貯藏期間鳳梨果實物化性狀與黑心劣變之相關性

字體大小:A- A A+

單位商業會員附件下載:
論文名稱: 貯藏期間鳳梨果實物化性狀與黑心劣變之相關性
研究生姓名: 曾柏瑄
指導教授姓名: 陳京城
出版年: 2013
學校名稱: 國立中興大學
系所名稱: 園藝學系所
關鍵字: 鳳梨;黑心病;多酚氧化酵素;pineapple;blackheart;polyphenol oxidase
摘要: 鳳梨果實兩種主要的生理劣變為水浸狀劣變(translucency)與黑心劣變(blackheart),發生嚴重時,果實品質降低,可能造成重大經濟損失。本研究主要目的為分析果實物化性狀與黑心劣變之相關性,以及探討可能影響黑心劣變發生之關鍵因子。 調查‘台農17號’鳳梨果實不同部位果肉之性狀,結果發現可溶性固形物含量及總可滴定酸均由內而外遞增,且貯藏前後無明顯變化。內果肉之檸檬酸、蘋果酸及總酸含量在貯藏後降低,但抗壞血酸則是在貯藏後有明顯提升。外果肉之抗壞血酸含量在貯藏前後均顯著高於果心。 分析‘台農17號’鳳梨果實不同部位之多酚氧化酵素(polyphenol oxidase; PPO)活性,結果顯示貯藏前後果心PPO比活性均顯著高於其他部位。而果實各部位抗氧化力(FRAP)由內而外遞增。當果實經過8℃貯藏2週再移至室溫貯藏4天,除果心外,其他部位果肉之FRAP均明顯上升。 不同產區之‘台農17號’鳳梨果實經8℃貯藏2週再移至室溫下1週,果實黑心劣變發生嚴重。貯藏後抗壞血酸平均值沒有明顯變化,但FRAP則顯著提升。不過FRAP與黑心劣變並無顯著相關性存在。貯藏前總糖含量與貯藏後黑心劣變指數呈顯著負相關,顯示糖度較低之果實黑心劣變較嚴重。 肥培管理也是影響鳳梨果實生理劣變發生的因子之一。以不同產區‘台農17號’鳳梨果實分析黑心劣變相關因子中發現,採收時果實氮含量與貯藏後黑心劣變呈正相關,即氮含量較高之果實,黑心劣變較嚴重。銅含量也與黑心劣變指數呈正相關,且不同品種鳳梨之分析結果也顯示兩者呈正相關,因此銅可能是影響黑心劣變發生重要因子之一,其含量高低應可做為預測鳳梨黑心劣變發生之指標。而鈣含量不論在不同產區之‘台農17號’鳳梨或不同品種鳳梨之調查結果中,均與黑心劣變指數無顯著相關性存在,顯示鈣離子可能並非影響鳳梨黑心劣變發生之主要因子。 本研究之不同鳳梨品種中,除‘台農20號’鳳梨之外,其他品種果實經過低溫貯藏後,皆有黑心劣變發生。採收時果實FRAP與貯藏後黑心劣變指數呈正相關,但貯藏後果實FRAP則與黑心劣變指數呈負相關。不同品種鳳梨之FRAP有很大差異,但黑心劣變嚴重之品種,雖然採收時FRAP可能較高,但貯藏後FRAP明顯下降,例如黑心劣變嚴重之‘台農16號’鳳梨採收時FRAP值為230.8 (Fe+2 μmole/g Fw),貯藏後降至115.5(Fe+2 μmole/g Fw),降低50%。而耐黑心劣變品種,雖然採收時FRAP較低,但貯藏後FRAP顯著提升,例如‘台農20號’鳳梨冷藏後並無黑心劣變發生,其採收時FRAP為148.4(Fe+2 μmole/g Fw),而貯藏後增加至209.0 (Fe+2μmole/g Fw),增加40%。顯示貯藏前後FRAP提升較多之鳳梨品種,其耐黑心劣變之能力較強。 鳳梨相較於其他水果,屬於低抗壞血酸含量之果實,在鳳梨果實總抗氧化力中,抗壞血酸所佔比例並不高。不同品種鳳梨冷藏後之FRAP與黑心劣變呈負相關,顯示除抗壞血酸之外,鳳梨果實應該存在更具抗氧化力之物質。Fruit flesh translucency and blackheart are two major physiological disorders of pineapple. When the disorders are severe, fruit quality decreases, which could result in serious financial loss. The main objective of this study was to analyze the correlation between physical-chemical characteristics of pineapple fruit and the occurrence of blackheart disorder, and to investigate the key factors in blackheart occurrence. The physical-chemical characteristics in different parts of ‘TN17’ pineapple fruit flesh were examined. The results indicated that the total soluble solid and total titratable acid increased progressively from the core to outer pulp, and there were no significant changes after storage. Citric acid、malic acid and total acid contents in the inner pulp decreased after storage, but ascorbic acid content increased. Ascorbic acid content in the outer pulp was significant higher than that in the core before and after storage. Polyphenol oxidase activity in different parts of ‘TN17’ pineapple fruit flesh was analyzed. The results showed that PPO specific activity in the core of pineapple fruit was the highest. Ferric reducing activity power (FRAP) increased progressively from the core to outer pulp of fruit. After fruits were stored at 8℃ for 2 weeks, followed by at room temperature for 4 days, the FRAP in pulps increased, but not in the core. ‘TN17’pineapple fruit, harvested from different producing areas, were stored at 8℃ for 2 weeks, followed by at room temperature for 1 week. Fruit harvested from all producing areas had severe blackheart disorder. There was no significant change in the average of ascorbic acid content after storage but FRAP increased significantly. However, there was no significant correlation between FRAP and blackheart index. The correlation between sugar content and total sugar content before storage and blackheart index after storage was significantly negative. It indicated that fruits with lower sugar contents had more severe blackheart disorder. Fertilizer management is one of the factors affecting the occurrence of pineapple fruit disorders. The relative factors regarding blackheart disorder in pineapple fruits harvested from different producing areas were analyzed. The results indicated that there was a positive correlation between nitrogen content in fruit flesh at harvest and blackheart index after storage. The correlation between copper content and blackheart index was also significantly positive. In addition, same correlation was found in the analysis of different pineapple cultivars, which suggested that copper might an important factor. Therefore, copper content could be used as an index to predict blackheart occurrence. In contract, there were no significant correlations between calcium content and blackheart index in fruits harvested from different producing areas and in fruits of different cultivars. It suggested that calcium may not be a major factor affecting of blackheart occurrence. In this study, pineapple fruits of different cultivars developed blackheart disorder after cold storage except ‘TN20’ pineapple. The correlation between FRAP at harvest and blackheart index after storage was negative but the correlation between FRAP after storage and blackheart index was positive. There was a significant variation in FRAP in fruits of different pineapple cultivars. Fruits of cultivars which developed severe blackheart disorder had higher FRAP at harvest, but decreased significantly after storage. For example, the FRAP of ‘TN16’ pineapple, a cultivar that is highly susceptible to disorder, was 230.8 (Fe+2 μmole/g Fw) at harvest, which decreased to 115.5(Fe+2 μmole/g Fw) after storage, a 50% decrease. For blackheart resistant cultivars, although it was low at harvest, FRAP significantly increased after storage. For example, ‘TN20’ pineapple had no blackheart development after storage, and its FRAP value was 148.4(Fe+2 μmole/g Fw) at harvest, which went up to 209.0(Fe+2 μmole/g Fw) after storage, a 40% increase. The result suggested that pineapple cultivars whose fruits had more increase in FRAP after storage, had higher potential to tolerate blackheart development. Compared to other fruits, pineapple has low ascorbic acid content. The contribution of ascorbic acid to total antioxidant potential in pineapple fruit is low. FRAP and blackheart index was negatively correlated after cold storage, indicating that, besides ascorbic acid, more important antioxidants should exist in pineapple fruit.
資源連結: 前往查看