Effect of combined function of temperature and water activity on the growth of Vibrio harveyi

机译：温度和水分活度联合函数对哈维氏弧菌生长的影响

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摘要

Vibrio harveyi is considered as a causative agent of the systemic disease, vibriosis, which occurs in many biological fields. The effects of temperatures (12.9–27.1 °C) and water activity (NaCl% 0.6%-3.4%) on V. harveyi were investigated. The behavior and growth characteristics of V. harveyi was studied and modeled. Growth curves were fitted by using Gompertz and Baranyi models, and the Baranyi model showed a better fittness. Then, the maximum growth rates (μmax) and lag phase durations (LPD, λ) obtained from both Gompertz and Baranyi model were modeled as a combination function of temperature and water activity using the response surface and Arrhenius-Davey models for secondary model. The value of r², MSE, bias and accuracy factor suggest Baranyi model has better fitness than Gompertz model. Furthermore, validation of the developed models with independent data from ComBase also shown better interrelationship between observed and predicted growth parameter when using Baranyi model.

机译：哈维氏弧菌被认为是系统性疾病弧菌的病原体，在许多生物学领域中都存在。研究了温度（12.9–27.1°C）和水分活度（NaCl％0.6％-3.4％）对哈氏弧菌的影响。对哈维氏弧菌的行为和生长特性进行了研究和建模。使用Gompertz和Baranyi模型拟合生长曲线，并且Baranyi模型显示出更好的拟合度。然后，使用响应面和Arrhenius-Davey模型作为次级模型，将从Gompertz和Baranyi模型获得的最大增长率（μmax）和滞后阶段持续时间（LPD，λ）建模为温度和水分活度的组合函数。 r ^{2 ，MSE，偏差和准确性因子的值表明，Baranyi模型比Gompertz模型具有更好的适应性。此外，在使用Baranyi模型时，使用来自ComBase的独立数据对开发的模型进行验证也显示观察到的和预测的生长参数之间具有更好的相互关系。}

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期刊名称 Brazilian Journal of Microbiology
作者
Kang Zhou; Meng Gui; Pinglan Li; Shaohua Xing; Tingting Cui; Zhaohui Peng;
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作者单位

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年(卷),期 2012(43),4
年度 2012
页码 1365–1375
总页数 11
原文格式 PDF
正文语种
中图分类微生物学;
关键词
Vibrio harveyi modelling temperature water activity;

机译：哈维弧菌;建模;温度;水活度;

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专利

1. Effect of combined function of temperature and water activity on the growth of Vibrio harveyi [J] . Kang Zhou, Meng Gui, Pinglan Li, Brazilian Journal of Microbiology . 2012,第4期

机译：温度和水分活度联合函数对哈维氏弧菌生长的影响
2. Effect of combined function of temperature and water activity on the growth of Vibrio harveyi [J] . Zhou Kang, Gui Meng, Li Pinglan, Revista de microbiologia . 2012,第4期

机译：温度和水分活度联合函数对哈维氏弧菌生长的影响
3. Combined Effects of Water Activity, Solute, and Temperature on the Growth of Vibrio parahaemolyticus [J] . L. R. Beuchat Applied Microbiology . 1974,第6期

机译：水分活度，溶质和温度对副溶血性弧菌生长的综合影响
4. Estabiishment of growth/no growth model for Bacillus cereus on different temperature, pH and water activity [C] . Chen Chen, Yang Xianshi, Li Xueying International Conference on Chemical Engineering and Advanced Materials . 2013

机译：不同温度，pH和水活动的芽孢杆菌生长/无生长模型
5. Patterns of growth and nutrient deposition in lake trout, brook trout and F(1) splake as a function of water temperature (Salvelinus namaycush, Salvelinus fontinalis). [D] . Gunther, Stephen James. 2003

机译：湖鳟，溪鳟和F（1）散粒的生长和养分沉积模式与水温的关系（Salvelinus namaycush，Salvelinus fontinalis）。
6. Combined Effects of Water Activity Solute and Temperature on the Growth of Vibrio parahaemolyticus [O] . L. R. Beuchat 1974

机译：水分活度溶质和温度对副溶血性弧菌生长的综合影响
7. Combined Effects of Water Activity, Solute, and Temperature on the Growth of Vibrio parahaemolyticus [O] . L. R. Beuchat 1974

机译：水性活性，溶质和温度的综合影响对帕劳铵溶血渣生长的影响

Effect of combined function of temperature and water activity on the growth of Vibrio harveyi

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