«Previous Article|Table of Contents|Next Article»

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2021年01

Page:

73-80

Research Field:

Publishing date:

Info

Title:

Effects of Biological Nano-selenium on the Physiological Indexes and Flavonoids Content in the Leaf of Ginkgo biloba L.

Author(s):

DENG Kun1; WANG Yuan1; LI Lei1; CHENG Hua2; LI Li1; 2; CHENG Shuiyuan1; 2

(1.School of Biological and Pharmaceutical Engineering,Wuhan Polytechnic University，Wuhan，Hubei 430023;2.National R&D Center for Se-rich Agricultural Products Processing,Wuhan,Hubei 430023)

Keywords:

Ginkgo biloba L.; biological nano-selenium; flavonoids; physiological indexes

PACS:

-

DOI:

10.11937/bfyy.20194784

Abstract:

Taking two-year old Ginkgo seedling ‘Jiafoshou’ as the material，the ginkgo seedlings were sprayed with methods of different concentrations biological nano-selenium，the experiment studied the effects of different concentrations of bio-nano-selenium treatment on the physiological indexes and flavonoid content of ginkgo leaves at different growth stages，which hoping to provide a reference for ginkgo cultivation and efficient use of bio-nano-selenium.The results showed that the contents of chlorophyll，soluble sugar and total flavonol glycosides in the G.biloba leaf with 1.6 mmol?L-1 biological nano-selenium treatment increased in July and September，which were 43.87%，59.92%，43.99% and 13.86%，18.60%，35.04% higher than control group，and the improvement was significantly different.Paying attention to the 1.6 mmol?L-1 nano-selenium treatment group，the total flavonol glycoside content in June，July，September and October were 6.78%,31.84%,36.70% and 9.78% higher than it in August，which were significant differences in July and September.In conclusion，it could obtain the best quality G.biloba leaf if 1.6 mmol?L-1 biological nano-selenium fertilizer was applied and leaf is collected in July and September.

References:

[1]王燕,程水源,汪琼.银杏栽培学[M].武汉:湖北人民出版社,2007.[2]程水源,顾曼如,束怀瑞.银杏叶黄酮研究进展[J].林业科学,2000(6):110-115.[3]钱龙梁,曹福亮,汪贵斌.品种和气候对嫁接银杏叶中黄酮含量的影响[J].中南林业科技大学学报,2019,39(3):51-55.[4]王燕,程水源,费永俊,等.提高银杏叶黄酮含量的调控措施[J].湖北农业科学,2002(5):103-105.[5]程水源.硒学导论[M].北京:中国农业出版社,2019.[6]程水源.硒之科普[M].北京:中国农业出版社,2019.[7]GAO X Y,ZHANG J S,ZHANG L.Hollow sphere selenium nanoparticles:Their in-vitro anti hydroxyl radical effect[J].Advanced Materials,2002,14(4):290-293.[8]李吉祥,吴文良,郭岩彬.细菌生物合成纳米硒的研究进展[J].农业资源与环境学报,2014,31(6):551-554.[9]WANG H,ZHANG J,YU H.Elemental selenium at nano size possesses lower toxicity without compromising the fundamental effect on selenoenzymes:Comparison with selenomethionine in mice[J].Free Radical Biology and Medicine,2007,42(10):1524-1533.[10]郑威,张再起,廖黎娟,等.一株生产有机硒菌的筛选鉴定及有机硒转化能力测定[J].湖北农业科学,2016,55(24):6389-6394.[11]郑威,万晟杰,龙小玲,等.生物有机硒对水稻农艺经济性状及硒吸收分配的影响[J].农村经济与科技,2018,29(23):54-56,145.[12]HU C H,LI Y L,XIONG L,et al.Comparative effects of nano elemental selenium and sodium selenite on selenium retention in broiler chickens[J].Animal Feed Science and Technology,2012,177(3-4):204-210.[13]SHI L,XUN W,YUE W,et al.Effect of sodium selenite，Se-yeast and nano-elemental selenium on growth performance,Se concentration and antioxidant status in growing male goats[J].Small Ruminant Research,2011,96(1):49-52.[14]席旭东,姬丽君,李海东.纳米硒植物营养剂对蒙古黄芪产量及品质的影响[J].中国农学通报,2014,30(25):262-266.[15]王雅琦,朱丽娜,李奎,等.小麦和水稻对纳米硒的吸收和转运[J].环境科学,2019(10):1-10.[16]王学奎.植物生理生化实验原理和技术[M].2版.北京:高等教育出版社,2006.[17]叶宝兴,朱新产.生物科学基础实验.植物类[M].北京:高等教育出版社,2007.[18]任红,王如伟,刘华春,等.银杏叶总黄酮醇苷含量快速测定方法研究[J].药物分析杂志,2018,38(5):851-856.[19]程水源,王燕,李俊凯,等.银杏叶片色素含量与黄酮含量关系的研究Ⅱ.叶黄酮与叶绿素组成、比例及类胡萝卜素的关系[J].湖北农学院学报,2001(3):212-216.[20]韩晓霞,魏洪义.硒的营养生物学研究进展[J].南方农业学报,2015,46(10):1798-1804.[21]陈军,曹福亮,汪贵斌.银杏的生长和生理对硒的响应[J].华南农业大学学报,2007,28(增刊1):90-93.[22]EL-RAMADY H,ABDALLA N,TAHA H S,et al.Selenium and nano-selenium in plant nutrition[J].Environmental Chemistry Letters,2015,14(1):123-147.[23]DOMOKOS-SZABOLCSY E,MARTON L,SZTRIK A,et al.Accumulation of red elemental selenium nanoparticles and their biological effects in Nicotiniatabacum[J].Plant Growth Regulation,2012,68(3):525-531.[24]LINDBLOM S D,VALDEZ-BARILLAS J R,FAKRA S C,et al.Influence of microbial associations on selenium localization and speciation in roots of Astragalus and Stanleya hyperaccumulators[J].Environmental and Experimental Botany,2013,88(2):33-42.[25]胡万行,赵博思,石玉,等.生态纳米硒对紫色马铃薯生长及光合特性的影响[J].北方农业学报,2019,47(3):64-69.[26]董雍,李红强,蒋光月.红色纳米硒在水稻和柑橘上的应用研究[J].安徽农学通报,2016,22(7):61-62,88.[27]李利军,马英辉,卢美欢.纳米硒合成细菌Lxz-41的鉴定、培养条件优化及其在富硒猕猴桃栽培中的应用[J].食品工业科技,2019,40(21):110-117.[28]程水源,王燕,李俊凯,等.银杏叶黄酮类化合物合成代谢规律的研究[J].林业科学,2002(5):60-63.[29]王佑成,赵天瑶,苌淑敏,等.纳米硒喷施对绿豆芽生长特性、营养品质、酚类含量和抗氧化性的影响[J].中国农业大学学报,2019,24(5):39-46.[30]刘嘉兴,李旭芬,石玉,等.叶面喷施生态纳米硒对生菜品质的影响[J].浙江农业科学,2019,60(5):803-806.

Memo

Memo:

-

Common functions

Last Update: 2021-04-09