| 301 | 4 | 162 |
| 下载次数 | 被引频次 | 阅读次数 |
测定和比较新疆10个核桃品种与实生后代坚果叶片、青皮、种皮和核仁总多酚含量,研究10个核桃品种实生后代坚果不同部位之间总多酚含量的相关性。结果表明:(1)10个核桃品种亲本与实生后代坚果不同部位总多酚含量中,核桃种皮总多酚含量明显高于叶片、青皮和核仁总多酚含量。(2)10个核桃品种亲本坚果总多酚含量由多到少的依次为新巨丰>温91>新丰>扎71>新乌417>温611>新早丰>新温179>扎343>新温81,实生后代坚果平均总多酚含量多少排序与亲本一致。(3)实生后代坚果不同部位总多酚含量之间存在相关性,核仁与种皮之间呈极显著正相关,相关系数为0. 84,叶片与种皮、核仁与叶片之间呈显著正相关,相关系数分别为0. 74、0. 70。
Abstract:The total polyphenol content in the leaves, green skin, seed coat and nucleolus of 10 walnut cultivars and their progeny in Xinjiang was determined and compared. The correlation of total polyphenol content between different parts of the seedlings of 10 walnut cultivars was studied. The results showed that:(1) The content of total polyphenols in walnut seed coats was significantly higher than that in leaves, green skin and nucleoli, and the total polyphenol content in the different parts of 10 walnut varieties and the progeny nuts.(2) The total polyphenol content of 10 walnut varieties parental nuts is in order of Xin Jufeng>Wen 91>Xinfeng>Zha71>Xinwu 417>Wen 611>Xin Zaifeng>XinWen179>Zha 343 > XinWen81, the average total polyphenol content of the nuts of the offspring is consistent with the parent.(3) There was a correlation between the total polyphenol content in different parts of the seed of the offspring, and there was a significant positive correlation between the nucleolus and the seed coat. The correlation coefficient was 0. 84, and the leaf and the seed coat, the nucleolus and the leaf were significantly positive. Correlation, the correlation coefficients are 0. 74 and 0. 70.
[1]郭慧清,张泽坤,白光灿,等.核桃种皮多酚的研究进展及应用前景[J].农产品加工, 2017(17):36-39.
[2]贾淑平,燕子红,潘言亮,等.核桃青皮多酚改性壳聚糖-明胶复合膜的制备及其性能[J].精细化工, 2017, 34(08):919-924.
[3]魏欢,颜小捷,杨建文,等.核桃叶多酚含量的测定和抗氧化能力的研究[J].广西植物, 2018, 38(05):596-601.
[4]王霄然.核桃种皮废弃物的再生利用[D].天津科技大学, 2017.
[5]李笑笑.核桃种皮多酚的提取及核桃油与核桃蛋白粉的稳定性研究[D].无锡:江南大学, 2017.
[6]史斌斌.铁核桃多酚类物质含量与抗氧化活性、代谢相关酶活性的关系[D].贵阳:贵州大学, 2017.
[7]徐蓓蓓.核桃副产物多酚的提取及其对油脂氧化稳定性的影响[D].塔里木大学, 2017.
[8]于文蛟,王苗苗,韩飞,等.新疆核桃多酚含量比较研究[J].农产品加工, 2018(22):56-58.
[9]黄小龙,孙雨辰,张维等.核桃多酚化学及生物活性研究进展[J].食品工业科技, 2018, 9(21):48-352.
[10]耿树香,宁德鲁,李勇杰,等.云南省主栽核桃品种种皮中多酚的检测分析[J].西部林业科学, 2016, 45(05):124-127.
[11]郑渝川,黄仲华,黄伊嘉等. 3种核桃副产物多酚提取液的体外抗氧化活性分析[J].四川林业科技, 2019, 40(01):15-19.
[12]周文秀. 10种西部核桃仁营养分析及核桃青皮多酚对乳腺癌细胞231的凋亡作用研究[D].杭州:浙江大学,2016.
[13]于冬梅,盖素芬.核桃叶中主要营养元素含量的年动态变化规律[J].农产品加工, 2009,(8):53-56.
[14]宋静武,殷德松,赵弟广,等.核桃叶片内多酚黄酮类成分对低温胁迫的响应[J].河北林果研究, 2017, 32(01):34-41.
[15]史斌斌,张文娥,李雪,等.铁核桃叶片多酚类物质含量及其抗氧化活性[J].园艺学报, 2017,44(01):23-32.
[16]刘瑞,谢辰阳,吴水霞,等.核桃青皮不同极性酚类物质组成分析[J/OL].食品科学技术学报:1-8[2019-07-02]. http://kns. cnki. net/kcms/detail/10. 1151. TS.20190617. 1719. 002. html.
[17]肖培,杜海娟,欧康康,等.核桃青皮色素的提取及其在真丝上的染色[J].中原工学院学报, 2019, 30(02):6-11.
[18]朱红祥.新疆阿克苏核桃果实生长特性与栽培管理技术[J].果树实用技术与信息, 2019(02):10-12.
[19]仲雪娜,任小娜,曾俊,等.新疆不同品种核桃及其油脂品质对比分析[J].中国油脂, 2018,43(12):130-133.
基本信息:
中图分类号:S664.1
引用信息:
[1]伊再提古丽·加帕尔,焦灰敏,努尔买买提,等.新疆不同核桃品种与实生后代总多酚含量差异分析[J].塔里木大学学报,2019,31(04):47-52.
基金信息:
新疆生产建设兵团科技攻关计划项目“核桃新品种选育与高产高效栽培创建示范”(2011BA003)
2019-05-27
2019
2019-09-18
2019-09-30
2019
1
2019-12-15
2019-12-15