水稻机械精量有序抛秧栽培的产量形成和生长发育特征研究

doi:10.3724/SP.J.1006.2021.02032

摘要/Abstract

摘要：

水稻机械精量有序抛秧栽培是指通过有序抛秧机进行水稻分行分蔸有序抛栽的机械化种植方式, 解决了传统抛秧栽培田间种植无序和作业效率低等问题。本研究以手插秧和手抛秧模式作为对照, 通过2018—2019年的比较试验系统探究了精量有序机抛秧模式下水稻产量形成的特点及生长发育特性。研究结果表明, 精量有序机抛秧较手插秧增产22.4%~28.3%, 较手抛秧增产2.8%~8.9%。生长发育特性方面, 精量有序机抛秧群体通风性好, 生育后期的干物质同化积累能力强, 花后干物质积累量较手插秧和手抛秧分别增加52.8%和23.4%; 叶片衰老较慢、库充实度高, 与手插秧相比, 其单位面积有效穗数显著增加20.9%~64.2%; 与手抛秧相比, 结实率增加3~5个百分点, 进而促进其高产。然而, 精量有序机抛栽培模式下抛秧机及配套育秧技术等方面还有待改进以进一步发挥高产潜能, 同时围绕精量有序机抛秧技术的立苗缓青特征、分蘖发生特性和根系生长特点等方面的研究还有待深入开展。

关键词: 水稻, 有序机抛秧, 产量, 生长发育特性

Abstract:

Orderly mechanical seedling-broadcasting refers to the rice establishment methods that throw-transplanted the rice seedlings to the field in rows and lines by seedling broadcasting machine. Which are suggested to prominently increase the uniformity and efficiency of rice crops compared with manual seedling broadcasting. The present study was carried out to compare the differences between orderly mechanical seedling-broadcasting, manual transplanting and manual seedling broadcasting regarding yield formation and growth characteristics of rice. The results suggested that the grain yield of rice under orderly mechanical seedling-broadcasting was increased compared with manual transplanting and manual seedling broadcasting by 22.4%-28.3% and 2.8%-8.9%, respectively. On the aspect of growth traits, the orderly mechanical seedling-broadcasting was characterized as good ventilation, better assimilation ability of dry matter at late growth stages, delayed leaf senescence and high grain filling percentage, which increased the panicle numbers per square meter by 20.9%-64.2% compared with that of manual transplanting and increased the seed setting rate as compared with manual seedling-broadcasting. However, in order to further develop the potential of high yield, the techniques and planting machines of orderly mechanical seedling-broadcasting still need to be improved. In addition, the process of seedling recovery, tiller development and root growth traits of rice under orderly mechanical seedling-broadcasting should be explored in future studies.

Key words: rice, orderly mechanical seedling-broadcasting, yield, growth characteristics

王慰亲, 唐启源, 陈元伟, 贾巍, 罗友谊, 王小卉, 郑华斌, 熊娇军. 水稻机械精量有序抛秧栽培的产量形成和生长发育特征研究[J]. 作物学报, 2021, 47(5): 942-951.

WANG Wei-Qin, TANG Qi-Yuan, CHEN Yuan-Wei, JIA Wei, LUO You-Yi, WANG Xiao-Hui, ZHENG Hua-Bin, XIONG Jiao-Jun. Evaluation of orderly mechanical seedling-broadcasting on yield formation and growth characteristics of rice[J]. Acta Agronomica Sinica, 2021, 47(5): 942-951.

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参考文献 23

[1]	金千瑜. 我国水稻抛秧栽培技术的应用与发展. 中国稻米, 1996, (1):10-13.
	Jin Q Y. The application and development of rice seedling broadcasting in China. China Rice, 1996, (1):10-13 (in Chinese with English abstract).
[2]	陈健. 水稻栽培方式的演变与发展研究. 沈阳农业大学学报, 2003,34:389-393.
	Chen J. Evolution and development of rice planting pattern. J Shenyang Agric Univ, 2003,34:389-393 (in Chinese with English abstract).
[3]	张洪程, 戴其根, 霍中洋, 许轲, 魏海燕. 中国抛秧稻作技术体系及其特征. 中国农业科学, 2008,41:43-52.
	Zhang H C, Dai Q G, Huo Z Y, Xu K, Wei H Y. Cultivation technical system of rice seedling broadcasting and its characteristics. Sci Agric Sin, 2008,41:43-52 (in Chinese with English abstract).
[4]	胡雅杰, 张洪程, 龚金龙, 龙厚元, 戴其根, 霍中洋, 许轲, 魏海燕, 李德剑, 沙安勤, 周有炎, 罗学超, 刘国林, 赵德亮. 不同栽培方式对水稻产量和物质生产特征影响. 中国稻米, 2012,18(5):15-19.
	Hu Y J, Zhang H C, Gong J L, Long H Y, Dai Q G, Huo Z Y, Xu K, Wei H Y, Li D Y, Sha A Q, Zhou Y Y, Luo X C, Liu G L, Zhao D L. Effects of cultivation methods on the grain yield and biomass production characteristics of rice. China Rice, 2012,18(5):15-19 (in Chinese with English abstract).
[5]	戴其根, 霍中洋, 张洪程, 苏宝林, 许轲, 邱枫. 抛秧水稻生长发育与产量形成的生态生理机制II秧苗田间垂直分布格局及其生态生理效应. 作物学报, 2001,27:600-611.
	Dai Q G, Huo Z Y, Zhang H C, Su B L, Xu K, Qiu F. The eco-physiological mechanism of growth, development and yield formation of broadcasted rice seedlings, the characteristics of II spatial distribution of plant on perpendicular and its eco-physiological effect. Acta Agron Sin, 2001,27:600-611 (in Chinese with English abstract).
[6]	戴其根, 张洪程, 霍中洋, 许轲, 邱枫. 抛秧稻生长发育特征及产量形成规律的探讨. 江苏农业研究, 2000,21(1):1-7.
	Dai Q G, Zhang H C, Huo Z Y, Xu K, Qiu F. Characteristics of growth and yield formation of broadcasting-seedling of rice. Jiangsu Agric Res, 2000,21(1):1-7 (in Chinese with English Abstract).
[7]	闫凤宇, 于凤阁. 水稻抛秧应用现状及技术要点. 现代农业科技, 2011, (3):99-101.
	Yan F Y, Yu F G. The application status and technical essentials for rice seedling broadcasting. Adv Agric Technol, 2011, (3):99-101 (in Chinese with English abstract).
[8]	孙永健, 徐徽, 秦俭, 贾现文, 马均. 栽培方式与免耕对杂交稻II优498灌浆期根系衰老和籽粒灌浆的影响. 中国农业科学, 2013,46:1347-1358.
	Sun Y J, Xu H, Qin J, Jia X W, Ma J. Influence of cultivation methods and no-tillage on root senescence at filling stage and grain-filling properties of II you 498. Sci Agric Sin, 2013,46:1347-1358 (in Chinese with English abstract).
[9]	罗锡文, 王在满. 水稻生产全程机械化技术研究进展. 现代农业装备, 2014, (1):23-29.
	Luo X W, Wang Z M. Research progress of rice production mechanization technology. Mod Agric Equip, 2014, (1):23-29 (in Chinese with English abstract).
[10]	夏倩倩, 张文毅, 纪要, 李坤. 我国机械抛秧技术与装备的研究现状及趋势. 中国农机化学报, 2019,40(6):201-208.
	Xia Q Q, Zhang W Y, Ji Y, Li K. Research status and trend of mechanical throwing seedling technology and equipment in China. J Chin Agric Mechan, 2019,40(6):201-208 (in Chinese with English abstract).
[11]	谭艳红. 水稻抛秧机关键部件机构设计与试验研究. 湖南农业大学硕士学位论文, 湖南长沙, 2016.
	Tan Y H. Design and Experimental Research of Key Components on Rice Throwing Machine. MS Thesis of Hunan Agricultural University, Changsha, Hunan, China, 2016 (in Chinese with English abstract).
[12]	陈旭暄, 宋建农, 刘建军, 魏青. 水稻钵苗输秧拔秧机构参数优化. 中国农业大学学报, 2005,10(2):19-21.
	Chen X X, Song J N, Liu J J, Wei Q. Parametric optimization of a transporting and evulsing mechanism of potted rice seedlings. J China Agric Univ, 2005,10(2):19-21 (in Chinese with English abstract).
[13]	王国强. 浅析2ZU-6型播秧机性能与推广. 农业装备技术, 2002, (1):17-18.
	Wang G Q. The extension and evaluation of 2ZU-6 rice transplanting machine. Technol Agric Equip, 2002, (1):17-18 (in Chinese).
[14]	汪友祥, 彭洪巽. 2ZP-13型水稻有序抛秧机的研发与推广. 农业机械, 2018, (11):87-90.
	Wang Y X, Peng H X. The development and extension of 2ZP-13 orderly rice throw-transplanting machine. Agric Machine, 2018, (11):17-18 (in Chinese).
[15]	张洪程, 戴其根, 邱枫, 霍中洋, 许轲, 董明辉, 杨海生. 抛秧稻产量形成的生物学优势及高产栽培途径的研究. 江苏农学院学报, 1998,19(3):11-17.
	Zhang H C, Dai Q G, Qiu F, Huo Z Y, Xu K, Dong M H, Yang H S. Studies on the biological superiority of yield formation of broadcasting-seedling rice and its high-yielding cultured way. J Jiangsu Agric Coll, 1998,19(3):11-17 (in Chinese with English abstract).
[16]	郭保卫, 陈厚存, 张春华, 魏海燕, 张洪程, 戴其根, 霍中洋, 许轲, 邢琳, 管文文, 黄幸福, 杨雄. 水稻抛栽秧苗立苗中的形态与生理变化. 作物学报, 2010,36:1715-1724.
	Guo B W, Chen H C, Zhang C H, Wei H Y, Zhang H C, Dai Q G, Huo Z Y, Xu K, Xing L, Guan W W, Huang X F, Yang X. Morphological and physiological changes in seedling standing and establishment of broadcasted rice seedlings. Acta Agron Sin, 2010,36:1715-1724 (in Chinese with English abstract).
[17]	张洪程, 朱聪聪, 霍中洋, 许轲, 蒋晓鸿, 陈厚存, 高尚勤, 李德剑, 赵成美, 戴其根, 魏海燕, 郭保卫. 钵苗机插水稻产量形成优势及主要生理生态特点. 农业工程学报, 2013,29(21):50-59.
	Zhang H C, Zhu C C, Huo Z Y, Xu K, Jiang X H, Chen H C, Gao S Q, Li D J, Zhao C M, Dai Q G, Wei H Y, Guo B W. Advantages of yield formation and main characteristics of physiological and ecological in rice with nutrition bowl mechanical transplanting. Trans CSAE, 2013,29(21):50-59 (in Chinese with English abstract).
[18]	于磊, 牟雪雷, 韩休海, 沈亮. 水稻钵育摆栽技术的应用及发展. 农机化研究, 2011,33(9):212-215.
	Yu L, Mou X L, Han X H, Shen L. The application and development of rice bowl-seedling transplanting technology. J Agric Mechan Res, 2011,33(9):212-215 (in Chinese with English abstract).
[19]	郭保卫. 水稻有序摆栽超高产形成及其生理生态特征的研究. 扬州大学博士学位论文, 江苏扬州, 2013.
	Guo B W. Studied on Super High Yield Formation and Its Eco-Physiological Characteristics of Ordered Transplanting and Optimized Broadcasting Rice. PhD Dissertation of Yangzhou University, Yangzhou, Jiangsu, China, 2013 (in Chinese with English abstract).
[20]	刘华招, 王春江. 不同移栽方式对秧苗返青分蘖的影响. 现代化农业, 2006, (10):15-16.
	Liu H Z, Wang C J. The effects of transplanting methods on the recovery and tillering ability of rice seedlings. Mod Agric, 2006, (10):15-16 (in Chinese with English abstract).
[21]	江立庚, 徐世宏, 李如平, 何礼健, 陈德威, 秦华东, 杨为芳, 谭素宁, 陈明才, 郑希, 陆福勇, 唐茂艳. 稻田耕作方式对抛秧稻分蘖特性的影响. 杂交水稻, 2006, (增刊1):23-25.
	Jiang L G, Xu S H, Li R P, He L J, Chen D W, Qin H D, Yang W F, Tan S N, Chen M C, Zheng X, Lu F Y, Tang M Y. effects of tillage methods on the tillering ability of seedling-broadcasting rice. Hybrid Rice, 2006, (S1):23-25 (in Chinese with English abstract).
[22]	陈国建. 水稻钵育摆栽高产稳产机理分析. 垦殖与稻作, 2004, (5):28-30.
	Chen G J. High yielding mechanisms of rice with nutrition bowl mechanical transplanting. Reclaim Rice Cult, 2004, (5):28-30 (in Chinese with English abstract).
	林贤青, 周伟军, 朱德峰, 张玉屏, 杨国花. 强化栽培下水稻穗分化期叶片光合速率与水分利用率的研究. 中国水稻科学, 2005,19:132-136.
	Lin X Q, Zhou W J, Zhu D F, Zhang Y P, Yang G H. Photosynthetic rate and water use efficiency of leaves at different positions during panicle initiation stage under the system of rice intensification. Chin J Rice Sci, 2005,19:132-136 (in Chinese with English abstract).
[23]	郭保卫, 许轲, 张洪程, 戴其根, 霍中洋, 魏海燕, 陈厚存. 有序摆抛栽超高产栽培对水稻根系形态生理特征的影响. 中国水稻科学, 2016,30:611-625.
	Guo B W, Xu K, Zhang H C, Dai Q G, Huo Z Y, Wei H Y, Chen H C. Effects of ordered transplanting and optimized broadcasting on rice root system morphological and physiological characteristics under super high-yielding cultivation. Chin J Rice Sci, 2016,30:611-625 (in Chinese with English abstract).

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品种 Variety	种植方式 Planting pattern	株高 Plant height (cm)	地上部生物量 Above-ground biomass (g m^-2)	叶面积指数 Leaf area index
黄华占	手插秧 Manual transplanting	104.2	863.5	4.13
Huanghuazhan	手抛秧 Manual seedling-broadcasting	109.7	1325.7	7.23
	机抛秧 Mechanical seedling-broadcasting	105.1	1172.8	6.88
甬优1538	手插秧 Manual transplanting	104.6	1042.4	4.32
Yongyou 1538	手抛秧 Manual seedling-broadcasting	105.4	1602.6	7.84
	机抛秧 Mechanical seedling-broadcasting	103.6	1248.1	7.26

年份 Year	品种 Variety	种植方式 Establishment methods	播种-移栽 Seeding- Transplanting (d)	移栽-齐穗 Transplanting- Heading (d)	齐穗-成熟 Heading- Maturity (d)	全生育期 Growth durations (d)
2018	黄华占	手插秧 Manual transplanting	20	65	38	123
	Huanghuazhan	手抛秧 Manual seedling-broadcasting	20	65	36	121
		机抛秧 Mechanical seedling-broadcasting	20	65	36	121
	甬优1538	手插秧 Manual transplanting	20	74	50	144
	Yongyou 1538	手抛秧 Manual seedling-broadcasting	20	73	49	142
		机抛秧 Mechanical seedling-broadcasting	20	73	49	142
2019	黄华占	手插秧 Manual transplanting	21	65	33	119
	Huanghuazhan	手抛秧 Manual seedling-broadcasting	21	64	33	118
		机抛秧 Mechanical seedling-broadcasting	21	67	33	121
	甬优1538	手插秧 Manual transplanting	21	67	50	138
	Yongyou 1538	手抛秧 Manual seedling-broadcasting	21	68	51	140
		机抛秧 Mechanical seedling-broadcasting	21	69	52	142

年份 Year	品种 Variety	种植方式 Establishment methods	单位面积有效穗数 Panicle numbers per m²	每穗粒数 Spikelets per panicle	结实率 Seed setting rate (%)	千粒重 1000-grain weight (g)
2018	黄华占	手插秧 Manual transplanting	254.7 b	164.0 a	88.3 a	19.4 a
	Huanghuazhan	手抛秧 Manual seedling-broadcasting	340.0 a	156.6 a	85.6 a	19.7 a
		机抛秧 Mechanical seedling-broadcasting	308.0 a	158.7 a	88.5 a	19.4 a
		平均值 Mean value	300.9 A	159.8 A	87.5 A	19.5 A
	甬优1538	手插秧 Manual transplanting	190.7 b	320.6 a	70.5 b	20.0 a
	Yongyou 1538	手抛秧 Manual seedling-broadcasting	310.7 a	312.7 a	76.3 ab	20.7 a
		机抛秧 Mechanical seedling-broadcasting	313.3 a	307.7 a	79.7 a	20.3 a
		平均值 Mean value	271.6 A	313.7 A	77.6 A	20.9 A
2019	黄华占	手插秧 Manual transplanting	282.7 b	170.0 a	78.4 b	18.1 a
	Huanghuazhan	手抛秧 Manual seedling-broadcasting	372.0 a	146.8 b	79.3 ab	18.9 a
		机抛秧 Mechanical seedling-broadcasting	377.3 a	151.7 ab	83.4 a	19.1 a
		平均值 Mean value	344.0 A	156.2 A	80.4 B	18.7 A
	甬优1538	手插秧 Manual transplanting	193.3 b	303.4 a	76.2 b	21.1 a
	Yongyou 1538	手抛秧 Manual seedling-broadcasting	289.3 a	261.6 b	76.3 b	20.9 a
		机抛秧 Mechanical seedling-broadcasting	286.7 a	263.9 b	80.4 a	20.9 a
		平均值 Mean value	256.4 A	276.3 A	75.5 A	20.3 A