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Bacterial Resistance to Ultrasonic Waves under Pressure at Nonlethal (Manosonication) and Lethal (Manothermosonication) Temperatures

机译：在非致死（超音速）和致死（超音速）温度下细菌对超声波的抵抗力

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The decimal reduction times of Streptococcus faecium, Listeria monocytogenes, Salmonella enteritidis, and Aeromonas hydrophila corresponding to heat treatment at 62°C were 7.1, 0.34, 0.024, and 0.0096 min, and those corresponding to manosonication treatment (40°C, 200 kPa, 117 μm) were 4.0, 1.5, 0.86, and 0.90 min, respectively. The manosonication decimal reduction times of the four species investigated decreased sixfold when the amplitude was increased from 62 to 150 μm and fivefold when the relative pressure was raised from 0 to 400 kPa. In L. monocytogenes, S. enteritidis, and A. hydrophila, the lethal effect of manothermosonication was the result of the addition of the lethal effects of heat and manosonication, whereas in S. faecium it was a synergistic effect.

机译：粪便链球菌，单核细胞增生性李斯特菌，肠炎沙门氏菌和嗜水气单胞菌的十进制减少时间分别对应于在62°C的热处理时间分别为7.1、0.34、0.024和0.0096分钟，而对应于超声处理（40°C，200 kPa， 117μm）分别为4.0、1.5、0.86和0.90分钟。当振幅从62μm增加到150μm时，所研究的四个种类的osoniconication十进制减少时间减少了六倍，而相对压力从0kPa增加到400kPa则减少了五倍。在单核细胞增生李斯特菌，肠炎沙门氏菌和亲水性链球菌中，热共渗作用的致死作用是热量和回声的致死作用的结果，而在粪肠球菌中则是协同作用。

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期刊名称 Applied and Environmental Microbiology
作者
R. Pagán; P. Mañas; J. Raso; S. Condón;
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年(卷),期 1999(65),1
年度 1999
页码 297–300
总页数 4
原文格式 PDF
正文语种
中图分类应用微生物学;微生物学;
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2. 积极监测是区分致死性与非致死性前列腺癌亚型的可行方法 [J] . Yoshiyuki Kakehi 亚洲男性学杂志：英文版 . 2012,第003期
3. Inactivation of Listeria monocytogenes and Escherichia coli by ultrasonic waves under pressure at nonlethal (Manosonication) and lethal temperatures (Manothermosonication) in acidic fruit juices. [J] . Guzel B. H., Arroyo C., Condon S., Food and bioprocess technology . 2014,第6期

机译：在酸性果汁中，在非致死压力（Manosonication）和致死温度（Manothermosonication）的压力下，通过超声波灭活单核细胞增生李斯特菌和大肠杆菌。
4. Effects of ultrasonic waves on carbon dioxide solubility in brine at different pressures and temperatures [J] . Hossein Hamidi, Erfan Mohammadian, Amin Sharifi Haddad, Petroleum science . 2017,第3期

机译：超声波对不同压力和温度下二氧化碳在盐水中溶解度的影响
5. Effects of ultrasonic waves on carbon dioxide solubility in brine at different pressures and temperatures [J] . Hossein Hamidi, Erfan Mohammadian, Amin Sharifi Haddad, 石油科学（英文版） . 2017,第003期

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6. Study on Identification of the Pressure-Resistant Bacteria Isolated from Coconut Puree and its Lethal Effect with Combined Mild Temperature and Ultrahigh Pressure [C] . Bin Wan, Zhen-hua Duan, Shan-shan Luo, International Conference on Chemical, Material and Food Engineering . 2015

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7. Ultrasonic wave velocities of pyrope-majorite garnets at high pressure and high temperature. [D] . Liu, Jun. 2000

机译：辉长岩-马氏体石榴石在高压和高温下的超声波速度。
8. A Fiber Optic Ultrasonic Sensing System for High Temperature Monitoring Using Optically Generated Ultrasonic Waves [O] . Jingcheng Zhou, Xu Guo, Cong Du, 2019

机译：光纤超声波传感系统用于使用光学产生的超声波进行高温监测
9. Bacterial Resistance to Ultrasonic Waves under Pressure at Nonlethal (Manosonication) and Lethal (Manothermosonication) Temperatures [O] . R. Pagán, P. Mañas, J. Raso, 1999

机译：在非致命（阳离子）和致死（Manothermosonication）温度下的压力下的细菌耐受超声波
10. Bacterial Responses to Extreme Temperatures and Pressures and to Heavy OrganicLoading [R] . 1992

机译：对极端温度和压力以及重有机载荷的细菌反应

Bacterial Resistance to Ultrasonic Waves under Pressure at Nonlethal (Manosonication) and Lethal (Manothermosonication) Temperatures

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