sanford, Aimee A.; Manuel, Brea A.; Romero-Reyes, Misael A.; Heemstra, Jennifer M. (July 2022, Chemical Science)

   Small molecule contaminants pose a significant threat to the environment and human health. While regulations are in place for allowed limits in many countries, detection and remediation of contaminants in more resource-limited settings and everyday environmental sources remains a challenge. Functional nucleic acids, including aptamers and DNA enzymes, have emerged as powerful options for addressing this challenge due to their ability to non-covalently interact with small molecule targets. The goal of this perspective is to outline recent efforts toward the selection of aptamers for small molecules and describe their subsequent implementation for environmental applications. Finally, we provide an outlook that addresses barriers that hinder these technologies from being widely adopted in field friendly settings and propose a path forward toward addressing these challenges. 

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4. Recent Trends and Advances of Co3O4 Nanoparticles in Environmental Remediation of Bacteria in Wastewater

   https://doi.org/10.3390/nano12071129  

   Anele, Anuoluwapo; Obare, Sherine; Wei, Jianjun (April 2022, Nanomaterials)

   Antibiotic resistance is a formidable global threat. Wastewater is a contributing factor to the prevalence of antibiotic-resistant bacteria and genes in the environment. There is increased interest evident from research trends in exploring nanoparticles for the remediation of antibiotic-resistant bacteria. Cobalt oxide (Co3O4) nanoparticles have various technological, biomedical, and environmental applications. Beyond the environmental remediation applications of degradation or adsorption of dyes and organic pollutants, there is emerging research interest in the environmental remediation potential of Co3O4 nanoparticles and its nanocomposites on antibiotic-resistant and/or pathogenic bacteria. This review focuses on the recent trends and advances in remediation using Co3O4 nanoparticles and its nanocomposites on antibiotic-resistant or pathogenic bacteria from wastewater. Additionally, challenges and future directions that need to be addressed are discussed. 

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5. Formerly used defense sites on Unalaska Island, Alaska: Mapping a legacy of environmental pollution

   https://doi.org/10.1002/ieam.4902  

   Jordan‐Ward, Renee; von Hippel, Frank A.; Schmidt, Jennifer; Verhougstraete, Marc P. (February 2024, Integrated Environmental Assessment and Management)

   Abstract Unalaska Island, Alaska, served as a US military base during World War II. The military installed bases on Unalaska and nearby islands, many of which were built adjacent to Unangan communities. The military used toxic compounds in its operations and left a legacy of pollution that may pose health risks to residents and local wildlife. The goals of this study were to identify hotspots of contamination remaining at Unalaska formerly used defense (FUD) sites, evaluate the risk posed by arsenic, and examine “no US Department of Defense action indicated” (NDAI) status determinations for FUD sites near communities. We compiled soil chemistry data from remediation reports prepared by the US Army Corps of Engineers at 18 FUD sites on and near Unalaska. Nine had past and/or active remediation projects and on‐site sampling data. Eight sites did not have sampling data and were characterized as NDAI. One site was listed as closed. For the nine sites with sampling data, we compiled data for 22 contaminants of concern (COC) and compared concentrations to soil cleanup levels for human health (18 AAC 75.341). We mapped contaminant concentrations exceeding these levels to identify hotspots of contamination. We found that concentrations of some of the 22 COC exceeded Alaska cleanup levels despite remediation efforts, including diesel range organics, arsenic, and lead. The highest COC concentrations were at the FUD site adjacent to the City of Unalaska. A quantitative risk assessment for arsenic found that the risk of exposure through drinking water is low. We highlight concerns with NDAI designations and current remedial practices at remote FUD sites located adjacent to communities. Our data suggest the need for further remediation and monitoring efforts on Unalaska for certain contaminants and research to examine potential threats to human and animal health associated with these sites.Integr Environ Assess Manag2024;00:1–12. © 2024 SETAC 

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