On-line monitoring of water quality with a floating microbial fuel cell biosensor: field test results

Real-time biomonitoring using microbial fuel cell (MFC) based biosensors have been demonstrated in several laboratory studies, but field validation is lacking. This study describes the long-term performance of an MFC based biosensor developed for real-time monitoring of changes in the water quality of a metal-contaminated stream. After a startup in the laboratory, biosensors were deployed in a stream close to an active mining complex in Sudbury, ON, Canada. Three sites within the stream were selected for biosensors installation based on their positions relative to the mining complex discharge points - upstream (lowest heavy metals concentration), midpoint and downstream. The biosensors installed at these sites were able to detect, in real-time, temporal changes in the water quality over a 2-month period. The biosensor response was confirmed by the results of a conventional toxicity assay (48-h acute Daphnia magna) as well as analytical measurements of heavy metals concentration in the stream. We conclude that the biosensor could detect changes in the overall water quality of the stream despite the uncontrolled situations typical for field operations as compared to laboratory conditions. To further explain the results observed during the field test, the rapid Microtox bioassay and D. magna assay were used to investigate the possible contributions of the two dominant mining metals (Nickel and Copper) to water toxicity in the test area.

Automated summary

Real-time biomonitoring using microbial fuel cell (MFC) based biosensors has been demonstrated in laboratory studies, with this study showing the long-term performance of an MFC based biosensor developed for monitoring metal-contaminated stream water quality in the field. The biosensors were able to detect temporal changes in water quality over a 2-month period, despite uncontrolled field conditions. The results suggest that the biosensor could effectively detect changes in overall water quality, even in field operations with potential challenges.