Crops ›› 2022, Vol. 38 ›› Issue (1): 227-232.doi: 10.16035/j.issn.1001-7283.2022.01.034

Previous Articles    

Effects of the Number of Various Fruits Retention on Seed Yield and Quality of Xiangyan 5

Xiao Qinzhi1(), Zhou Li1, Deng Bin2, Teng Linjuan3, Li Xiaohui1, Qin Ling1, Wang Gui1, Gan Zaide1, Lu Chaojun2, Cui Guoxian4()   

  1. 1Yongzhou Branch of Hunan Tobacco Company, Yongzhou 425000, Hunan, China
    2Hunan Tobacco Company, Changsha 410000, Hunan,China
    3Yongzhou Agricultural Science Research Institute, Yongzhou 425000, Hunan, China
    4College of Agriculture, Hunan Agricultural University, Changsha 410000, Hunan, China
  • Received:2021-04-29 Revised:2021-07-26 Online:2022-02-15 Published:2022-02-16
  • Contact: Cui Guoxian E-mail:xwiao@126.com;627274845@qq.com

Abstract:

In order to improve the flue-cured tobacco Xiangyan 5 seed yield and quality, root activity, seedling quality and resistance, a field test was conducted to investigate the effects of the number of various fruits retention on yield and quality of Xiangyan 5. The results showed that the seed yield of 80 fruits retention per plant was the highest, the germination rate reached 99.0%, the 7th leaf emergence days of the seedlings was 64.8d, and the chemical composition coordination was better than that of 100, 120, 140 fruits retention per plant. The medium to high smoking rate reached 96.73%. Although the seedlings of 60 fruits retention per plant had the shortest leaf emergence days, the seed root vigor, chlorophyll and proline content, and medium to high smoking rate were the highest, and the chemical composition contents of leaves were better than that of 80 fruits retention per plant, but too few fruit retention would affect seed yield. Under the conditions of this study, the optimal number of fruit retention per plant of tobacco Xiangyan 5 was 80.

Key words: Xiangyan 5, Seed production technology, Fruit retention number, Seed vigor

Table 1

Yield of Xiangyan 5 seeds under different treatments"

处理
Treatment
单株重
Weight per plant (g)
千粒重
1000-grain weight (g)
产量
Yield (kg/hm2)
T1 5.63d 0.0706d 8.81d
T2 6.73a 0.0994a 10.54a
T3 6.37b 0.0898b 10.25b
T4 6.47b 0.0903b 10.37b
CK 6.03c 0.0764c 9.25c

Table 2

Color and uniform plumpness of Xiangyan 5 seeds under different treatments"

处理
Treatment
色泽
Color
均匀饱满度
Uniform plumpness
T1 暗褐色,光泽强 籽粒均匀,饱满
T2 黄褐色,光泽强 籽粒均匀,饱满
T3 黄褐色,光泽强 籽粒均匀,饱满
T4 黄褐色,光泽强 籽粒均匀,饱满
CK 黄褐色,光泽稍暗淡 籽粒均匀度较差,较小

Fig.1

Germination potential and germination rate of Xiangyan 5 seeds under different treatments NS indicates no significant difference between treatments"

Fig.2

Days of growing leaves of Xiangyan 5 seedlings under different treatments Different lowercase letters indicate significant difference (P < 0.05). The same below"

Table 3

Agronomic characters of Xiangyan 5 seedlings under different treatments"

处理
Treatment
苗高
Seedling
height (mm)
茎围
Stem circumference
(mm)
根鲜重
Fresh weight
of root (mg)
主根长
Main root
length (cm)
4叶1心
T1 10.20b 10.30a 0.21b 0.84b
T2 11.80a 11.10a 0.29a 0.98a
T3 11.40a 10.70a 0.27a 0.93a
T4 10.80ab 10.40a 0.22b 0.90ab
CK 10.00b 9.20b 0.19b 0.81c
7叶1心
T1 40.66b 16.37b 1.23c 1.22b
T2 52.83a 20.09a 1.99a 1.69a
T3 53.13a 21.61a 2.02a 1.55a
T4 48.32ab 19.32ab 1.68b 1.42ab
CK 40.80b 15.20b 1.32c 1.28b

Fig.3

Root number of Xiangyan 5 seedlings under different treatments"

Table 4

Physiological indexes of Xiangyan 5 Seedlings under different treatments"

处理
Treatment
根系活力
Root activity [μg/(g·h FW)]
叶绿素
Chlotophyll (mg/g)
脯氨酸
Pro (μg/g)
T1 430.3a 0.52a 32.65a
T2 438.2a 0.55a 32.17a
T3 406.5b 0.46b 28.62b
T4 395.7b 0.39c 26.35c
CK 355.2c 0.31c 25.67c

Fig.4

Chemical components in Xiangyan 5 tobacco leaves under different treatments"

Table 5

Proportion of different grades of Xiangyan 5 tobacco leaves under different treatments %"

处理
Treatment
上等烟率
Superior
smoking rate
中等烟率
Moderate
smoking rate
中上等烟率
Medium to high
smoking rate
T1 69.32a 27.41b 96.73a
T2 68.44a 26.57b 95.01a
T3 62.79b 28.16b 90.95ab
T4 48.45c 36.93a 85.38b
CK 42.04c 38.29a 80.33b
[1] 代世荣. 优质烤烟栽培技术. 中国农业信息, 2016(20):137.
[2] 曾昭松, 吴才源, 龙立汪, 等. 烤烟品种云烟87生产技术研究进展. 安徽农学通报, 2018, 24(9):44-46.
[3] 钟爱华. 烤烟生产技术要点. 农家致富顾问, 2016(6):51-52.
[4] 黄志宏. 优质烤烟生产关键技术. 吉林农业, 2019(3):75.
[5] 高井康雄. 植物营养与技术. 敖光明,梁振兴,译. 北京: 农业出版社, 1998.
[6] 李合生, 陈崔莲, 洪玉枝. 植物生理生化试验原理和技术. 北京: 高等教育出版社, 2000.
[7] 中华人民共和国国家技术监督局. 烤烟:GB 2635-1992. 北京: 中国标准出版社, 1992.
[8] 颜启传. 种子学. 北京: 中国农业出版社, 2001.
[9] 中国农业科学院烟草研究所. 中国烟草栽培学. 上海: 上海科学技术出版社, 1987.
[10] 陈雯倩, 林文丽, 包卫红, 等. 厚皮甜瓜“海蜜10号”母本种植密度、留果数对制种产量及质量的影响. 上海农业科技, 2020(2):50-51.
周金仙, 邓盛斌. 烤烟不育系杂交制种的最适留果数. 种子, 2007(7):113-115.
[11] 潘秋亚, 杨旎, 杨通隆. 施肥方式、打顶时期、留叶数不同组合对烤烟产质量的影响. 湖南农业科学, 2013, 18(7):18-20.
[12] 韩湘玲, 曲曼丽. 作物生态学. 北京: 气象出版社, 1991.
[13] 吴国, 玄春吉. 采种期和留果数对烟草种子发芽率的影响. 烟草科技, 1995(6):35-37.
[14] 周怀兵. 定植方式和留穗留果数对番茄植株生长及果实产量和品质的影响. 南京:南京农业大学, 2013.
[15] 凌启鸿, 张洪程, 蔡建中, 等. 水稻高产群体质量及其优化控制探讨. 中国农业科学, 1993, 26(6):1-11.
[16] 马均, 陶诗顺. 杂交中稻超多蘖壮秧超稀高产栽培技术的研究. 中国农业科学, 2002, 35(1):42-48.
[17] 方辉, 张颖, 范媛媛, 等. 镉胁迫对水稻收获种子质量的影响. 湖北农业科学, 2013, 52(4):773-775.
[18] 李振华, 叶定勇, 杨贵生, 等. 烤烟不同分枝蒴果成熟度和种子活力的差异分析. 中国农业大学学报, 2014, 19(6):35-40.
[19] 石俊雄, 陈雪, 雷璐. 生态环境对贵州烟叶主要化学成份影响初探//中国烟草学会第五届理事会第二次会议暨2005年学术年会论文集. 中国烟草学会, 2005: 6.
[20] 贺升华, 任炜 烤烟气象. 昆明: 云南科技出版社, 2001.
[1] Guo Yuqi, Wang Caijin, Wang Yang. Diversity Analysis of Seed Vigor-Related Traits of Spring Soybean Landraces in North China [J]. Crops, 2021, 37(5): 211-218.
[2] Yuan Jun, Zheng Wen, Qi Hengnian, Gao Lu, Hu Xiaojun, Zhao Guangwu, Shi Junsheng, Jia Liangquan. Progress in Research of Optical Non-Destructive Test Technology for Seed Vigor [J]. Crops, 2020, 36(5): 9-16.
[3] Huang Fan,Li Jun,Liu Lei,Li Zhiyong,Li Hongyan,Shi Wengui,Xie Yongfeng. Effects of Artificial Aging on Genetic Integrity of Elymus sibiricus L. [J]. Crops, 2019, 35(5): 52-56.
[4] Haosheng Li,Yan Li,Chenglai Wu,Linmao Zhao,Chunqing Zhang. Effects of DA-6 Treatment at Post-Anthesis on Seed Vigor of Maize Inbred Zheng 58 [J]. Crops, 2019, 35(1): 186-191.
[5] Cuicui Yang,Fade Li,Yan Li,Chenglai Wu,Chunqing Zhang. Effects of Arc-Tooth-Shaped Corona Discharge Field Treatment on Improving Corn Seed Vigor and Physiological Indexes [J]. Crops, 2016, 32(6): 154-159.
[6] . [J]. Crops, 2013, 29(3): 136-140.
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
No Suggested Reading articles found!