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| 枇杷果肉有机酸组分及有机酸在果实内的分布 | |
| 引用本文: | 陈发兴,刘星辉,陈立松.枇杷果肉有机酸组分及有机酸在果实内的分布[J].热带亚热带植物学报,2008,16(3):236-243. |
| 作者姓名: | 陈发兴 刘星辉 陈立松 |
| 作者单位: | 1. 福建农林大学园艺学院,福州350002;福建农林大学亚热带果树研究所,福州350002 2. 福建农林大学园艺学院,福州,350002 3. 福建农林大学园艺学院,福州350002;福建农林大学园艺植物生理生化与分子生物学研究所,福州350002 |
| 基金项目: | 国家自然科学基金;福建省自然科学基金 |
| 摘 要: | 用高效离子交换色谱(HPIC)测定了枇杷(Eriobotrya japonica Lindk)18个品种(小毛枇杷、夹脚、卓南1号、解放钟、富阳、森尾早生、华宝2号、香钟10号、白花、土肥、多宝2号、乌躬白、洛阳青、茂木、早钟6号、白梨、塘头4号和长红3号)的成熟果肉和2个品种(解放钟和早钟6号果)成熟果实不同组织有机酸含量。结果表明,成熟果肉中均含有苹果酸、奎尼酸、柠檬酸、异柠檬酸、α-酮戊二酸、富马酸、草酰乙酸、酒石酸8种有机酸,有的还含有微量的阿魏酸、顺乌头酸和B一香豆酸。大多数品种果肉中苹果酸含量最高,平均含量为4399mg kg^-1 FW,占总酸的62.7%;其次是奎尼酸,其平均含量为2042mgkg—FW,占总酸的29.1%。品种之间可滴定酸和有机酸含量差异很大。通过对果肉可滴定酸进行聚类分析,可把18个枇杷品种分为五个组群:极高酸(小毛枇杷)、高酸(夹脚、卓南1号、解放钟和富阳)、中酸(森尾早生、华宝2号、香钟10号、白花、土肥和多宝2号)、低酸(乌躬白、洛阳青、茂木和早钟6号)和极低酸(白梨、塘头4号和长红3号)。解放钟和早钟6号果肉和果皮的总酸含量及可滴定酸均无显著差异,但果皮和果肉的总酸含量和可滴定酸均大大高于种子。相似于果肉,果皮和种子的主要有机酸也是苹果酸和奎尼酸。果皮中苹果酸含量远高于奎尼酸,但种子中苹果酸含量比奎尼酸稍低。此外,种子中苹果酸和奎尼酸比果肉和果皮中的低得多。 |
| 关 键 词: | 枇杷 果实 苹果酸 有机酸组分 果肉 奎尼酸 种子 果皮 |
Organic Acid Composition in the Pulp of Loquat (Eriobotrya japonica Lindl.) and Distribution in Fruits |
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| CHEN Fa-xing,LIU Xing-hui and CHEN Li-song.Organic Acid Composition in the Pulp of Loquat (Eriobotrya japonica Lindl.) and Distribution in Fruits[J].Journal of Tropical and Subtropical Botany,2008,16(3):236-243. | |
| Authors: | CHEN Fa-xing LIU Xing-hui and CHEN Li-song |
| Institution: | a. College of Horticulture; b. Institute of Subtropical Fruit, Fjian Agriculture and Forestry University;College of Horticulture, Fujian Agriculture and Forestry University;a. College of Horticulture; c. Institute of Horticultural Plant Physiology, Biochemistry and Molecular Biology, Fujian Agriculture and Forestry University |
| Abstract: | Organic acids from the ripe pulp of 18 loquat (Eriobotrya japonica Lindl.) cultivars ('Xiaomaopipa','Jiajiao', 'Zhuonan 1', 'Jiefangzhong', 'Fuyang', 'Moriowase', 'Huabao 2', 'Xiangzhong 10', 'Baihua','Toi', 'Duobao 2', 'Wugongbai', 'Luoyangchin', 'Mogi', 'Zaozhong 6', 'Ba ili', 'Tantou 4', 'Changhong3') and their distribution in the ripe fruit of 2 cultivars ('Jiefangzhong' and 'Zaozhong 6' ) were determined byhigh-performance ion-exchange chromatography (HPIC). Eight organic acids (malic, quinic, citric, iso-citric, α-ketoglutaric, fumaric, oxaloacetic and tartaric acids) were identified in ripe pulp, while trace quantities of ferulic,cis-aconitic and β-coumaric acids were identified in several cultivars. The predominant organic acid of ripe pulp ofmost cultivars was malic acid, with an average content of 4 399 mg kg-1 FW for all cultivars, accounting for62.7% of the total acids. Quinic acid was the second in abundance, with an average content of 2 042 mg kg-1 FW,accounting for 29.1% of the total acids. Other acids ranged from trace to 3.0% of the total acids. Considerablevariations in titratable acidity and organic acid content exist among cultivars. Based on titratable acidity, 18 culti-vars could be separated into 5 groups by clustering analysis: very high acidity ('Xiaomaopipa'), high acidity('Jiajiao', 'Zhuonan 1 ', 'Jiefangzhong' and 'Fuyang' ), medium acidity ('Moriowase', 'Huabao 2', 'Xiang-zhong 10', 'Baihua', 'Toi', 'Duobao 2 '), low acidity ('Wugongbai', 'Luoyangchin ', 'Mogi' and 'Zaozhong 6' ), and very low acidity ('Baili', 'Tantou 4' and 'Changhong 3' ). No significant difference wasfound in the absolute amounts of total acids and titratable acidity between pulp and skins, while the amounts of to-tal acids and titratable acidity in seeds was far lower than those in pulp and skins. The major organic acids identi-fied in skins and seeds were malic and quinic acids. In skins, the content of malic acid was far higher than quinicacid, but in seeds it was slightly lower than quinic acid. In addition, malic acid and quinic acid content in seedswas far lower than those in pulp and skins. |
| Keywords: | Loquat Fruit Malic acid Organic acid composition Pulp Quinic acid Seed Skin |
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