Efficient remediation of antibiotic pollutants from the environment by innovative biochar: current updates and prospects

Katiyar, Ravi; Chen, Chiu-Wen; Singhania, Reeta Rani; Tsai, Mei-Ling; Saratale, Ganesh Dattatraya; Pandey, Ashok; Dong, Cheng-Di; Patel, Anil Kumar

doi:10.1080/21655979.2022.2108564

Cited by 17 publications

(5 citation statements)

References 142 publications

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“…3. Effect on surface microorganisms: the concentration of antibiotics at the onset can have an impact on biodegradation and soil microorganisms through modifications in enzyme activity and metabolic capacity, albeit with variability among bacterial species and their growth stages (Cycon et al 2019;Katiyar et al 2022). Additionally, bacteria attached to biochar surfaces demonstrate increased effectiveness in antibiotic degradation, as biochar provides carbon and other nutrients that facilitate microbial colonization…”

Section: Biochar Influences Antibiotic Content At Source and Thus Arg...mentioning

confidence: 99%

An updated review on how biochar may possess potential in soil ARGs control on aspects of source, fate and elimination

Li,

Lin,

Qin

et al. 2024

Biochar

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The global environmental issue of soil contamination with antibiotic-resistance genes has garnered increased attention in recent years due to its impact on ecosystems and human health. Despite this recognition, researchers face challenges in comprehensively understanding the mechanisms underlying the production and dissemination of soil resistance genes, particularly in relation to their implications for human health. This lack of understanding poses a barrier to the development of effective and precise control strategies. Biochar, a sustainable material, exhibits favorable adsorption properties characterized by its large pores and specific surface area. Therefore, we propose to explore the potential application of biochar addition in soil resistance gene management. In order to establish a solid research foundation in this area, in this paper we review the mechanisms underlying the generation and accumulation of soil resistance genes over the last decade, along with their transmission pathways and interfacial interactions. Biochar may help repair soil resistance genes by affecting factors like antibiotic levels, environmental conditions, enzymatic activity, and gene migration mechanisms, opening up new research possibilities. Graphical Abstract

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Section: Biochar Influences Antibiotic Content At Source and Thus Arg...mentioning

confidence: 99%

An updated review on how biochar may possess potential in soil ARGs control on aspects of source, fate and elimination

Li,

Lin,

Qin

et al. 2024

Biochar

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“…Antibiotic remediation technologies are crucial in reducing contamination and protecting the environment and public health [31]. Technologies that include a variety of physical, chemical, and biological approaches aimed at degrading, removing, or inactivating the antibiotics present in the analyzed matrix.…”

Section: Antibiotics Remediation Technologiesmentioning

confidence: 99%

Reviewing Perovskite Oxide-Based Materials for the Effective Treatment of Antibiotic-Polluted Environments: Challenges, Trends, and New Insights

da Silva Júnior,

de Oliveira,

Wolff Leal

et al. 2024

Surfaces

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Society confronts the pressing environmental challenges posed by the pervasive presence of toxic pollutants in aquatic ecosystems. The repercussions of contaminant release extend far and wide, endangering marine life and human well-being. While various techniques such as bioremediation, filtration, and adsorption have been employed for wastewater treatment, they grapple with cost effectiveness and overall efficiency issues. Advanced oxidative processes, including photocatalysis and Fenton, have emerged as viable solutions in response to the emerging contaminants. However, the efficacy of photocatalysis largely hinges on the choice of catalyst. Their distinctive attributes, such as chemical defects and exceptional stability, make perovskite oxides a promising catalyst. These materials can be synthesized through diverse methods, rendering them versatile and adaptable for widespread applications. Ongoing research endeavors are diligently focused on enhancing the performance of perovskite oxides, optimizing their integration into catalytic processes, and exploring innovative approaches for material immobilization. This comprehensive review seeks to elucidate the most pivotal advances in perovskite oxides and their composites within the wastewater treatment domain. Additionally, it sheds light on burgeoning research trends and multifaceted challenges confronting this field, which present insights into techniques for treating the antibiotic-contaminated environment, delving into innovative strategies, green technologies, challenges, and emerging trends.

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“…At present, this limit has been increased by 46% when compared with the previous year. 5 The AB residues enter into the environment by (i) discharge of untreated effluent from pharmaceutical industries, (ii) human and animal usage, and (iii) the improper disposal of medicines that have reached their expiration date. 6 Additionally, the digested drugs are mainly excreted from the body via urine and feces, either in unmodified or metabolite forms.…”

Section: Introductionmentioning

confidence: 99%

3D architectured zinc–chromium layered double hydroxide with nickel cobalt sulfide composite for the electrochemical detection of ronidazole

Priya,

Chen,

Chen

et al. 2024

Environ. Sci.: Nano

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Efficient remediation of antibiotic pollutants from the environment by innovative biochar: current updates and prospects

Cited by 17 publications

References 142 publications

An updated review on how biochar may possess potential in soil ARGs control on aspects of source, fate and elimination

An updated review on how biochar may possess potential in soil ARGs control on aspects of source, fate and elimination

Reviewing Perovskite Oxide-Based Materials for the Effective Treatment of Antibiotic-Polluted Environments: Challenges, Trends, and New Insights

3D architectured zinc–chromium layered double hydroxide with nickel cobalt sulfide composite for the electrochemical detection of ronidazole

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