Litcius/Paper detail

Next-Generation Wastewater Treatment: Omics and AI-Driven Microbial Strategies for Xenobiotic Bioremediation and Circular Resource Recovery

P Renganathan, Lira A. Gaysina

2025Processes10 citationsDOIOpen Access PDF

Abstract

Wastewater treatment plants (WWTPs) function as engineered ecosystems in which microbial consortia mediate nutrient cycling, xenobiotic degradation, and heavy metal detoxification. This review discusses a forward-looking roadmap that integrates microbial ecology, multi-omics diagnostics, and artificial intelligence (AI) for next-generation treatments. Meta-analyses suggest that a globally conserved core microbiome indicates sludge functions, with high predictive value for treatment stability. Multi-omics approaches, including metagenomics, metatranscriptomics, and environmental DNA (eDNA) profiling, have integrated microbial composition with greenhouse gas (GHG) emissions, showing that WWTPs contribute 2–5% of anthropogenic nitrous oxide (N2O) emissions. Emerging AI-enhanced eDNA models have achieved >90% predictive accuracy for effluent quality and antibiotic resistance gene (ARG) prevalence, facilitating near-real-time monitoring and adaptive control of effluent quality. Key advances include microbial strategies for degrading organic pollutants, pesticides, and heavy metals and monitoring industrial effluents. This review highlights both translational opportunities, including engineered microbial consortia, AI-driven digital twins and molecular indices, and persistent barriers, including ARG dissemination, resilience under environmental stress and regulatory integration. Future WWTPs are envisioned as adaptive, climate-conscious biorefineries that recover resources, mitigate ecological risks, and reduce their carbon footprint.

Topics & Concepts

BioremediationXenobioticEnvironmental scienceSewage treatmentEffluentBiomass (ecology)Biochemical engineeringMicrobial population biologyMicrobial ecologyMetagenomicsWastewaterResource recoveryResilience (materials science)MicrobiomeEnvironmental monitoringGreenhouse gasWaste managementBiologyEnvironmental engineeringBiotechnologyEcosystemEnvironmental qualityEnvironmental biotechnologyWaste disposalPollutantEnvironmental chemistrySustainabilityEcologyEnvironmental impact assessmentCarbon sequestrationMicrobial Community Ecology and Physiology3D Printing in Biomedical ResearchMicrobial Fuel Cells and Bioremediation