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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 游若? | |
dc.contributor.author | Wan-Lin Lu | en |
dc.contributor.author | 呂宛霖 | zh_TW |
dc.date.accessioned | 2021-06-13T00:27:55Z | - |
dc.date.available | 2007-10-01 | |
dc.date.copyright | 2007-07-31 | |
dc.date.issued | 2007 | |
dc.date.submitted | 2007-07-25 | |
dc.identifier.citation | CAS優良農產品證明標章(醃漬蔬果)品質規格及標示規定。財團法人台灣優良農產品發展協會。http://www.cas.org.tw/images_B1/醃漬蔬果類_ver4.doc。
方祖達。1983。醃漬及發酵蔬菜生產之改進。科學發展。11(2):157-158。 王義雄、詹偉宗、蔡維鐘。1980。蔬菜醃漬物保存之研究。食品工業發展研究所研究報告地198號。 王西華。1982。醃漬蔬果加工過程的環境控制。食品工業。11(10):41-51。 行政院農業委員會。2005。園藝作物-蔬菜-葉菜。327-330。台灣農家要覽-農作篇。豐年社。 行政院農業委員會。2005。農業生產-特用作物-蔬菜。64-65。農業統計年報。http://twinfo.ncl.edu.tw/tiqry/hypage.cgi?HYPAGE=search/search_res.hpg&dtd_id=11&g=1&d=abdeddabd9ed8fdbcd69dabdabdeefabd9eddddabdabdedd&SID=86401163128688。 李福臨、王家仁、小川敏男。1982。醃漬物低鹽化技術。食品工業。14(10):8-14。 李福臨。1983。醃漬物的微生物。食品工業。15(2):31-38。 李洪潮、蔡子雄、李聰明、林麗雲。1984。以鹽漬法製造酸菜之研究。食品科學。11(1,2):1-14。 李洪潮。1985。不同食鹽量對酸菜品質之影響。食品科學。12(1,2):48-59。 吳淳美。1987。食品香料化學與加工。32-39。食品工業發展研究所食品工業月刊。新竹。 吳克杰。2004。台灣客家地圖。124-125。貓頭鷹出版社。台北。 范晉嘉。1991。酸菜醃漬過程中色澤之變化。國立中興大學食品科學研究所碩士論文。台中。 陳英昌、李洪朝。1985。以改良式乾鹽法醃漬酸菜- 1.傳統發酵法。中國農化會誌。23 : 251-262。 陳其潮。1998。醬菜之沿革及發展趨勢。醬類季刊。14:16-23。 陳其潮。2002。大陸醬菜概況。食品資訊。191:28-35。 殷正華。1983。酸筍發酵及貯藏過程中微生物及其品質之變化。國立臺灣大學食品科技硏究所。台北。 梁愛華。2005。醬缸裡的奧秘-四川榨菜的醃漬原理。中華文化飲食基金會會訊。11(3):19-24。 張天鴻。1997。本所對農產廢棄物的利用研究。食品工業。9(11):92-95。 楊文振。2000。芥菜。高雄區農情月刊第28期。高雄區農業改良場。 楊昭景。2005。擺盪於傳統與創新之中-談客家飲食特色及發展方向。中華文化飲食基金會會訊。11(3):25-32。 鄧勇。1992。四川榨菜後熟轉化機制之研究。食品科學。 劉振坤。2005。酸菜殘餘物脫鹽及乾燥之研究。國立嘉義大學生物機電工程學系研究所碩士論文。嘉義。 劉振坤、朱健松、陳文彬、林正亮。2006。酸菜殘餘物浸泡脫鹽法之探討。中華農學會報。7 (3): 234-244。 劉瑞琴。2007。客家的美食。六堆雜誌。119:14-15。 豐年社。1981。蔬菜加工。60-63。豐年叢書HP#812。台北。 賴明仁。1992。利用酸菜廢棄物製備調味粉末及特性之探討。國立中興大學食品科學研究所碩士論文。台中。 簡宣裕、林財旺。1998。農產廢棄物堆肥製造技術研究。農產廢棄物在有機農業之應用研討會專刊。35-51。台灣省桃園區農業改良場。桃園縣。 戴志成、方登禮、盧滿美、李素玲。1977。醃漬包裝與貯藏之研究。食品工業發展研究所第119號。 蘇俊權、李洪潮。1992。酸菜醃漬過程中酵母菌之分離、鑑定及特性測定。食品科學。19(1):94-107。 小川敏男。1989。漬物製造學。57-67。光琳。東京。 原 明宏。1999。漬物の定量的鮮度(1)溫度、微生物增殖、正規鮮度など。食品と科學。41(8):28-36。 宮尾茂雄。1994。漬物類の微生物管理。ジャパンフードサイエンス。33(3):34-40。 原 明宏。2000。漬物の定量的鮮度(1)水活性の影響。食品と科學。42(1):26-33。 緒芳邦安。1966。園藝食品的加工利用。363-364。養賢堂。東京。 Adams MR, Hall CJ. 1988. Growth inhibition of food-borne pathogens by lactic acid and acetic acid and their mixtures. Int J Food Sci Technol 23: 287-292. Bajaj M, Agrawal P, Minhas KS, Sidhu JS. 1993. Effect of blanching treatment on quality characteristics of dehydrated fenugreek leaves. J Food Sci and technol 30: 196-198. Brown AD. 1978. Compatible solutes and extreme water stress in eukaryotic micro-organisms. Adv Microbial Physiol 17:181-242. Cheigh HS, Park KY. 1994. Biochemical, microbiological, and nutritional aspects of Kimchi (Korean fermented vegetable products). Crit Rev Food Sci Nutr 34 (2): 175–203. Chen YS, Yanagida F, Hsu JS. 2006. Isolation and characterization of lactic acid bacteria from suan-tsai (fermented mustard), a traditional fermented food in Taiwan. J Appl Microbiol 101:125-130. Eisenberg W, Cichowicz S. 1977. Machinery mold-indicator organism in food. Food Technol 31: 52-56. Erbas M, Certel M, Uslu MK. 2005. Microbiological and chemical propertiesof Tarhana during fermentation and storage as wet—sensorial propertiesof Tarhana soup. Lebensm-Wiss Technol 38:409-416. Etchells JL, Costilow RN, Anderson TE, Bell TA. 1964. Pure Culture Fermentation of Brined Cucumbers. Appl Microbiol12:523-535. Fleming HP, McFeeters RF, Daeschel MA, Humphries EG , Thompson RL. 1988. Fermentation of cucumber in anaerobic tanks. J Food Sci 53: 127–133. Frazier WC and Westhoff DC. 1978. Food Microbiology. New York: McGraw-Hill Book Company, Inc. p366-380. Gupte SM, Elbisi HM, Francis FJ. 1964. Kinetics of thermal degradation of chlorophyll in spinach puree. J Food Sci 29: 379-382. Han BZ, Beumer RR, Rombouts FM, Nout MJR. 2001. Microbiological safety and quality of commercial sufu-a Chinese fermented soybean food. Food Control 12:541-547. Hang YD, Splittstoesser DF, Landschoot RL. 1972. Sauerkraut waste: a favorable medium for cultivating yeast. Appl Microbiol 24(6):1007-1008. Hallsworth JE. 1998. Ethanol-induced water stress in yeast. J Ferment Bioeng 85:125-137. Hanagata H, Shida O. Takagi H. 2003. Taxonomic homogeneity of a salt-tolerant lactic acid bacteria isolated from shoyu mash. J Gen Appl Microbiol 49: 95–100. Jay JM. 2000. Modern food microbiology, 6th ed. Singapore: Aspen Publishers, Inc. p253-343. Jones RP. 1989. Biological principles for effects of ethanol. Enzyme Microbiol Technol 11:130-153. Jonsson A , Pahlow G. 1984. Systematic classication and characterization of yeasts growing in grass silage inoculated with Lactobacillus cultures. Anim Res Dev 20: 7-22. Karki T, Itoh H, Kiuchi K, Ebine H, Kozaki M. 1983. Lipid in Gundruk and Takana fermented vegetables. Lebensm-Wiss Technol 16:167-171. Karki T, Itoh H, Kozaki M. 1983. Chemical changes occurring during Gundruk fermentation “PartⅡ-2 flavor components. Lebensm-Wiss Technol 16:203-208. Lee CH. 1997. Lactic acid fermented foods and their benefits in Asia. Food Control: 259-269. Lin YO, Clydesdale FM, Francis FJ. 1971. Organic acid profiles in thermally processed spinach puree after storage. J Food Sci 36:240-246 Manderson K, Pinart M, Tuohy KM,Grace WE,Hotchkiss AT, Widmer W, Yadhav MP, Gibson GR, Rastall RA. 2005. In vitro determination of probiotic properties of oligosaccharides derived from an orange juice manufacturing by-product stream. Appl Environ Microbiol 71: 8383-8389. Maharaj V, Sankat CK. 1996. Quality changes in dehydrated dasheen leaves Effects of blanching pre-treatments and drying conditions. Food Res Int 29:563–568. Maulin P, Shah, Reddy GV, Banerjee R, Ravindra Babu P, Kothari IL. 2005. Microbial degradation of banana waste under solid state bioprocessing using two lignocellulolytic fungi (Phylosticta spp. MPS-001 and Aspergillus spp. MPS-002). Process Biochem 40: 445-51. Montaño A, de Castro A, Rejano L, Brenes M. 1996. 4-Hydroxy cyclohexane carboxylic acid as a substrate for cyclohexane carboxylic acid production during the “zapatera” spoilage of Spanish-style green table olives. J Food Prot 59: 657-662. Mori H. 1973. Life cycle in a heterothahic haploid yeast, Saccharomyces rouxii. J Ferment Technol 51: 379-39. Negi PS, Roy SK. 2001. Effect of drying conditions on quality of green leaves during long term storage. Food Res Int 34:283-287. Nisperos-carried MO, Busling BS, Shaw PE. 1992. Simultaneous detection of dehydroascorbic, ascorbic, some organic acid in fruits and vegetables by HPLC. J Agric Food and Chem 40:1127-1130. O’Neill MB, Rahman MS, Perera CO, Smith, B Melton, LD. 1998. Colour and density of apple cubes dried in air and modified atmosphere. Intl J Food Properties 1(3):197-205. Panagou E.Z., Tassou CC, Katsaboxakis KZ. 2002. Microbiological, physicochemical and organoleptic changes in drysalted olives of Thassos variety stored under different modified atmospheres at 4 and 20 oC. Int J Food Sci and Technol 36: 1–7. Panagou EZ. 2006. Greek dry-salted olives: Monitoring the dry-salting process and subsequent physico-chemical and microbiological profile during storage under different packing conditions at 4 and 20 oC. Lebensm-Wiss Technol 39:322-329. Pederson CS, Albury MN. 1953. Factors Affecting the Bacterial Flora in Fermenting Vegetables. Food Res18:290-300. Pederson CS, Albury MN. 1961. The effect of pure-culture inoculation o fermentation of cucumbers. Food Technol 15: 351-354. Phillips GF, Mundt JO. 1950. Sorbic acid inhibitor of scum yeast in cucumber fermentations. Food Technol 4: 291-297. Potter NN. 1978. Food science, 3rd ed. Connecticut: The AVI Publishing. Company, Inc. p259-261. Pridham JB, Swain T. 1965. Biosynthetic pathways in higher plants. New York :Academic Press. p163-177. Reed G. 1982. Prescott & Dunn’s Industrial Microbiology, 4th ed. New York: McGraw-Hill Book Company, Inc. p185-236. Reddy GV, Ravindra Babu P, Komaraiah P, Roy KRRM, Kothari IL. 2003. Utilization of banana waste for the production of lignolytic and cellulolytic enzymes by solid substrate fermentation using two Pleurotus species (P. ostreatus and P. sajor-caju). Process Biochem 38: 1457-1462. Sagoo SK, Little CL, Allen G, Williamson K, Grant KA. 2007. Microbiological safety of retail vacuum-packed and modified-atmosphere-packed cooked meats at end of shelf life. J Food Prot 70(4):943-51 Sand F, Grinsven M, Van A. 1976. Investigation of yeast strains isolated from Scandinavian soft drinks. Braurvessenschaft 29: 353-355. SAS. 2000. Statistics 9.1 ed. SAS Institute Inc., Cary, NC,USA. Scinska A, Koros E, Habrat B, Kukwa A, Kostowski W, Bienkowski P. 2000. Bitter and sweet components of ethanol taste in humans. Drug alcohol Depend 60:199–206. Stamer JR, Stoyla BO, Dunckel BA. 1971. Growth rates and fermentation patterns of lactic acid bacteria associated with sauerkraut fermentation. J Milk Food Technol 34:521-525. Steinkraus KH. 1997. Classification of fermented foods: worldwide review of household fermentation techniques. Food Control:311-317. Tantaoui-Elaraki A, Le Tutour B, Bouzid M, Keddani MJ. 1983. Contamination des olives noires fac-on Gre cque par less pores d Aspergillus toxige’ nes et leur toxins. Industries Alimentaireset Agricoles 41: 997–1000. Tantaoui-Elaraki A, Samane S, Roquebert MF. 1990. Mycoflora of Moroccan Greek-style black olives. Microbiologie Aliments Nutrition 8: 257–264. Trail AC, Fleming HP, Young CT, McFeeters RF. 1996. Chemical and sensory characterization of commercial sauerkraut. J Food Qual 19:15-30. van Uden N. 1985. Ethanol toxicity and tolerance in yeast. Ann Rep Fermen Proc 8:11-58. Vaughan JG, Macleod AJ, James BMG. 1976. Glucosinolates in the Cruciferae. In: The Biology and Chemistry of the Cruciferae. London: Academic Press. p207-219. Vaughn RH, Jakubczyk T, Macmillan JD, Higgins TE, Dave BA , Crampton VM. 1969. Some pink yeasts associated with softening of olives. Appl Microbiol 18:771-775. Vasseur C, Baverel L, Hebraud M, Labadie J. 1999. Effect of osmotic, alkaline, acid or thermal stresses on the growth and inhibition of Listeria monocytogenes. J Appl Microbial 86:469-476. von Elbe JH, Schwartz SJ.1996. Colorants. In: Fennema OW, Editor, Food chemistry., New York: Marcel Dekker Inc. p651–722. Walker H. 1977. Spoilage of food by yeasts. Food Technol 31: 57-61. Yagi T. 1988. Intracellular levels of glycerol necessary for initiation of growth under salt-stressed conditions in a salt-tolerant yeast, Zygosaccharomyces rouxii. FEMS Microbial Lett 49: 25-30. | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/28887 | - |
dc.description.abstract | 雲林縣大埤鄉以盛產酸菜著名,在酸菜的醃漬加工過程中,農民分級包裝加工產生的酸菜廢棄物俗稱酸菜尾,若無適當的處理,極易污染地下水及附近的農地,為解決酸菜尾隨意堆棄之問題,將酸菜尾製造福菜或梅乾菜,評估以酸菜尾再加工之可行性為主要目的。
研究進行針對雲林縣大埤鄉之酸菜加工之廢棄物—酸菜尾的品質與衛生概況之調查,酸菜尾之鹽含量介於8-11%之間,pH值平均約4.0、酸度平均約1.2%,水分含量平均約為81%、水活性平均值約0.9,具有與酸菜相似之品質,總菌數、酵母與黴菌數皆小於5 log CFU/g,且無不良之氣味與外觀。 酸菜尾以陽光乾燥或烘箱乾燥製造福菜或梅乾菜,皆具有與福菜與梅乾菜商品相似之接受度,在考慮經濟等因素下,將酸菜尾再加工製成梅乾菜較能夠符合需求。在研究第二階段,為增進梅乾菜風味,組合不同的酒類與添加量至梅乾菜中,以增加酸菜尾製成梅乾菜之經濟價值,於喜好性品評結果顯示,添加梅乾菜重量5%食用酒精的梅乾菜具有最佳的風味與接受度。 將酸菜尾製造之梅乾菜以真空包裝與PE保鮮袋包裝存放於室溫6個月,梅乾菜在儲藏期間pH值、可滴定酸度、總糖含量與水活性皆無顯著變化,且可有效抑制腐敗性微生物,維持梅乾菜之風味。 | zh_TW |
dc.description.abstract | Dapi township, Yun-lin County is famous for pickled mustard production. During pickling process, pickled mustard wastes are produced by removing stems and leaves from pickled mustard after they are graded and packed. These wastes have high salt and acid contents, and if not disposed properly, can cause environmental pollution. Thus it becomes abundantly clear that a beneficial solution to the pickled mustard disposal problem is needed. The major objective of this study is to evaluate the feasibility of using the pickled mustard wastes to produce fermented mustard or salt-dried mustard, thus solving the pickled mustard disposal problem.
The pickled mustard waste from Dapi township contains a salt content level between 8-11% , the average pH is 4.0. The titratable acidity is around 1.2%, and moisture content and water activity is about 81% and 0.9 respectively. The total aerobic count and the yeast and mold count are both lower than 5 log CFU/g. The quality of pickled mustard waste is similar to pickled mustard and without off-flavor. In this utilization of pickled mustard waste experiment , the fermented mustard and salt-dried mustard produced with pickled mustard wastes by the sun drying method and the oven drying method have an acceptable level similar to the commercially made products. When considering the factor of economic benefits, salt-dried mustard made from pickled mustard waste is actually more practical. To further improve the taste of salt-dried mustard, combination of different types of alcohol and additive were added into the salt-dried mustard made from pickled mustard waste. The result of the sensory evaluation shows that the salt-dried mustard was treated with edible edible alcohol 5% of the salt-dried mustard’s weight, the flavor of the salt-dried mustard was the best. During the storage of salt-dried mustards that were packaged in PE bag or vacuum bag at room temperature for 6 months, there were no significantly different in the pH level, titratable acidity, total sugar and water activity. The result also shows that this storage method can effectively inhibit the spoilage organisms and maintain the flavor of the salt-dried mustard. | en |
dc.description.provenance | Made available in DSpace on 2021-06-13T00:27:55Z (GMT). No. of bitstreams: 1 ntu-96-R94641026-1.pdf: 709491 bytes, checksum: 8da330f789e28d4cab9e20d396560131 (MD5) Previous issue date: 2007 | en |
dc.description.tableofcontents | 口試委員審定書......................................i
謝誌...............................................ii 中文摘要 .........................................iii 英文摘要...........................................iv 壹、前言............................................1 貳、文獻整理........................................2 一、芥菜簡介........................................2 二、醃漬食品........................................4 (一)定義..........................................4 (二)醃漬物的分類..................................4 (三)醃漬物的微生物................................4 (四)醃漬原理......................................6 三、芥菜醃漬物......................................9 (一)酸菜..........................................9 (二)榨菜.........................................12 (三)福菜.........................................12 (四)梅乾菜.......................................14 四、農產品廢棄物的處理與利用.......................16 (一)農產品廢棄物利用之重要.......................16 (二)國內對農產廢棄物之處理方式...................16 (三)農產品廢棄物之利用...........................16 五、酸菜廢棄物.....................................18 (一)酸菜尾簡介...................................18 (二)酸菜尾之利用.................................18 參、材料與方法.....................................19 一、試驗材料.......................................19 (一)原料.........................................19 (二)培養基.......................................19 (三)儀器.........................................19 (四)藥品.........................................20 二、實驗架構.......................................21 三、福菜與梅乾菜之製備.............................26 (一)酸菜尾製造福菜...............................26 (二)酸菜尾製造梅乾菜.............................26 四、試驗方法.......................................27 (一)品質分析.....................................27 (二)微生物菌相分析...............................27 (三)基本成分分析.................................28 (四)有機酸分析...................................30 (五)喜好性品評試驗...............................31 (六)統計分析.....................................31 肆、結果與討論.....................................32 一、大埤地區酸菜尾之品質調查.......................32 (一)酸菜尾之基本成分與品質特性...................32 (二)酸菜尾之微生物菌相...........................33 (三)酸菜尾儲存室溫期間品質變化...................33 二、市售福菜與梅乾菜產品之品質調查.................34 (一)市售福菜之產品特性...........................34 (二)市售梅乾菜之產品特性.........................34 三、酸菜尾製造福菜之製程確立與其品質之探討.........35 (一)酸菜尾製造福菜之品質特性.....................35 (二)酸菜尾製造福菜之微生物菌相...................36 (三)酸菜尾製造福菜之喜好性品評試驗...............37 四、酸菜尾製造梅乾菜之製程確立與其品質之探討.......38 (一)酸菜尾製造梅乾菜之品質特性...................38 (二)酸菜尾製造梅乾菜之微生物菌相.................39 (三)酸菜尾製造梅乾菜之喜好性品評試驗.............40 五、利用酸菜尾製造具風味梅乾菜之研究...............40 六、酸菜尾製造梅乾菜之儲存試驗.....................42 伍、結論...........................................76 參考文獻...........................................77 | |
dc.language.iso | zh-TW | |
dc.title | 利用酸菜尾製備福菜與高品質梅乾菜之研究 | zh_TW |
dc.title | Studies on the preparation of fermented mustard and high quality salt-dried mustard from pickled mustard waste | en |
dc.type | Thesis | |
dc.date.schoolyear | 95-2 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 丘志威,顏聰榮,李?鈴,周正俊 | |
dc.subject.keyword | 酸菜,酸菜尾,福菜,梅乾菜,廢棄物再利用, | zh_TW |
dc.subject.keyword | Pickled mustard,Pickled mustard waste,Fermented mustard,Salt-dried mustard,Waste reuse, | en |
dc.relation.page | 84 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2007-07-26 | |
dc.contributor.author-college | 生物資源暨農學院 | zh_TW |
dc.contributor.author-dept | 食品科技研究所 | zh_TW |
顯示於系所單位: | 食品科技研究所 |
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