长三角水稻-油菜周年两熟温光资源分配与利用特征

doi:10.3724/SP.J.1006.2023.22033

作物学报 ›› 2023, Vol. 49 ›› Issue (5): 1327-1338.doi: 10.3724/SP.J.1006.2023.22033

长三角水稻-油菜周年两熟温光资源分配与利用特征

陶玥玥¹(), 盛雪雯³, 徐坚², 沈园¹, 王海候¹, 陆长婴¹, 沈明星¹^,^*()

¹江苏太湖地区农业科学研究所/国家土壤质量相城观测实验站, 江苏苏州 215155
²太仓东林农场专业合作社, 江苏苏州 215400
³苏州市农业技术推广中心, 江苏苏州 215155

收稿日期:2022-05-16 接受日期:2022-10-10 出版日期:2023-05-12 网络出版日期:2022-10-20
通讯作者: *沈明星, E-mail: smxwwj@163.com
作者简介:E-mail: twhhltyy@163.com
基金资助:
江苏省农业科技自主创新项目(CX21(3097));国家自然科学基金项目(32101854);国家重点研发计划项目(2016YFD0300207)

Characteristics of heat and solar resources allocation and utilization in rice- oilseed rape double cropping systems in the Yangtze River Delta

TAO Yue-Yue¹(), SHENG Xue-Wen³, XU Jian², SHEN Yuan¹, WANG Hai-Hou¹, LU Chang-Ying¹, SHEN Ming-Xing¹^,^*()

¹Institute of Agricultural Sciences in Taihu Lake District/National Soil Quality Observation and Experimental Station in Xiangcheng, Suzhou 215155, Jiangsu, China
²Taicang Donglin Professional Cooperatives, Taicang 215400, Jiangsu, China
³Suzhou Agricultural Technology Extension Center, Suzhou 215155, Jiangsu, China

Received:2022-05-16 Accepted:2022-10-10 Published:2023-05-12 Published online:2022-10-20
Contact: *E-mail: smxwwj@163.com
Supported by:
Jiangsu Agricultural Science and Technology Innovation Fund(CX21(3097));National Natural Science Foundation of China(32101854);National Key Research and Development Program of China(2016YFD0300207)

摘要/Abstract

摘要：

为提升长江流域水稻-油菜周年产量潜力和资源利用效率, 2017—2021年于江苏苏州布置田间定位试验, 以中熟晚粳水稻-垄作摆栽油菜传统模式为对照, 对比研究了新型迟熟中粳水稻-直播油菜模式干物质产量、水稻籽粒产量、温光资源分配和利用特征及经济效益。结果表明, 与常规模式相比, 新型模式油菜季温和光生产效率分别显著提高了24.1%和20.6%, 水稻季温、光生产效率无显著变化。新型模式下油菜干物质产量显著提高了18.2%, 但水稻籽粒和干物质产量分别显著下降了17.6%和15.5%。常规模式中水稻和油菜两季积温分配率分别为63.9%和36.1%, 积温比值为1.77; 新型模式周年积温量减少588℃, 其中水稻积温减少483℃, 油菜季周年积温分配率增加了1.8%, 两季积温比值下降为1.64。新型模式较常规模式增加周年效益31.4%, 提高油菜种植效益2.2倍, 而降低水稻种植效益17.4%。由此, 以迟熟中粳水稻搭配后季直播油菜新型模式, 可显著提高了油菜季产量、温光生产效率与经济效益, 提升周年种植效益。在兼顾粮饲安全和经济效益的前提下, 新型水稻-油菜模式可作为长期单一化水稻、油菜或小麦两熟制轮作模式之一。

关键词: 长江流域, 水稻-油菜两熟, 籽粒产量, 干物质产量, 温光资源分配, 资源利用效率

Abstract:

To improve annual yield and resource use efficiency in rice-oilseed rape systems in the Yangtze River Delta, a field experiment of two cropping systems, namely innovated system with late maturity medium season japonica rice-directly sowing oilseed rape (R_s-O_ds) and traditional system with medium maturity late season japonica rice-furrow ridging and placed planting oilseed rape (R_l-O_frpp), was conducted at Suzhou, Jiangsu, China, from 2017 to 2021. The annual dry matter yield, rice grain yield, distribution and utilization efficiency of heat and solar climatic resources as well as the economic benefit were compared between two cropping systems. The results showed that, compared with the conventional system, the new system significantly improved the accumulated temperature production efficiency by 24.1% and light energy production efficiency by 20.6% of the oilseed rape season, while there was no significant difference in rice season. In the new system, the dry matter yield of rapeseed was significantly increased by 18.2% whereas the rice grain and dry matter yield were significantly decreased by 17.6% and 15.5%, respectively. In the traditional system, with the rate of accumulated temperature between two seasons of 1.77, the accumulative temperature distribution rate was 63.9% in rice season and 36.1% in oilseed rape season, respectively. The annual accumulative temperature of the new system decreased by 588℃, among which the accumulated temperature of rice decreased by 483℃. The accumulative temperature distribution rate in oilseed rape season was increased by 1.8%, and the ratio of accumulated temperature between the two seasons decreased to 1.64. Compared to the traditional system, the new system increased the annual economic benefit by 31.4%, increased the rape planting benefit by 2.2 times and decreased the rice growing economic benefit by 17.4%. In conclusion, the new cropping system, late maturity medium season japonica rice-directly sowing oilseed rape forage, significantly improved the yield, accumulated temperature and radiation production efficiency, growing benefit of oilseed rape season as well as the annual economic benefit. Considering the food and forage security as well as economic benefit, the new rice-rapeseed cropping system can be used as one of the alternatives for the long-term monoculture of rice-wheat or rice-oilseed rape double cropping system.

Key words: the Yangtze River Delta, rice-oilseed rape double cropping system, grain yield, dry matter yield, temperature and radiation allocation, resource use efficiency

陶玥玥, 盛雪雯, 徐坚, 沈园, 王海候, 陆长婴, 沈明星. 长三角水稻-油菜周年两熟温光资源分配与利用特征[J]. 作物学报, 2023, 49(5): 1327-1338.

TAO Yue-Yue, SHENG Xue-Wen, XU Jian, SHEN Yuan, WANG Hai-Hou, LU Chang-Ying, SHEN Ming-Xing. Characteristics of heat and solar resources allocation and utilization in rice- oilseed rape double cropping systems in the Yangtze River Delta[J]. Acta Agronomica Sinica, 2023, 49(5): 1327-1338.

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年份 Year	种植模式 Cropping pattern	水稻 Rice				油菜Oilseed rape
年份 Year	种植模式 Cropping pattern	品种 Variety	移栽期Transplanting date (M/D)	收获期 Harvest date (M/D)	生育期 Growth duration (d)	播栽方式 Planting method	播期−栽期 Sowing−transplanting date (M/D)	收获期 Harvest date (M/D)	生育期 Growth duration (d)
2017/2018	R_s-O_ds	南粳9108 Nanjing 9108	5/22	10/4	135	机条播 Mechanical sowing	10/9	5/4	207
2017/2018	R_l-O_frpp	苏香粳100 Suxiangjing 100	5/22	10/28	159	机开沟摆栽 Mechanical furrowing and placed-planting	9/31−11/3	5/4	212
2018/2019	R_s-O_ds	南粳9108 Nanjing 9108	5/18	9/28	133	机条播 Mechanical sowing	10/13	4/25	194
2018/2019	R_l-O_frpp	苏香粳100 Suxiangjing 100	5/18	10/25	160	机开沟摆栽 Mechanical furrowing and placed-planting	10/5−11/10	4/25	203
2020/2021	R_s-O_ds	南粳9108 Nanjing 9108	5/27	10/10	136	机条播 Mechanical sowing	10/15	4/24	191
2020/2021	R_l-O_frpp	苏香粳100 Suxiangjing 100	5/27	11/3	160	机开沟摆栽 Mechanical furrowing and placed-planting	10/8−11/12	4/24	199

年份 Year	处理 Treatment	水稻Rice		油菜Oilseed rape		周年Annual
年份 Year	处理 Treatment	积温 AT (℃)	分配率 TDR (%)	积温 AT (℃)	分配率 TDR (%)	积温 AT (℃)	两季比 TR
2017/2018	R_s-O_ds	3841	61.8	2373	38.2	6214	1.62
2017/2018	R_l-O_frpp	4311	63.5	2479	36.5	6790	1.74
2018/2019	R_s-O_ds	3594	63.1	2098	36.9	5692	1.71
2018/2019	R_l-O_frpp	4088	65.0	2201	35.0	6289	1.86
2020/2021	R_s-O_ds	3765	61.4	2367	38.6	6132	1.59
2020/2021	R_l-O_frpp	4250	63.2	2475	36.8	6725	1.72
平均Average	R_s-O_ds	3733 b	62.1 b	2279 a	37.9 a	6013 a	1.64 a
平均Average	R_l-O_frpp	4216 a	63.9 a	2385 a	36.1 b	6601 a	1.77 a

年份 Year	处理 Treatment	水稻 Rice		油菜 Oilseed rape		周年 Annual
年份 Year	处理 Treatment	辐射量 Ra (MJ m^-2)	分配率 RDR (%)	辐射量 Ra (MJ m^-2)	分配率 RDR (%)	辐射量 Ra (MJ m^-2)	两季比 RR
2017/2018	R_s-O_ds	2165	51.6	2033	48.4	4198	1.06
2017/2018	R_l-O_frpp	2418	53.7	2087	46.3	4505	1.16
2018/2019	R_s-O_ds	1979	55.1	1614	44.9	3594	1.23
2018/2019	R_l-O_frpp	2280	59.9	1527	40.1	3807	1.49
2020/2021	R_s-O_ds	1579	50.0	1576	50.0	3155	1.00
2020/2021	R_l-O_frpp	1739	50.7	1688	49.3	3427	1.03
平均Average	R_s-O_ds	1908 a	52.2 a	1741 a	47.8 a	3649 a	1.10 a
平均Average	R_l-O_frpp	2146 a	54.8 a	1767 a	45.2 a	3913 a	1.23 a

处理Treatment	水稻 Rice				油菜 Oilseed rape					周年Annual
处理Treatment	干物质产能 DMPE (MJ m^-2)	稻谷产值 Value (Y)	成本 Cost (Y)	净收入 Net income (Y)	干物质产能 DMPE (MJ m^-2)	饲油效益 Value (Y)	人工成本 Labor cost (Y)	其他成本 Other costs (Y)	净收入 Net income (Y)	干物质产能 DMPE (MJ m^-2)	总光能利用率 ARUE (%)	产值 Value (Y)
R_s-O_ds	29.4 b	23490	10320	13170	29.3 a	25280	650	6870	17760	57.7 a	1.60 a	30930
R_l-O_frpp	34.8 a	28350	10320	18030	23.9 b	21280	5250	10530	5500	58.7 a	1.51 a	23530

长三角水稻-油菜周年两熟温光资源分配与利用特征

Characteristics of heat and solar resources allocation and utilization in rice- oilseed rape double cropping systems in the Yangtze River Delta

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