Abstract:
Marine pollution threatens global ecosystems, underscoring the urgent need for robust and efficient monitoring systems. Microbial bioluminescence has emerged as a promising tool for pollution detection, offering unique advantages due to its simplicity, sensitivity, and ecological relevance. This review explores the fundamental principles of bacterial and dinoflagellate bioluminescence, ecological significance, and their applications in marine pollution monitoring. Bioluminescence-based detection systems are broadly categorized into whole-cell biosensors (WCBs) and enzyme-based biosensors. WCBs are further classified into recombinant organisms based WCBs (Class I and Class II WCBs) and wild-type organisms based WCBs (Class III WCBs), demonstrating distinct pollutant detection and stress-response monitoring capabilities. We highlight their potential to improve pollution monitoring strategies by critically evaluating these technologies. Integrating bioluminescence-based systems into current frameworks could significantly enhance the assessment of marine ecosystem health, facilitate timely pollution management, and support the conservation and sustainable use of marine resources.