Crops ›› 2021, Vol. 37 ›› Issue (6): 182-188.doi: 10.16035/j.issn.1001-7283.2021.06.029

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Effects of Different Sowing Dates and Seeding Rates on the Growth Characteristics and Yield of Winter Wheat

Wang Xin1(), Wang Cai2()   

  1. 1Zhumadian Agricultural Operation and Management Guidance Station, Zhumadian 463000, Henan, China
    2Henan Zhumadian Agricultural School, Zhumadian 463000, Henan, China
  • Received:2021-05-14 Revised:2021-08-23 Online:2021-12-15 Published:2021-12-16
  • Contact: Wang Cai E-mail:mta2418@163.com;jjuwhe@163.com

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Abstract:

In order to study the effects of sowing date and seeding rate on the growth and yield of winter wheat, three sowing dates and three seeding rates were set up to study the characteristics of wheat dry matter accumulation and transportation, leaf area and population light energy interception, and yield changes. The results showed that the dry matter accumulation decreased with the passage of the sowing dates, and the dry matter accumulation decreased by 0.13-0.37t/ha for each delay of the sowing date. The dry matter transport amount before anthesis decreased with the delay of the sowing date, and increased with seeding rate increasing. After blooming, the accumulation of light-contracted compounds first increased and then decreased with the postponement of the sowing date, and gradually decreased with the increase of seeding rate. With the sowing date postponement and seeding rate increase, light energy utilization rate increased first and then decreased. The combination of sowing on October 4th and 160kg/ha seeding rate could achieve the maximum of photoassimilate after flowering, light energy interception and utilization, and the two years average yield (8257.84kg/ha), which was a better combination planting mode of sowing date and seeding rate.

Key words: Wheat, Sowing date, Seeding rate, Yield

Fig.1

The effects of different sowing dates and seeding rates on dry matter accumulation of winter wheat Different lowercase letters indicate significant difference (P < 0.05), the same below"

Table 1

Effects of different sowing dates and seeding rates on dry matter transport of winter wheat"

年份
Year		 处理
Treatment		 花前干物质Preanthesis dry matter 花后光合同化物Photoassimilate after flowering
转运量
Translocation amount (t/hm2)		 转运率
Translocation rate (%)		 贡献率
Contribution rate (%)		 积累量
Accumulation (t/hm2)		 贡献率
Contribution rate (%)
2017-2018 S1D1 3.21±0.38b 33.61±2.91bc 50.77±6.27bc 3.11±0.21c 49.23±3.27de
S1D2 3.81±0.78a 35.71±0.53ab 55.54±1.28ab 3.05±0.10c 44.46±1.28ef
S1D3 3.87±0.32a 37.95±1.67a 61.35±6.20a 2.44±0.25d 38.65±6.20f
S2D1 2.94±0.15bc 31.01±1.77cd 45.02±3.76cde 3.60±0.28bc 54.98±3.76bcd
S2D2 3.01±0.12bc 30.44±2.98cde 43.94±6.25cde 3.84±0.26ab 56.06±6.25bcd
S2D3 2.62±0.23c 27.42±2.21ef 37.87±4.20ef 4.31±0.39a 62.13±4.20ab
S3D1 2.03±0.22d 24.37±1.64f 32.27±2.88f 4.29±0.13a 67.73±2.88a
S3D2 2.83±0.24bc 29.91±1.44de 42.72±2.96de 3.79±0.15ab 57.28±2.96bc
S3D3 2.98±0.25bc 32.28±2.33bcd 47.78±5.00bcd 3.26±0.40bc 52.22±5.00cde
2018-2019 S1D1 3.17±0.65bc 27.93±0.16b 47.21±1.39b 3.54±0.14d 52.79±1.39b
S1D2 3.35±0.31b 27.01±2.17bc 46.00±3.49b 3.93±0.25bc 54.00±3.49b
S1D3 4.02±0.13a 32.20±0.68a 58.68±1.24a 2.83±0.60e 41.32±1.24c
S2D1 2.55±0.64e 22.68±0.58d 38.65±1.59c 4.05±0.26b 61.35±1.59a
S2D2 2.89±0.21cd 25.29±1.75c 39.27±1.34c 4.46±0.09a 60.73±1.34a
S2D3 2.86±0.48d 25.21±0.30c 41.72±1.73c 4.00±0.24b 58.28±1.73a
S3D1 3.30±0.19b 31.16±1.65a 47.55±2.55b 3.64±0.17cd 52.45±2.55b
S3D2 3.41±0.17b 30.49±1.12a 47.50±1.03b 3.77±0.43bcd 52.50±1.03b
S3D3 3.34±0.22b 30.68±1.91a 48.91±1.30b 3.50±0.15d 51.09±1.30b

Fig.2

The effects of different sowing dates and seeding rates on LAI of winter wheat"

Table 2

Effects of different sowing dates and seeding rates on photosynthetically active radiation and light use efficiency of winter wheat canopy"

年份
Year		 处理
Treatment		 截获量
Interception (MJ/m2)		 截获率
Capture ratio (%)		 透射率
Penetration ratio (%)		 光能利用率
Light use efficiency (g/MJ)
2017-2018 S1D1 8.72±0.03b 92.89±0.56b 7.11±0.56g 1.08±0.09bc
S1D2 8.86±0.03a 94.54±0.12a 5.46±0.12h 1.21±0.04ab
S1D3 8.84±0.02a 92.96±0.59b 7.04±0.59g 1.10±0.05bc
S2D1 8.56±0.02d 89.73±0.09e 10.27±0.09d 1.14±0.07bc
S2D2 8.62±0.03c 91.60±0.17c 8.40±0.17f 1.28±0.12a
S2D3 8.46±0.02e 90.57±0.19d 9.43±0.19e 1.10±0.08bc
S3D1 8.37±0.02f 86.03±0.62h 13.97±0.62a 1.14±0.09abc
S3D2 8.44±0.02e 88.68±0.10f 11.32±0.10c 1.08±0.04bc
S3D3 8.34±0.03f 87.41±0.67g 12.59±0.67b 1.06±0.11c
2018-2019 S1D1 8.61±0.09bc 90.85±0.01bc 9.15±0.01cd 0.86±0.03de
S1D2 8.70±0.03a 92.51±0.48a 7.49±0.48e 0.97±0.06b
S1D3 8.57±0.02c 91.26±0.87b 8.74±0.87d 0.78±0.01f
S2D1 8.69±0.07ab 90.35±0.50c 9.65±0.50c 1.00±0.08b
S2D2 8.71±0.06a 92.56±0.43a 7.44±0.43e 1.10±0.02a
S2D3 8.48±0.02d 91.20±0.42b 8.80±0.42d 0.94±0.05bc
S3D1 8.40±0.01ef 86.30±0.62e 13.70±0.62a 0.84±0.04de
S3D2 8.47±0.02de 89.02±0.11d 11.04±0.10b 0.88±0.01cd
S3D3 8.36±0.03f 88.96±0.10d 10.98±0.11b 0.80±0.03e

Table 3

The effects of different sowing dates and seeding rates on winter wheat yield and its components"

年份
Year		 处理
Treatment		 穗数
Ear number (×104/hm2)		 穗粒数
Grains per spike		 千粒重
1000-grain weight (g)		 产量
Yield (kg/hm2)
2017-2018 S1D1 461.16±4.08f 36.46±0.37ab 43.68±0.11ab 7345.65±104.83de
S1D2 520.30±6.14d 35.18±0.46bc 43.53±0.23bc 7966.88±67.22ab
S1D3 530.15±4.83bcd 33.09±0.49de 41.81±0.26f 7335.20±175.83de
S2D1 465.59±6.04f 37.37±1.43a 43.69±0.54ab 7600.92±326.65cd
S2D2 525.05±3.11cd 35.39±1.28bc 42.87±0.29de 7963.72±204.11ab
S2D3 556.86±9.08a 34.29±0.64cd 41.91±0.21ef 8066.73±194.61a
S3D1 480.52±7.27e 34.72±0.72c 44.18±0.48a 7368.15±134.54cde
S3D2 542.10±9.61b 32.95±0.60de 43.05±0.49cd 7689.46±150.82bc
S3D3 533.79±11.54bc 32.44±0.48e 41.89±0.30f 7253.29±220.74e
2018-2019 S1D1 477.35±3.93c 37.23±0.27a 43.91±0.81ab 7523.45±266.55d
S1D2 530.95±3.04b 36.67±0.73abc 43.42±0.50abc 8456.05±302.60ab
S1D3 538.51±2.92ab 35.21±0.43de 42.04±0.73c 8046.46±140.32cd
S2D1 475.06±7.20c 36.51±0.18abc 44.25±1.11ab 7675.46±308.97d
S2D2 549.08±6.44a 35.86±0.74cd 43.43±1.14abc 8551.96±353.58a
S2D3 545.24±6.65ab 34.74±0.86e 42.15±0.69c 8364.67±149.08cd
S3D1 490.05±7.19c 36.85±0.17ab 44.74±0.95a 7932.65±272.61bcd
S3D2 535.17±8.12ab 36.07±0.33bcd 43.28±0.61bc 8355.70±234.30abc
S3D3 536.84±21.11ab 35.24±0.39de 42.12±0.43c 8116.12±197.24cd
[1] 王月福, 姜东, 于振文, 等. 氮素水平对小麦籽粒产量和蛋白质含量的影响及其生理基础. 中国农业科学, 2003, 36(5):513-520.
[2] 邵运辉, 李俊红, 岳俊芹, 等. 旱作区双免耕覆盖下冬小麦旗叶光合特性、根系分布及产量研究. 麦类作物学报, 2020, 40(7):843-849.
[3] 张晶, 王姣爱, 党建友, 等. 播期对小麦主茎及分蘖农艺性状、产量和品质的影响. 农学学报, 2013, 3(8):1-6.
[4] 王志成, 李春艳, 张立强, 等. 不同播量、播期和肥力对小麦品种普冰151植株性状及产量的影响. 陕西农业科学, 2020, 66(9):15-18,47.
[5] 刘万代, 陈现勇, 尹钧, 等. 播期和密度对冬小麦豫麦49-198群体性状和产量的影响. 麦类作物学报, 2009, 29(3):464-469.
[6] 王慧, 朱冬梅, 高致富, 等. 播期与密度组合对不同小麦品种产量及抗倒性的影响. 扬州大学学报(农业与生命科学版), 2020, 41(6):34-39.
[7] 衣政伟, 胡中泽, 杨大柳, 等. 播量和播期对苏中地区小麦生长发育及产量的影响. 江苏农业科学, 2020, 48(11):67-72.
[8] 汪娟梅, 张睿, 田永平, 等. 播期播量对小麦中麦895产量和品质的影响. 麦类作物学报, 2020, 40(11):1375-1381.
[9] 杨佳佳, 程宏波, 柴守玺, 等. 不同覆盖栽培方式对冬小麦干物质分配与转运的影响. 麦类作物学报, 2021, 4(6):1-7.
[10] 孔令英, 赵俊晔, 于振文, 等. 宽幅播种条件下种植密度对小麦群体结构和光能利用率的影响. 麦类作物学报, 2020, 40(7):850-856.
[11] Fang Y, Xu B, Turner N C, et al. Grain yield,dry matter accumulation and remobilization,and root respiration in winter wheat as affected by seeding rate and root pruning. European Journal of Agronomy, 2010, 33(4):257-266.
doi: 10.1016/j.eja.2010.07.001
[12] 杨桂霞, 赵广才, 许轲, 等. 播期和密度对冬小麦籽粒产量和营养品质及生理指标的影响. 麦类作物学报, 2010, 30(4):687-692.
[13] 丁位华, 王丹, 李婷婷, 等. 播期、密度对小麦物质转运和籽粒灌浆的影响. 江苏农业科学, 2018, 46(3):48-52.
[14] 武文明, 陈洪俭, 李金才, 等. 氮肥运筹对孕穗期受渍冬小麦旗叶叶绿素荧光与籽粒灌浆特性的影响. 作物学报, 2012, 38(6):1088-1096.
[15] 胡云平, 张静, 刘丹. 水肥耦合对春小麦叶片生态特性及产量的影响. 江苏农业科学, 2017, 45(12):48-52.
[16] 许育彬, 沈玉芳, 李世清. CO2浓度升高和施氮对冬小麦花前贮存碳氮转运的影响. 作物学报, 2011, 37(8):1465-1474.
[17] 徐寿军, 包海柱, 张凤英, 等. 施肥水平对冬大麦干物质和氮素积累与转运的影响. 核农学报, 2012, 26(8):1183-1189,1203.
[18] 郭丽果, 尹宝重, 郑佩佩, 等. 播前耕作方式对河北平原区节水冬小麦光合特性和籽粒产量的影响. 江苏农业科学, 2017, 45(1):69-72.
[19] 胡卫丽. 氮肥和密度对两种穗型冬小麦茎蘖发育与物质运转的调控效应. 郑州:河南农业大学, 2014.
[20] 陈素英, 张喜英, 毛任钊, 等. 播期和播量对冬小麦冠层光合有效辐射和产量的影响. 中国生态农业学报, 2009, 17(4):681-685.
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