Crops ›› 2021, Vol. 37 ›› Issue (3): 185-189.doi: 10.16035/j.issn.1001-7283.2021.03.028

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Response of Dry Matter Transportion and Yield to Sowing Date and Planting Density on Sunflower

Zhao Xuanwei(), Zhao Yajie, Tian Zhendong, Hu Shuping, Zhao Rong, Ren Yaning, Bao Haizhu(), Gao Julin()   

  1. College of Agriculture, Inner Mongolia Agricultural University, Hohhot 010019, Inner Mongolia, China
  • Received:2020-07-22 Revised:2020-10-26 Online:2021-06-15 Published:2021-06-22
  • Contact: Bao Haizhu,Gao Julin E-mail:zxw9339@163.com;bhz2009@126.com;nmgaojulin@163.com

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Abstract:

Dry matter transfer and yield changes of 'T562' sunflower under five sowing dates (25th April, 2nd May, 9th May, 16th May, and 23th May) with four planting densities (3.75×104, 4.50×104, 5.25×104, and 6.00×104 plant/ha) were studied. The results revealed that the sowing dates showed a high impact during the seedling to flowering stage and a low impact during the flowering to mature stage of sunflower. Under different conditions of planting densities, the treatment order of the average dry matter accumulation of plants at mature stage was 4.50×104 > 3.75×104 > 6.00×104 > 5.25×104 plant/ha. The grain weight per disc was decreased gradually and the yield was increased gradually with the increase of planting density. The grain rate reached the maximum (74.09%) at the sowing date of 16th May when the density was 5.25×104 plant/ha; the 100-seed weight and yield reached the maximum at the sowing date of 2nd May while the planting density was 6.00×104 plant/ha, and the values were 8.76g and 6859.00kg/ha, respectively; the grain weight per disc reached the maximum (138.14g) at the sowing date of 23th May when the density was 3.75×104 plant/ha.

Key words: Sunflower, Sowing date, Planting density, Yield

Table 1

Effects of different sowing dates on the growth period of oilseed sunflower"

生育期(月/日)Growth stage (Month/Day) 播种–出苗
Sowing-
seedling (d)		 出苗–现蕾
Seedling-
squaring (d)		 现蕾–开花
Squaring-
flowering (d)		 开花–成熟
Flowering-
mature (d)		 生育期
Growth
period (d)
播期
Sowing		 出苗期
Seedling		 现蕾期
Squaring		 开花期
Flowering		 成熟期
Mature
4/25 5/07 6/13 7/10 9/02 12 37 27 54 118
5/02 5/14 6/16 7/15 9/07 12 33 29 54 116
5/09 5/19 6/20 7/20 9/11 10 32 30 53 115
5/16 5/27 6/24 7/25 9/15 11 28 31 52 111
5/23 5/31 6/29 7/30 9/20 8 29 31 52 112

Fig.1

The accumulation of dry matter above ground of different periods under different planting densities and sowing dates Different small letters show significant difference at 0.05 level; D1, D2, D3, D4 and D5 indicate the sowing dates of 25th April, 2nd May, 9th May, 16th May and 23th May, respectively. The same below"

Table 2

Variance analysis of the effects of different sowing dates and densities on sunflower dry matter accumulation and transportation (F-value)"

变异来源
Variation source		 转运量
Translocation		 转运率
Transport rate		 贡献率
Contribution rate
播期Sowing date 1.315 1.372 0.467
密度Density 0.509 4.207** 0.671
播期×密度
Sowing date×Density		 0.676 1.649 1.725

Table 3

Changes in dry matter accumulation and transportation of oil sunflower under different sowing dates and planting densities"

播期处理
Sowing date		 密度(株/hm2
Planting density
(plant/ha)		 转运量
Translocation
(g)		 转运率
Transport
rate (%)		 贡献率
Contribution
rate (%)
D1 3.75×104 40.65a 21.20a 27.23a
4.50×104 32.99a 26.09a 19.72a
5.25×104 47.33a 25.98a 30.54a
6.00×104 43.85a 26.00a 28.21a
D2 3.75×104 35.66a 13.11a 25.97a
4.50×104 42.18a 24.46a 28.51a
5.25×104 37.26a 25.04a 25.85a
6.00×104 34.14a 25.09a 22.31a
D3 3.75×104 37.07a 28.71a 28.23ab
4.50×104 43.18a 28.46a 29.58a
5.25×104 53.65a 29.49a 36.19a
6.00×104 26.86a 28.84a 16.54b
D4 3.75×104 39.15a 22.47a 24.97a
4.50×104 40.38a 18.28a 24.66a
5.25×104 38.55a 21.97a 24.22a
6.00×104 54.61a 22.67a 35.07a
D5 3.75×104 47.65a 23.94a 31.69a
4.50×104 46.94a 21.85a 38.50a
5.25×104 30.89a 11.70b 26.86a
6.00×104 36.64a 25.94a 25.41a

Table 4

The results of variance analysis of the influence of different sowing dates and densities on sunflower yield and component factors (F-value)"

变异来源
Variation source		 秕粒率
Unfulfilled grain percentage		 皮壳率
Husk content		 籽仁率
Grain rate		 百粒重
100-seed weight		 单盘粒重
Grain weight per disc		 产量
Grain yield
播期Sowing date 1.249 3.430* 3.430* 9.056** 1.754 1.873
密度Density 0.298 1.498 1.498 0.514 16.042** 16.113**
播期×密度Sowing date×Density 1.801 0.805 0.805 0.552 1.289 1.318

Table 5

Changes in yield and component factors under different sowing dates and densities"

播期处理
Sowing date		 密度(株/hm2
Planting density
(plant/ha)		 秕粒率
Unfulfilled grain
percentage (%)		 皮壳率
Husk content
(%)		 籽仁率
Grain rate
(%)		 百粒重
100-seed
weight (g)		 单盘粒重
Grain weight
per disc (g)		 产量
Grain yield
(kg/hm2)
D1 3.75×104 3.52a 27.40a 72.60a 8.14a 132.19a 4957.00a
4.50×104 3.17a 26.32a 73.68a 8.28a 128.63ab 5788.35a
5.25×104 7.11a 26.45a 73.55a 8.57a 108.81ab 5712.53a
6.00×104 3.84a 26.20a 73.80a 7.91a 102.95b 6176.80a
D2 3.75×104 3.79a 27.45a 72.55b 8.70a 119.66b 5134.13d
4.50×104 6.26ab 27.81a 72.19b 8.51a 126.40ab 5845.35c
5.25×104 6.19ab 26.11b 73.89a 7.96a 118.18b 6281.98b
6.00×104 14.74b 27.17a 72.83b 8.76a 136.55a 6859.00a
D3 3.75×104 7.04a 27.10a 72.90a 8.51b 126.42a 4740.75b
4.50×104 7.79a 27.27a 72.73a 8.36b 122.46ab 5510.55a
5.25×104 5.81a 27.01a 72.99a 8.01b 106.66bc 5599.65a
6.00×104 6.19a 28.66a 71.34a 7.27a 97.65c 5859.20a
D4 3.75×104 8.24a 29.65a 70.35a 6.76a 115.67ab 4337.63c
4.50×104 6.59a 27.85a 72.15a 6.92a 118.65ab 5339.25bc
5.25×104 5.56a 25.91a 74.09a 7.01a 130.09a 6829.73a
6.00×104 5.84a 26.71a 73.29a 6.76a 98.63b 5917.60ab
D5 3.75×104 11.24a 30.54a 69.46a 7.39a 138.14a 5180.25a
4.50×104 4.99a 28.92a 71.08a 6.73a 125.09ab 5629.05a
5.25×104 7.64a 29.88a 70.12a 6.40a 107.82b 5660.73a
6.00×104 4.56a 27.73a 72.27a 6.02a 100.17b 6010.00a
[1] 焦玉字, 郭俊娒, 杨俊兴 , 等. 不同向日葵品种对镉积累差异性的田间研究. 作物杂志, 2018(6):89-95.
[2] 王瑞元 . 我国葵花籽油产业现状及发展前景. 中国油脂, 2020,45(3):1-3.
[3] 王永行, 单飞彪, 闫文芝 , 等. 基于向日葵DUS测试的遗传多样性分析及代码分级. 作物杂志, 2019(5):22-27.
[4] 胡树平, 包海柱, 赵卉 , 等. 深松对向日葵光合性能及产量的影响. 作物杂志, 2019(1):116-120.
[5] 秦晓娟, 王燕, 皇甫慧玲 . 陕西省渭北旱塬春玉米不同播期对比试验总结. 农业与技术, 2016,36(2):77.
[6] 张冬梅, 张伟, 刘恩科 , 等. 早熟区不同播期旱地玉米产量对施肥水平和种植密度的响应. 中国生态农业学报, 2013,21(12):1449-1458.
[7] 董飞, 闫秋艳, 李峰 , 等. 播期和种植密度对旱地玉米生长发育及产量的影响. 玉米科学, 2020,28(2):115-121.
[8] 周伟, 崔福柱, 段宏凯 , 等. 播期对糯玉米籽粒产量及品质的影响. 作物杂志, 2020(2):156-161.
[9] 刘明, 陶洪斌, 王璞 , 等. 播期对春玉米生长发育与产量形成的影响. 中国生态农业学报, 2009,17(1):18-23.
[10] 李向岭, 赵明, 李从锋 , 等. 播期和密度对玉米干物质积累动态的影响及其模型的建立. 作物学报, 2010,36(12):2143-2153.
[11] 钤太峰, 董秀春, 张秀 , 等. 播期对冬小麦干物质积累、分配与产量的影响. 山东农业科学, 2019,51(3):24-28,35.
[12] 周玲, 王朝辉, 李富翠 , 等. 不同产量水平旱地冬小麦品种干物质累积和转移的差异分析. 生态学报, 2012,32(13):4123-4131.
[13] Cucci G, Lacolla G, Caranfa G . Spatial distribution of roots and cracks in soils cultivated with sunflower. Archives of Agronomy and Soil Science, 2017,64:13-24.
doi: 10.1080/03650340.2017.1325470
[14] Li J G, Qu Z Y, Chen J . Effect of planting density on the growth and yield of sunflower under mulched drip irrigation. Water, 2019,11:752.
doi: 10.3390/w11040752
[15] 赵先丽, 李丽光, 蔡福 , 等. 播期对辽南地区春玉米生育进程及产量影响的试验研究. 气象与环境学报, 2017,33(6):66-72.
[16] 余娟娟, 谈建鑫, 王江丽 , 等. 种植密度与行距配置对复播油葵同化物运转和产量的影响. 新疆农业科学, 2014,51(12):2162-2167.
[17] Wang H, Ke F W, Wang H L , et al. Effects of sowing time,density and fertilizer application on the economic characters of Zhuoyou 058. Plant Science, 2019,8(3):54-56,63.
[18] Durval D, Walquíria F T, Renan C U , et al. Soybean yield in different sowing dates and seeding rates in a subtropical environment. International Journal of Plant Production, 2019,13:117-128.
doi: 10.1007/s42106-019-00040-0
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