Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/51168
DC FieldValueLanguage
dc.contributor.advisor方繼zh_TW
dc.contributor.advisorTony J. Fang, Ph. D.en_US
dc.contributor.author洪敏洳zh_TW
dc.contributor.authorHung, Min-Juen_US
dc.date2001zh_TW
dc.date.accessioned2014-06-06T08:53:50Z-
dc.date.available2014-06-06T08:53:50Z-
dc.identifier.urihttp://hdl.handle.net/11455/51168-
dc.description.abstract本研究之目的在於建立數學模式以預測仙人掌桿菌於培養基系統及米飯系統中之生長情形。分別於不同溫度下(培養基系統:10, 14, 18, 22.5, 25, 30, 34.5及37℃;米飯系統12, 18, 24, 30, 36及42℃)之貯存後,利用修飾後的Gompertz 模式配適該菌生長曲線之實驗數據,並估計其生長參數值。將所得生長參數如最大比生長速率(μm)及遲滯期(λ)分別建立與溫度之關係:比生長速率以Ratkowsky及Zwietering模式描述,遲滯期則以Adair及Smith模式描述﹔所選用模式之適用性利用迴歸係數(R2)、散佈圖及殘差圖等方法驗證之。 於培養基及食品系統中所得各項實驗數據利用Gompertz模式配適,其R2值平均皆可達0.98以上。在最大比生長速率與溫度之描述中,以各模式所得之R2值皆大於0.92,皆能有適切的描述。關於PMP系統之探討,發現預測之μm值於培養基系統中37℃及米飯系統42℃中會高於實驗值,其餘溫度則皆比實驗值小。而在遲滯期方面,PMP所得之預測值幾乎都大於實驗值,即顯示在食品安全的考量上,此PMP系統所得之預測值並不適用。 另外,利用反應曲面法及Adams模式來描述仙人掌桿菌之生長參數與米飯中仙人掌桿菌影響因子之關係模式,實驗因子階層範圍為:溫度18∼42℃﹔醋酸濃度0∼0.50μg/100g及蔗糖濃度0∼12.5%。生長曲線以修飾後之Gompertz模式進行非線性迴歸,求得最大比生長速率及生長遲滯期等反應性狀後,以SAS程式進行分析,並將結果以繪圖軟體繪圖(Surfer Mapping)進行探討。 結果顯示,只有溫度對最大比生長速率與遲滯期有顯著性影響(p<0.01),且欠合度皆為顯著,表示本研究所得之反應曲面模式並不適當。而以Adams模式描述所得之R2值皆為0.99以上,即此模式可適切地描述溫度與pH值對最大比生長速率之影響,值得做進一步之研究。zh_TW
dc.description.abstractMathematical models which allow the prediction of Bacillus cereus growth in both broth and rice system were investigated in this study. Growth curve of B. cereus were obtained at different temperatures (broth system: 10, 14, 18, 22.5, 25, 30, 34.5 and 37℃; rice system: 12, 18, 24, 30, 36 and 42℃). The modified Gompertz model was applied to fit with each of the experimental curves at conditions mentioned above. The variations of the parameters including specific growth rate (μm) and lag time (λ) with temperature were then modeled. The variation of μm can be described by Ratkowsky model and Zwietering model. On the other hand, Adair model and Smith model were used to describe the variation ofλ. The various models were compared by scatter plot, residual plot and R2. The result showed that the mean R2 values of Gompertz model were above 0.98. In modeling the effect of temperature on μm and λ, the R2 values were all above 0.92.When the PMP (Pathogen Modelling Program) system was applied to this investigation, it was found that the predicted values of μm were lower than the observed values in both systems, except for in broth system at 37℃ and in rice system at 42℃. On the other hand, the predicted values of λ were almost higher than the observed value. This implied that the PMP system should not be relied upon as the sole determined of the food product's safety. RSM (Response surface methodology) and Adams model were used to determine the effects of temperature, acetic acid concentration and sucrose concentration on the growth of B. cereus in rice system. The range of experimental variables of temperature, acetic acid concentration and sucrose concentration were 18~42℃, 0~0.50μg/100g and 0~12.5%, respectively. Growth curve was fit by using nonlinear regression of Gompertz equation, growth parameters of μm and λwere obtained as the responses. The responses were analyzed by response surface regression (RSREG) of SAS program and were plotted using Surfer Mapping software. The results indicated that only the effects of temperature was significant to the responses of μm and λ (p<0.01), and the test for lack of fit indicated that the response surface model we used in this experiment was not suitable. On the other hand, The R2 values of Adams model were both above 0.99, which indicates that the model is suitable for describing the effect of temperature and pH on the growth rate of B. cereus.en_US
dc.description.tableofcontents中文摘要 Abstract 壹、 前言 貳、 文獻整理 一、 米製食品中之微生物 二、 仙人掌桿菌(Bacillus cereus) (一)、 仙人掌桿菌(B. cereus)之一般特性 (二)、 仙人掌桿菌與食品中毒 三、 微生物預測模式 (一)、 簡介 (二)、 模式的分類 (三)、 生長曲線之描述以求得生長參數 (四)、 建立食品系統中內在及外在因子影響微生物生長之模式 四、 反應曲面法 (Response surface methodology, RSM) (一)、 定義 (二)、 步驟 參、 材料與方法 一、 實驗材料 (一)、 菌株 (二)、 米飯 (三)、 培養基 (四)、 藥品 (五)、 器材與儀器 (六)、 電腦套裝軟體 二、 實驗方法 (一)、 菌株之活化 (二)、 樣品之製備 (三)、 有機酸之製備 (四)、 實驗設計 (五)、 RSM階層(level)之選取 (六)、 菌數之測定 三、 生長曲線之描述 四、 生長參數與溫度之描述 (一)、 描述最大比生長速率與溫度關係之模式 (二)、 描述遲滯期與溫度關係之模式 五、 驗證模式之適用性 (一)、 散佈圖 (二)、 殘差分布圖 六、 Pathogen Modeling Program (PMP)程式中預測值之獲得 七、 建立生長參數與食品中仙人掌桿菌影響因子之關係模式 (一)、 以反應曲面法探討 (二)、 以Adams model探討 肆、 結果與討論 一、 生長曲線之描述以獲得生長參數 (一)、 仙人掌桿菌於培養基系統中之生長曲線 (二)、 仙人掌桿菌於米飯食品系統中之生長曲線 二、 最大比生長速率與溫度關係之描述 三、 遲滯期與溫度關係之描述 四、 驗證 (一)、 散佈圖 (二)、 殘差分析圖 五、 病原菌模式之適用性 六、 建立生長參數與食品中各因子之關係 (一)、 以反應曲面法探討食品中各種因子 (二)、 以Adams model描述最大比生長參數與環境因子間之關係 伍、 結論 陸、 未來展望 柒、 參考文獻zh_TW
dc.language.isoen_USzh_TW
dc.publisher食品科學系zh_TW
dc.subjectBacillus cereusen_US
dc.subject仙人掌桿菌zh_TW
dc.subjectPredictive modelen_US
dc.subject預測模式zh_TW
dc.title仙人掌桿菌於米食系統中生長預測模式之建立zh_TW
dc.titleDevelopment of predictive models for growth of Bacillus cereus in rice systemen_US
dc.typeThesis and Dissertationzh_TW
item.cerifentitytypePublications-
item.openairecristypehttp://purl.org/coar/resource_type/c_18cf-
item.languageiso639-1en_US-
item.fulltextno fulltext-
item.grantfulltextnone-
item.openairetypeThesis and Dissertation-
Appears in Collections:食品暨應用生物科技學系
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