Litcius/Paper detail

Environmental phages: ecosystem dynamics, biotechnological applications and their limits, and future directions

Bilel Hassen, Salah Hammami

2025Journal of Applied Microbiology8 citationsDOIOpen Access PDF

Abstract

Phages, the most abundant biological entities on Earth, play a crucial role in various microbial ecosystems, significantly impacting biogeochemical cycles and bacterial evolution. They inhabit diverse environments, including soil, water, and extreme conditions, where they contribute to the contribute to regulating microbial populations, facilitate genetic exchange, and aid in nutrient cycling. Recent research has highlighted their potential in addressing antibiotic resistance, enhancing wastewater treatment, promoting agricultural sustainability, and tackling environmental issues. However, their ability to disseminate antibiotic resistance genes through horizontal gene transfer raises important concerns, warranting a thorough assessment of their ecological and biotechnological applications. This review synthesizes current knowledge on the diversity, ecological roles, and practical uses of environmental phages, emphasizing both their benefits and limitations. By analyzing recent findings and real-world applications, it provides insights into the challenges encountered and future directions for leveraging phages in environmental management, biotechnology, and healthcare.

Topics & Concepts

SustainabilityEcosystem servicesEnvironmental biotechnologyBiologyEcosystemResistance (ecology)Environmental resource managementBiogeochemical cycleDisseminationEnvironmental planningEcologyBiotechnologyAntibiotic resistanceAgricultureMicrobial ecologyEngineeringEnvironmental scienceGeneticsBacteriaTelecommunicationsAntibioticsBacteriophages and microbial interactions
Environmental phages: ecosystem dynamics, biotechnological applications and their limits, and future directions | Litcius