Scientia Agricultura Sinica ›› 2023, Vol. 56 ›› Issue (1): 31-45.doi: 10.3864/j.issn.0578-1752.2023.01.003

• TILLAGE & CULTIVATION·PHYSIOLOGY & BIOCHEMISTRY·AGRICULTURE INFORMATION TECHNOLOGY • Previous Articles     Next Articles

Effects of Sowing Date on Yield of Double Cropping Rice and Utilization Efficiency of Light and Heat Energy in Hunan Province

ZHANG Wei1(),YAN LingLing2,FU ZhiQiang1,XU Ying1,GUO HuiJuan1,ZHOU MengYao1,LONG Pan1()   

  1. 1. College of Agronomy, Hunan Agricultural University, Changsha 410128
    2. Yiyang Institute of Agricultural Sciences, Yiyang 413046, Hunan
  • Received:2022-02-21 Accepted:2022-06-14 Online:2023-01-01 Published:2023-01-17
  • Contact: Pan LONG E-mail:zhangwei_20210714@126.com;longpan_lp@126.com

Abstract:

【Objective】By comparing the effects of different sowing dates on yield of double cropping rice and utilization efficiency of light and heat energy, and analyzing the sensitivity of different varieties to sowing date and light and heat resource efficiency, the best sowing date was investigated, which was conducive to double-cropping rice yield and resource utilization efficiency in Hunan province. 【Method】Using the main double-cropping rice varieties approved in Hunan province, the main double-cropping rice producing area, as the test materials, three sowing dates for early and late rice were set up for field experiments from 2018 to 2019. The rice growth period, yield and yield components as well as meteorological data were analyzed to compare the yield and the utilization efficiency of light and heat resources of each variety under different sowing dates. 【Result】With the delay of the sowing date, the early and late rice shortened the growth period by shortening the days of the sowing-ear start stage, while the yield of early rice showed an increasing trend. Late-maturing rice responded faster to late sowing than middle-maturing late rice; In 2018, with the delay of sowing date, the heat energy utilization rate of early rice decreased by 2.73% and 4.45% respectively, the light energy utilization rate decreased by 1.28% and -1.77% respectively, the heat energy utilization rate of late rice decreased by -2.64% and 8.15% respectively, and the light energy utilization rate decreased by 2.14% and 13.25% respectively. In 2019, with the postponement of sowing date, the heat energy utilization rate of early rice increased by 0.36% and 10.36% respectively, and the light energy utilization rate increased by 1.53% and 12.52% respectively. The heat energy utilization rate of late rice decreased by -0.72% and 6.09% respectively, and the light energy utilization rate decreased by 0.58% and 6.21% respectively. 【Conclusion】The sowing date had a significant impact on the utilization efficiency of light and heat resources of double-cropping rice. It was appropriate to delay the sowing date of early rice and advance the sowing date of late rice to improve the efficiency of light and heat resources. The comprehensive efficiency of the combination of the second sowing date of early rice+the second sowing date of late rice for double cropping rice is higher, and the combination of late-maturing early rice and medium-maturing late rice combination had higher comprehensive efficiency.

Key words: sowing date, double-cropping rice, yield, light utilization efficiency, heat utilization efficiency

Fig. 1

Temperature and solar radiation during the growth period of double-cropping rice in 2018-2019"

Table 1

Test varieties and basic information of early rice"

品种名称
Variety
类型
Type
生育期
Growth period (d)
选育单位
Breeding units
中熟早稻
Medium Maturing Early Rice
株两优819
Zhuliangyou819
杂交稻
Hybrid rice
105 湖南亚华种业科学科学院
Hunan Yahua Academy of Seed Science
陵两优942
Lingliangyou942
杂交稻
Hybrid rice
109 湖南亚华种业科学科学院
Hunan Yahua Academy of Seed Science
湘早籼45号
Xiangzaoxian45hao
常规稻
Conventional rice
106 益阳农业科学研究所
Yiyang Institute of Agricultural Sciences
中嘉早17
Zhongjiazao17
常规稻
Conventional rice
114 中国水稻研究所
China National Rice Research Institute
中早39
Zhongzao39
常规稻
Conventional rice
112 中国水稻研究所
China National Rice Research Institute
迟熟早稻
Late Maturing Early Rice
陵两优4024
Lingliangyou4024
杂交稻
Hybrid rice
117 湖南农业大学
Hunan Agricultural University
陆两优996
Luliangyou996
杂交稻
Hybrid rice
110 湖南农业大学、湖南亚华种业科学科学院
Hunan Agricultural University, Hunan Yahua Academy of Seed Science
荣优233
Rongyou233
杂交稻
Hybrid rice
114 湖南金稻种业有限公司
Hunan Golden Rice Seed Industry Co., Ltd
淦鑫203
Ganxin203
杂交稻
Hybrid rice
117 江西现代种业股份有限公司
Jiangxi Modern Seed Industry Co., Ltd
中早35
Zhongzao35
常规稻
Conventional rice
110 中国水稻研究所
China National Rice Research Institute
中熟晚稻
Medium Maturing Late Rice
桃优香占
Taoyouxiangzhan
杂交稻
Hybrid rice
113 桃源县农业科学研究所
Taoyuan Agricultural Science Research Institute
H优518
Hyou518
杂交稻
Hybrid rice
108 湖南农业大学
Hunan Agricultural University
五丰优T025
WufengyouT025
杂交稻
Hybrid rice
112 江西农业大学
Jiangxi Agricultural University
迟熟晚稻
Late Maturing Late Rice
天优华占
Tianyouhuazhan
杂交稻
Hybrid rice
119 中国水稻研究所
China National Rice Research Institute
泰优390
Taiyou390
杂交稻
Hybrid rice
119 湖南金稻种业有限公司
Hunan Jindao Seed Industry Co., Ltd
吉优258
Jiyou258
杂交稻
Hybrid rice
- 广州市金粤生物科技有限公司
Guangzhou Jinyue Biotechnology Co., Ltd

Table 2

F value of growth period, yield, production efficiency of accumulated temperature and production efficiency of radiation of double-cropping rice"

变异来源
Source of variation
早稻Early rice 晚稻Late rice
生育期Growth Period 产量
Yield
热能利用率Production efficiency of accumulated temperature 光能利用率Production efficiency of radiation 生育期Growth Period 产量
Yield
热能利用率Production efficiency of accumulated temperature 光能利用率Production efficiency of radiation
品种Variety 3.65** 5.52*** 4.62*** 19.98*** 20.36*** 21.59***
年份Year (Y) 45.189*** 18.68*** 2.89 7.661** 9.55** 1.11 36.68*** 136.46***
播期Sowing date (S) 37.44*** 1.59 0.27 3.403* 45.18*** 18.42*** 3.47* 7.486**
熟型Varity type (V) 7.31** 2.43 5.80* 8.591** 35.46*** 0.2 0.03 0.06
年份×播期Y×S 1.54 5.59** 3.55* 2.593 5.73** 0.43 0.16 1.593
年份×熟型 Y×V 1.53 3.90 5.30* 7.666** 4.14 2.32 1.72 0.996
播期×熟型 S×V 0.11 1.34 1.11 1.812 0.07 0.57 0.47 0.871
年份×播期×熟型Y×S ×V 0.24 5.27** 4.05* 5.566** 0.15 0.43 0.48 0.588

Table 3

The effects of sowing date on growth process and growth period of double-cropping rice varieties in 2018 (d)"

播期
Sowing date
品种类型
Variety type
播种期(月-日)
Sowing
(M-D)
始穗期(月-日)
Initial heading
(M-D)
成熟期(月-日)
Maturity
(M-D)
播种-始穗期
Sowing-Initial heading
始穗-成熟期
Initial heading - Maturity
生育期
Growth period
ER-Ⅰ MMER 03-15 06-07 07-10 84.4 33.4 117.8
LMER 03-15 06-11 07-11 88.2 29.8 118.0
平均Average 86.3a 31.6a 117.9a
ER-Ⅱ MMER 03-22 06-08 07-09 78.2 31.0 109.2
LMER 03-22 06-10 07-11 80.6 31.0 111.6
平均Average 79.4a 31.0a 110.4b
ER-Ⅲ MMER 03-29 06-07 07-13 70.2 36.4 106.6
LMER 03-29 06-12 07-14 75.8 32.0 107.8
平均Average 73c 34.2a 107.2b
LR-Ⅰ MMLR 06-18 09-01 10-17 75.7 45.3 121.0
LMLR 06-18 09-06 10-23 80.0 47.7 127.7
平均Average 77.8a 46.5a 124.3a
LR-Ⅱ MMLR 06-28 09-03 10-21 67.3 47.7 115.0
LMLR 06-28 09-07 10-26 71.7 48.3 120.0
平均Average 69.5b 48.0a 117.5b
LR-Ⅲ MMLR 07-08 09-13 10-31 67.7 47.7 115.3
LMLR 07-08 09-18 11-06 72.3 49.0 121.3
平均Average 70b 48.3a 118.3b

Table 4

The effects of sowing date on growth process and growth period of double-cropping rice varieties in 2019 (d)"

播期
Sowing date
品种类型
Variety type
播种期(月-日)
Sowing
(M-D)
始穗期(月-日)
Initial heading
(M-D)
成熟期(月-日)
Maturity
(M-D)
播种-始穗期
Sowing-Initial heading
始穗-成熟期
Initial heading - Maturity
生育期
Growth period
ER-Ⅰ MMER 03-15 06-11 07-11 93.4 24.8 118.2
LMER 03-15 06-15 07-15 97.4 25.2 122.6
平均Average 95.4a 25a 120.4a
ER-Ⅱ MMER 03-22 06-13 07-14 88.2 26.0 114.2
LMER 03-22 06-17 07-17 91.4 26.2 117.6
平均Average 89.8b 26.1a 115.9b
ER-Ⅲ MMER 03-29 06-17 07-19 86.0 26.0 112.0
LMER 03-29 06-21 07-21 89.8 25.0 114.8
平均Average 87.9b 25.5a 113.4b
LR-Ⅰ MMLR 06-18 09-06 10-21 84.7 40.7 125.3
LMLR 06-18 09-09 10-24 87.7 40.3 128.0
平均Average 86.2a 40.5a 126.7a
LR-Ⅱ MMLR 06-25 09-07 10-22 79.7 40.0 119.7
LMLR 06-25 09-11 10-25 82.7 40.0 122.7
平均Average 81.2b 40.0a 121.2b
LR-Ⅲ MMLR 07-02 09-09 10-24 73.3 41.3 114.7
LMLR 07-02 09-12 10-27 76.3 41.3 117.7
平均Average 74.8c 41.3a 116.2c

Table 5

The effects of sowing date on yield and components of double-cropping rice varieties in 2018"

播期
Sowing date
品种类型
Variety type
有效穗
Effective panicle (×104 hm-2)
每穗总粒数
Grains per panicle
结实率
Seed setting rate (%)
千粒重
1000-grain weight (g)
产量
Yield (kg·hm-2)
ER-Ⅰ MMER 413.29 145.55 84.78 26.74 8857.14
LMER 375.72 126.26 84.05 28.76 8757.71
平均Average 394.51a 135.90a 84.41a 27.75a 8807.43a
ER-Ⅱ MMER 408.44 136.32 87.58 26.88 8533.71
LMER 387.84 118.99 84.10 28.94 8336.00
平均Average 398.14a 127.65a 85.84a 27.91a 8434.86a
ER-Ⅲ MMER 375.11 153.85 83.69 26.62 7982.86
LMER 381.17 142.98 84.25 28.62 8538.29
平均Average 378.14a 148.42a 83.97a 27.62a 8260.57a
LR-Ⅰ MMLR 575.70 107.50 27.00 0.96 9329.33
LMLR 329.93 127.21 25.53 0.96 9762.74
平均Average 452.82a 117.36a 26.27a 0.97a 9546.04a
LR-Ⅱ MMLR 528.57 125.72 26.10 0.96 8627.45
LMLR 377.07 125.18 25.50 0.97 9461.57
平均Average 452.82a 125.45a 25.80a 0.97a 9044.51a
LR-Ⅲ MMLR 356.87 94.07 27.70 0.94 7841.57
LMLR 323.20 119.19 25.87 0.95 7799.33
平均Average 340.03a 106.63a 26.78a 0.94b 7820.45b

Table 6

The effects of sowing date on yield and components of double-cropping rice varieties in 2019"

播期
Sowing date
品种类型
Variety type
有效穗
Effective panicle (×104·hm-2)
每穗总粒数
Grains per panicle
结实率
Seed setting rate (%)
千粒重
1000-grain weight (g)
产量
Yield (kg·hm-2)
ER-Ⅰ MMER 299.94 104.55 91.37 26.51 7270.87
LMER 273.25 102.13 93.27 29.19 7245.50
平均Average 271.69b 108.04b 92.67a 27.96a 7258.19b
ER-Ⅱ MMER 243.62 99.91 93.67 25.84 7255.39
LMER 238.91 106.05 93.55 28.75 7659.59
平均Average 232.76b 108.43b 93.66a 27.50a 7457.49b
ER-Ⅲ MMER 395.43 125.20 91.20 25.66 9396.27
LMER 340.83 144.11 89.53 28.03 9175.51
平均Average 348.36a 138.91a 90.41b 27.05a 9285.90a
LR-Ⅰ MMLR 469.65 139.07 93.58 24.52 9081.52
LMLR 464.26 159.87 92.70 23.81 9149.60
平均Average 466.96a 149.47a 93.14a 24.16a 9115.56a
LR-Ⅱ MMLR 509.04 135.18 92.47 25.96 8954.51
LMLR 483.12 133.24 91.96 24.76 8614.11
平均Average 496.08a 134.21a 92.22a 25.36a 8784.31a
LR-Ⅲ MMLR 428.91 122.16 93.56 25.75 8052.88
LMLR 417.13 135.07 90.91 25.05 7656.41
平均Average 423.02a 128.62a 92.24a 25.40a 7854.65b

Table 7

The effects of sowing dates on production efficiency of accumulated temperature and radiation for 2018 double-cropping rice varieties at different stages"

播期
Sowing
date
品种类型
Variety type
播种-始穗
有效积温
S-I effective accumulated temperature (℃·d)
始穗-成熟
有效积温
I-M effective
accumulated
temperature (℃·d)
全生育期有效积温
Whole growth period effective accumulated
temperature
(℃·d)
热能利用率
Production
efficiency of
accumulated temperature
(kg·℃-1·d-1·hm-2)
播种-始穗
累积太阳
辐射量
S-I solar radiation (MJ·m-2)
始穗-成熟
累积太阳
辐射量
I-M solar radiation (MJ·m-2)
全生育期
累积辐射量
Whole growth period solar radiation
(MJ·m-2)
光能利用率
Production efficiency of radiation (%)
ER-Ⅰ MMER 942.47 610.87 1553.35 5.70 1017.50 435.31 1452.81 1.10
LMER 1001.46 557.22 1558.68 5.67 1074.93 387.55 1462.47 1.08
平均Average 971.97a 584.04a 1556.01a 5.69a 1046.21a 411.43a 1457.64a 1.09a
ER-Ⅱ MMER 942.65 568.17 1510.82 5.68 989.64 405.87 1395.51 1.10
LMER 980.46 577.71 1558.17 5.38 1024.77 408.43 1433.20 1.05
平均Average 961.55a 572.94a 1534.49a 5.53a 1007.21a 407.15a 1414.36a 1.08a
ER-Ⅲ MMER 880.21 667.63 1547.84 5.15 866.88 475.16 1342.04 1.07
LMER 964.63 608.72 1573.36 5.42 943.80 425.46 1369.26 1.12
平均Average 922.42a 638.18a 1560.60a 5.29a 905.34b 450.31a 1355.65b 1.10a
LR-Ⅰ MMLR 1504.84 574.88 2079.71 4.49 1029.31 422.82 1452.13 1.16
LMLR 1583.63 541.61 2125.24 4.59 1077.08 407.97 1485.05 1.18
平均Average 1544.23a 558.25a 2102.48a 4.54a 1053.20a 415.39a 1468.59a 1.17a
LR-Ⅱ MMLR 1350.89 569.25 1920.14 4.49 922.90 421.76 1344.66 1.15
LMLR 1423.17 536.73 1959.90 4.83 968.47 406.57 1375.04 1.24
平均Average 1387.03b 552.99a 1940.02b 4.66a 945.68b 414.17a 1359.85b 1.20a
LR-Ⅲ MMLR 1320.12 490.89 1811.01 4.33 929.56 397.84 1327.40 1.06
LMLR 1395.66 447.82 1843.48 4.23 977.74 413.04 1390.78 1.01
平均Average 1357.89b 469.36b 1827.24c 4.28a 953.65b 405.44a 1359.09b 1.04b

Table 8

The effects of sowing dates on production efficiency of accumulated temperature and radiation for 2019 double-cropping rice varieties at different stages"

播期
Sowing
date
品种类型
Variety type
播种-始穗
有效积温
S-I effective accumulated temperature (℃·d)
始穗-成熟
有效积温
I-M effective
accumulated
temperature (℃·d)
全生育期有效积温
Whole growth period effective accumulated
temperature
(℃·d)
热能利用率
Production
efficiency of
accumulated temperature
(kg·℃-1·d-1·hm-2)
播种-始穗
累积太阳
辐射量
S-I solar radiation (MJ·m-2)
始穗-成熟
累积太阳
辐射量
I-M solar radiation (MJ·m-2)
全生育期
累积辐射量
Whole growth period solar radiation
(MJ·m-2)
光能利用率
Production efficiency of radiation (%)
ER-Ⅰ MMER 905.91 493.84 1399.75 5.19 791.05 353.84 1144.90 1.14
LMER 962.40 512.57 1474.97 4.91 832.30 378.29 1210.59 1.08
平均Average 934.16a 503.21b 1430.98 b 5.05a 811.68a 366.07b 1177.75a 1.11b
ER-Ⅱ MMER 893.04 506.05 1399.10 5.19 772.78 362.70 1135.48 1.15
LMER 943.95 518.91 1462.86 4.95 805.03 380.65 1185.68 1.10
平均Average 918.50a 512.48b 1437.36b 5.07a 788.91ab 371.67b 1160.58a 1.13b
ER-Ⅲ MMER 921.17 542.51 1463.67 6.42 755.41 406.28 1161.69 1.46
LMER 990.19 529.62 1519.81 4.77 800.47 409.67 1210.13 1.08
平均Average 955.68a 536.06a 1491.74a 5.60a 777.94b 407.98a 1185.91a 1.27a
LR-Ⅰ MMLR 1539.67 754.83 2294.50 3.96 1343.34 545.67 1889.01 0.86
LMLR 1602.02 728.51 2330.53 3.93 1406.29 502.63 1908.92 0.86
平均Average 1570.85a 741.67a 2312.51a 3.94a 1374.82a 524.15a 1898.97a 0.86a
LR-Ⅱ MMLR 1453.54 742.38 2195.93 4.08 1303.75 526.66 1830.41 0.88
LMLR 1518.40 709.69 2228.09 3.87 1363.20 481.66 1844.86 0.84
平均Average 1485.97b 726.04a 2212.01b 3.97a 1333.47a 504.16a 1837.64b 0.86a
LR-Ⅲ MMLR 1353.26 747.85 2101.11 3.83 1232.11 512.35 1744.46 0.83
LMLR 1416.35 698.94 2115.29 3.62 1284.26 481.43 1765.69 0.78
平均Average 1384.81c 723.40a 2108.20c 3.73a 1258.19b 496.89a 1755.07c 0.81a
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