Add to ORKGLincoln Technology has developed a rapid biosensor-based assay called MICREDOX®. While MICREDOX® was originally developed for BOD monitoring, here we report how this rapid assay has been extended to ascertain the impact of toxic chemicals on biological materials resident in the environment.The work was funded through an Enterprise Scholarship (E465) from Lincoln Ventures Limited and the New Zealand Foundation for Research, Science and Technology
A novel total toxicity detection method based on a mediated biosensor system with flow injection (MB...
Since most toxicological risk assessments are based on individual single-species tests, there is unc...
The rise in pollution cases globally is expected to increase in line with industrialization. Monitor...
Lincoln Technology has developed a rapid biosensor-based assay called MICREDOX®. While MICREDOX® was...
Lincoln Technology has developed a rapid biosensor-based assay called MICREDOX. While MICREDOX was o...
MICREDOX® is a novel rapid microbial technique for monitoring environmental contaminants, including ...
Conventional analytical techniques for monitoring toxicity offer high precision but are disadvantage...
MICREDOX® is a rapid microbial-based assay developed by Lincoln Ventures Ltd to monitor biochemical ...
Several functional and biochemical parameters have been proposed as biomarkers of effect of environm...
Pollution of soil and water caused by human activity such as agriculture and industry is an issue of...
Novel analytical approaches are needed to assess the risk of hazardous and pathogenic wastes. From a...
While direct toxicity assessment (DTA) is now widely recognised as a useful tool for environmental r...
A need for rapid toxicity techniques has seen recent research into developing new microbiological as...
A novel respirometer is developed for microbial toxicity tests. The respirometer is based on lumines...
The work was funded from the New Zealand Foundation for Research, Science and Technology. The MICRED...
A novel total toxicity detection method based on a mediated biosensor system with flow injection (MB...
Since most toxicological risk assessments are based on individual single-species tests, there is unc...
The rise in pollution cases globally is expected to increase in line with industrialization. Monitor...
Lincoln Technology has developed a rapid biosensor-based assay called MICREDOX®. While MICREDOX® was...
Lincoln Technology has developed a rapid biosensor-based assay called MICREDOX. While MICREDOX was o...
MICREDOX® is a novel rapid microbial technique for monitoring environmental contaminants, including ...
Conventional analytical techniques for monitoring toxicity offer high precision but are disadvantage...
MICREDOX® is a rapid microbial-based assay developed by Lincoln Ventures Ltd to monitor biochemical ...
Several functional and biochemical parameters have been proposed as biomarkers of effect of environm...
Pollution of soil and water caused by human activity such as agriculture and industry is an issue of...
Novel analytical approaches are needed to assess the risk of hazardous and pathogenic wastes. From a...
While direct toxicity assessment (DTA) is now widely recognised as a useful tool for environmental r...
A need for rapid toxicity techniques has seen recent research into developing new microbiological as...
A novel respirometer is developed for microbial toxicity tests. The respirometer is based on lumines...
The work was funded from the New Zealand Foundation for Research, Science and Technology. The MICRED...
A novel total toxicity detection method based on a mediated biosensor system with flow injection (MB...
Since most toxicological risk assessments are based on individual single-species tests, there is unc...
The rise in pollution cases globally is expected to increase in line with industrialization. Monitor...