Tilapia (Oreochromis spp.), a prominent warm water food fish, is one of the major fish species grown in the aquaculture industry in south-east Asia. Tilapia can tolerate adverse water quality and other stressors, like diverse salinity and fluctuation of pH value, better than most other commercial aquaculture species. Environmental fluctuations are one of the main factors that affect the outbreak of infectious diseases in cultured tilapia. Cultured tilapia in Taiwan appears to be more susceptible to infections caused by Streptococci during the summer season. The present study emphasizes the Streptococcus spp. infection in tilapia in Taiwan and is the first study on the analysis of the potential impact of climate change on streptococcal infection in cultured tilapia in Asia. The data collected from the treatment and diagnosis system (TDS) of the aquatic animal diseases database from 2006 to 2015 were used to analyze the endemic streptococcal infection and the effect of climatic factors. Based on the results, the factor, average atmospheric pressure, is negatively correlated to streptococcal infection, while the other three, including average temperature, ultraviolet (UV) index, and rainfall, are positively correlated to streptococcal infection. A multivariate logistic regression model with these four factors was also built. When the average temperature is above 27.0 °C, the average atmospheric pressure is lower than 1005.1 hPa, or the UV index is above 7.2, the percentage of cumulated positive farms from all submitted tilapia cases was more than 50%. In addition, within 3 days of rain, rainfall is relevant to the occurrence of Streptococcus in tilapia. Using TDS to alert the occurrence of streptococcal infection in tilapia can be a very useful tool for veterinary aquatic animal inspection stations, and reducing economic losses and labour costs in aquatic agriculture.
In this paper, the microwave dielectric properties of 0.93(Mg0.95Co0.05)TiO3–0.07CaTiO3 ceramics have been studied for patch antenna design. CuO was selected as liquid sintering aids to lower the sintering temperature of 0.93(Mg0.95Co0.05)TiO3–0.07CaTiO3. It is found the X-ray diffraction pattern exhibited no phase difference at addition levels below 1.0 wt %. The maximum values of dielectric constant and quality factor Q ×f can be obtained in samples with 0.25 wt % CuO additives sintered at 1190 °C for 4 h. A near-zero temperature coefficient of resonant frequency (τf) was measured for 0.93(Mg0.95Co0.05)TiO3–0.07CaTiO3 ceramics with 0.25 wt % CuO sintered at 1190 °C for 4 h. The measurement result of the patch antenna at 2.53 GHz has been presented. Using this technique, a 0.21% bandwidth (return loss < -10 dB) of center frequency and a temperature variation of the resonance frequency smaller than 0.4% have been achieved.
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