"Underwater Molecular Biology Laboratory" that can work for a long time and automatically
Systems that can conduct qualitative and quantitative monitoring of toxogenic algae (and algatoxins) underwater
| Main functions |  | ||||
| 1. Long-term, automatic and continuous monitoring of changes in toxin-producing algae and algatoxins | |||||
| 2. Long-term, automatic and continuous monitoring of changes in specific algae, bacteria, zooplankton, etc. | |||||
| 3. Provide customized molecular probe combination sets to perfectly solve customers' special needs | |||||
| 4. The monitoring results can be transmitted wirelessly to the shore base station | |||||
| 5. Can work underwater in situ (tolerant of 50 m water pressure), or in monitoring platform or water station building | |||||
| 6. Samples can be collected and stored underwater, and analyzed in the laboratory after recycling. | |||||
| Application areas | |||||
| 1. Monitoring and early warning of harmful algae blooms |  | ||||
| 2. Monitoring of red tide algae, especially toxin-producing algae and algatoxins | |||||
| 3. Monitoring of water-blooming cyanobacteria, especially toxin-producing algae and algatoxins | |||||
| 4. Environmental monitoring, phytoplankton ecology research | |||||
| 5. Oceanography and Lake Science Research | |||||
| 6. Safety monitoring of drinking water source | |||||
| 7. Water plant water supply safety monitoring | |||||
| Measurement parameters | |||||
Main testing objects: algae related to harmful algae blooms, algatoxins, marine bacteria, animal larvae, and crustaceans. | |||||
ESP is a fully automated underwater molecular science laboratory. Currently, it mainly uses three methods: sandwich hybridization (SHA), fluorescence quantitative PCR (qPCR) or competitive enzyme-linked immunosorbent assay (cELISA).However, ESP is not limited to these two methods. Instrument manufacturers will continue to update and adopt new molecular methods suitable for ESP, and users can also develop and program new molecular methods to apply to ESP. | |||||
The probes currently used for detection are mainly targeted at some toxin-producing algae, bacteria and zooplankton, but the types that can be detected are not limited to the species listed below.It's wrongESPIn case of any changes to the hardware system, you only need to design appropriate probes and kits to detect new types. | |||||
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| Main technical parameters | |||||
| Test kitpucksquantity:132indivual | |||||
| Number of probe marks:20-30kind | |||||
| Time required to measure one time:1.5-2 Also | |||||
| Operating temperature:4~29℃ | |||||
| powered by:10-16 VD C | |||||
| Maximum release time:3Months | |||||
| Size: kernel diameter56 Smart,high82 Smart; Waterproof shell diameter64.8 Smart,high94.6 Smart | |||||