It is necessary to take measures against infectious diseases in the Southeast Asian prawn farming industry. In giant tiger prawn (Penaeus monodon) aquaculture, diseases caused by viruses such as white spot syndrome ...It is necessary to take measures against infectious diseases in the Southeast Asian prawn farming industry. In giant tiger prawn (Penaeus monodon) aquaculture, diseases caused by viruses such as white spot syndrome virus (WSSV) and bacteria such as Vibrio have become a menace. Appropriate treatments of prawn culture pond's waters are advocated for preventing and controlling pathogens. The purpose of this study was to conduct an antimicrobial water treatment using a low-voltage pulsed electric field sterilization. Here we prepared a mechanical low-voltage pulsed electric field system with copper wire coiling around a titanium ring. The viability of WSSV in seawater was examined by prawn infectivity experiments. We inoculated healthy prawns (approximately 10-15 g) with the WSSV master sample that passed 0-3 times through the system. WSSV infection in prawns decreased according to the number of passes through the system. Healthy prawns survived for〉 10 days without feeding, where as prawns inoculated with the WSSV master sample showed symptoms of white spot and died in about 4 days. Two-thirds of the prawns inoculated with the WSSV master sample that was passed once through the system developed WSSV symptoms and were polymerase chain reaction (PCR) positive. However, no symptoms were observed and prawns were PCR negative when the WSSV master sample was passed three times through the system. Based on these results, we purpose that a low-voltage pulsed electric field system will serve as an efficient pond drainage sterilization system and will replace conventional treatments using chemicals such as sodium hypochlorite.展开更多
文摘It is necessary to take measures against infectious diseases in the Southeast Asian prawn farming industry. In giant tiger prawn (Penaeus monodon) aquaculture, diseases caused by viruses such as white spot syndrome virus (WSSV) and bacteria such as Vibrio have become a menace. Appropriate treatments of prawn culture pond's waters are advocated for preventing and controlling pathogens. The purpose of this study was to conduct an antimicrobial water treatment using a low-voltage pulsed electric field sterilization. Here we prepared a mechanical low-voltage pulsed electric field system with copper wire coiling around a titanium ring. The viability of WSSV in seawater was examined by prawn infectivity experiments. We inoculated healthy prawns (approximately 10-15 g) with the WSSV master sample that passed 0-3 times through the system. WSSV infection in prawns decreased according to the number of passes through the system. Healthy prawns survived for〉 10 days without feeding, where as prawns inoculated with the WSSV master sample showed symptoms of white spot and died in about 4 days. Two-thirds of the prawns inoculated with the WSSV master sample that was passed once through the system developed WSSV symptoms and were polymerase chain reaction (PCR) positive. However, no symptoms were observed and prawns were PCR negative when the WSSV master sample was passed three times through the system. Based on these results, we purpose that a low-voltage pulsed electric field system will serve as an efficient pond drainage sterilization system and will replace conventional treatments using chemicals such as sodium hypochlorite.
