Abstract
Phyllodiaptomus tunguidus and Heliodiaptomus falxus are dominant copepods species in drinking water processing plants in southern China. With a potential penetration risk, the breeding and leakage of copepods are drawing more and more attention in recent years. The current study provided a thermal treatment method to control copepods and their eggs. Results showed that: (1) the immediate death rates of P. tunguidus and H. falxus after heated to 34–40 °C for 5 min are positively correlated to the treatment temperatures (P < 0.01), and all individuals of the both species were eliminated after heated at 40 °C for 5 min; (2) overall hatching rates of P. tunguidus eggs were negatively correlated with treatment temperatures (P < 0.01) between 39–45 °C, with zero percent hatched after treatment at 45 °C for 5 min; (3) hatching rates of H. falxus were negatively correlated with treatment temperatures (P < 0.01) between 37–41 °C, with no nauplii hatched when treated at 41 °C for 5 min; (4) paraffin section histological examination indicated that thermal treatment caused severe damage to internal organs and egg structure. Finally, based on the experimental data, the application of the thermal treatment method was discussed in ozonation combined with biological activated carbon (O3/BAC) processing of drink water treatment.
Highlights
Copepods are dominant species in freshwater zooplankton communities worldwide
When the temperature of medium stabilized at the preset point, 100 ± 20 copepods were transferred into each beaker using a 113 μm mesh for thermal treatment. 5 min later, the P. tunguidus were transferred to room temperature and the death rate was immediately counted under a stereo microscope
After a 5 min thermal treatment at different temperature, the death rate of P. tunguidus increased varying degrees comparing with control group
Summary
Copepods are dominant species in freshwater zooplankton communities worldwide. By predation of primary producers, and providing feed to higher trophic levels, copepods play a vital role of energy flow in water ecosystem Copepods are dominant species in freshwater zooplankton communities worldwide. By predation of primary producers, and providing feed to higher trophic levels, copepods play a vital role of energy flow in water ecosystem These authors contributed : Wei Jiang, Sheng Dong. These authors jointly supervised this work: Antai Wang, Zhangli Hu. Guangdong Technology Research Center for Marine Algal Bioengineering, Longhua Innovation Institute for Biotechnology, College of Life Sciences and Oceanography, Shenzhen University, Shenzhen 518060, P.
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