四川盆地不同类型水稻品种机插栽培的干物质生产及产量特性分析

doi:10.16819/j.1001-7216.2019.8049

摘要/Abstract

摘要：

【目的】阐明机插栽培对不同类型水稻的干物质生产及产量特性的影响,为四川盆地机插秧的推广、品种选育和高产栽培提供依据。【方法】于2012年在四川盆地以中籼中熟杂交稻、中籼迟熟杂交稻、粳稻三类共计10个品种为材料,研究不同类型水稻品种在机插栽培条件下的干物质生产及产量形成特性。【结果】1)三种不同类型品种的水稻移栽后干物质积累均很好地符合Logistic曲线。中籼中熟杂交稻、中籼迟熟杂交稻物质积累均较快,缓增期短,快增期长,物质积累有一定优势;粳稻物质积累速率小,渐增期、缓增期较长,快增期短,物质积累处于劣势。2)三种类型水稻品种相比,在成熟期中籼中熟杂交稻营养器官干物质所占比例最低,生殖器官干物质所占比例最高;中籼迟熟杂交稻成熟期叶片占比最高,而粳稻则是茎鞘比例高、穗比例低。3)中籼中熟杂交稻、中籼迟熟杂交稻的茎鞘、叶片物质输出率和物质转化率均为正值,但粳稻茎鞘物质输出率、转化率和叶片物质转化率均小于0,叶片物质输出率也仅为1.26%。4)中籼中熟杂交稻的产量、每穗实粒数、籽粒充实率、充实度最高,中籼迟熟杂交稻的结实率、千粒重最大,粳稻的有效穗数、成穗率最高,说明籼稻产量主要与穗部性状有关,而粳稻主要与田间有效穗数有关。【结论】在四川盆地的机插栽培条件下,杂交籼稻需提高其有效穗数、成穗率;粳稻需筛选大穗型品种,提高每穗粒数和籽粒充实度。

关键词: 水稻, 机插, 物质生产, 产量

Abstract:

【Objective】The objective is to elucidate the dry matter production and yield characteristics of machine-transplanted rice varieties. 【Method】The dry matter production and yield formation of 10 varieties of three different types, medium-maturing indica hybrid rice, late-maturing indica hybrid rice and japonica rice included, were analyzed under mechanical transplanting in Sichuan Basin in 2012. 【Result】The main results were as follows: 1) The processes of dry matter accumulation of the three different types of rice varieties after transplanting are in accordance with the Logistic curve. The dry matter accumulation of medium-maturing indica hybrid rice and late-maturing indica hybrid rice were faster than that of japonica rice, with shorter slow growth period and longer fast growth period. However, the dry matter accumulation of japonica rice was slower with longer incremental growth period and slow growth period and shorter fast growth period. Therefore the dry matter accumulation of medium-maturing indica hybrid rice and late-maturing indica hybrid rice was superior to that of japonica rice. 2) The medium-maturing hybrid rice had the lowest proportion of vegetative organs and the highest proportion of reproductive organs, the late-maturing hybrid rice had the highest proportion of leaves at maturity, whereas the japonica rice had high proportion for stem but low proportion for panicles. 3) The percentage of output and transformation of stem and leaf in medium-maturing hybrid rice and late-maturing hybrid rice were all positive. However, the percentage of output and transformation of stem and the percentage of transformation of leaf in japonica rice were all negative, and the percentage of output of leaf was only 1.26%. 4) Medium-maturing indica hybrid rice has largest yield, grain number per panicle, grain filling rate, and filling degree, late-maturing indica hybrid rice has largest seed setting rate and 1000-grain weight, and japonica rice has largest effective panicle number and productive tiller percentage, which indicates that the indica hybrid rice yield is mainly associated with panicle traits, and japonica rice is mainly related to the number of panicles in the field.【Conclusion】Hybrid indica rice needs to increase its effective panicle number and the productive tiller percentage under the machine-transplanted conditions. For japonica rice, it’s necessary to breed large panicle varieties and increase the grain number per panicle and grain filling degree.

Key words: rice, mechanical transplanting, dry matter production, yield

中图分类号:

刘琦, 胡剑锋, 周伟, 杨志平, 陈勇, 任万军. 四川盆地不同类型水稻品种机插栽培的干物质生产及产量特性分析[J]. 中国水稻科学, 2019, 33(1): 35-46.

Qi LIU, Jianfeng HU, Wei ZHOU, Zhiping YANG, Yong CHEN, Wanjun REN. Dry Matter Production and Yield Characteristics of Machine-transplanted Rice Varieties Falling into Different Types in Sichuan Basin[J]. Chinese Journal OF Rice Science, 2019, 33(1): 35-46.

图/表 10

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类型 Type	品种名称 Variety	亲本来源 Parental source	选育单位 Breeding unit
Ⅰ中籼中熟杂交稻 Medium-maturing indica hybrid rice	宜香优2168 Yixiangyou 2168	宜香1A×HR2168 Yixiang 1A×HR2168	四川农业大学、宜宾市农业科学院、四川省绿丹种业有限公司
	川香优3号 Chuanxiangyou 3	川香29A×成恢488 Chuanxiang 29A×Chenghui 488	四川省农业科学院作物研究所四川天宇种业有限公司
	F优498 F you 498	FS3A×蜀恢498 FS3A×Shuihui 498	四川农业大学水稻研究所江油市川江水稻研究所湖南川农高科种业有限公司
Ⅱ中籼迟熟杂交稻 Late-maturing indica hybrid rice	Ⅱ优498 Ⅱyou 498	Ⅱ-32A×蜀恢498 Ⅱ-32A×Shuhui 498	四川农业大学水稻研究所
	泰优99 Taiyou 99	D62A×泸恢1345 D62A×Luhui 1345	四川省农业科学院水稻高粱研究所
	德香4103 Dexiang 4013	德香074A×泸恢H103 Dexiang 074A×Luhui H103	四川省农业科学院水稻高粱研究所
	69优8号 69 you 8	69A×R11238	徐州农业科学研究所
Ⅲ粳稻 japonica rice	连粳10号 Lianjing 10	连粳321/浙405 Lianjing 321/Zhe 405	连云港市农业科学院
	徐稻6号 Xudao 6	95-3/泸恢1345 95-3/Luhui 1345	江苏徐州农科所
	W021	镇稻88/连粳4号//W003 Zhendao 88/Lianjing 4//W003	南京农业大学

类型 Type	品种名称 Variety	亲本来源 Parental source	选育单位 Breeding unit
Ⅰ中籼中熟杂交稻 Medium-maturing indica hybrid rice	宜香优2168 Yixiangyou 2168	宜香1A×HR2168 Yixiang 1A×HR2168	四川农业大学、宜宾市农业科学院、四川省绿丹种业有限公司
	川香优3号 Chuanxiangyou 3	川香29A×成恢488 Chuanxiang 29A×Chenghui 488	四川省农业科学院作物研究所四川天宇种业有限公司
	F优498 F you 498	FS3A×蜀恢498 FS3A×Shuihui 498	四川农业大学水稻研究所江油市川江水稻研究所湖南川农高科种业有限公司
Ⅱ中籼迟熟杂交稻 Late-maturing indica hybrid rice	Ⅱ优498 Ⅱyou 498	Ⅱ-32A×蜀恢498 Ⅱ-32A×Shuhui 498	四川农业大学水稻研究所
	泰优99 Taiyou 99	D62A×泸恢1345 D62A×Luhui 1345	四川省农业科学院水稻高粱研究所
	德香4103 Dexiang 4013	德香074A×泸恢H103 Dexiang 074A×Luhui H103	四川省农业科学院水稻高粱研究所
	69优8号 69 you 8	69A×R11238	徐州农业科学研究所
Ⅲ粳稻 japonica rice	连粳10号 Lianjing 10	连粳321/浙405 Lianjing 321/Zhe 405	连云港市农业科学院
	徐稻6号 Xudao 6	95-3/泸恢1345 95-3/Luhui 1345	江苏徐州农科所
	W021	镇稻88/连粳4号//W003 Zhendao 88/Lianjing 4//W003	南京农业大学

处理 Treatment	成苗率 Plant regeneration /%	盘结力 Roots twisting power /(kg·dm^-2)	漏插率 Empty rate /%	基本苗 Basic seedling number /(×10⁴ hm^-2)
宜香优2168 Yixiangyou 2168	79.8±2.6	2.02±0.30	22.3±2.7	37.74±1.20
川香优3号 Chuanxiangyou 3	78.6±8.3	2.35±0.25	19.0±7.2	37.16±3.82
F优498 F you 498	79.5±6.1	2.88±0.11	14.7±1.8	37.58±2.89
Ⅱ优498 Ⅱyou 498	71.0±3.8	2.78±0.64	10.3±3.6	33.61±1.77
泰优99 Taiyou 99	84.1±4.3	2.17±0.15	16.8±1.8	39.72±2.01
德香4103 Dexiang 4103	83.2±3.0	2.17±0.12	19.0±4.7	39.17±1.50
69优8号 69 you 8	80.4±5.5	2.49±0.28	11.0±5.2	37.91±2.61
连粳10号 Lianjing 10	58.7±4.0	3.60±0.22	4.4±1.0	27.80±1.83
徐稻6号 Xudao 6	63.6±2.3	2.78±0.15	7.4±1.0	30.01±0.86
W021	55.0±1.3	2.88±0.08	11.0±2.7	25.96±0.71

处理 Treatment	成苗率 Plant regeneration /%	盘结力 Roots twisting power /(kg·dm^-2)	漏插率 Empty rate /%	基本苗 Basic seedling number /(×10⁴ hm^-2)
宜香优2168 Yixiangyou 2168	79.8±2.6	2.02±0.30	22.3±2.7	37.74±1.20
川香优3号 Chuanxiangyou 3	78.6±8.3	2.35±0.25	19.0±7.2	37.16±3.82
F优498 F you 498	79.5±6.1	2.88±0.11	14.7±1.8	37.58±2.89
Ⅱ优498 Ⅱyou 498	71.0±3.8	2.78±0.64	10.3±3.6	33.61±1.77
泰优99 Taiyou 99	84.1±4.3	2.17±0.15	16.8±1.8	39.72±2.01
德香4103 Dexiang 4103	83.2±3.0	2.17±0.12	19.0±4.7	39.17±1.50
69优8号 69 you 8	80.4±5.5	2.49±0.28	11.0±5.2	37.91±2.61
连粳10号 Lianjing 10	58.7±4.0	3.60±0.22	4.4±1.0	27.80±1.83
徐稻6号 Xudao 6	63.6±2.3	2.78±0.15	7.4±1.0	30.01±0.86
W021	55.0±1.3	2.88±0.08	11.0±2.7	25.96±0.71

品种 Variety	播种期 Date of sowing /(Month-Day)	移栽期 Date of transplanting /(Month-Day)	成熟期 Date of maturity /(Month-Day)	播种-拔节Sowing- jointing/d	拔节-抽穗 Jointing- heading/d	抽穗-成熟 Heading- maturity/d	返青天数 Returning green/d	全生育期 Whole growth duration/d	总叶数 Number of leaves
宜香优2168 Yixiangyou 2168	04-06	05-08	09-06	73	42	37	6	152	15.0
川香优3号 Chuanxiangyou 3	04-06	05-08	09-04	73	42	35	6	150	15.0
F优498 F you 498	04-06	05-08	09-06	73	41	38	5	152	15.3
Ⅱ优498 Ⅱyou 498	04-06	05-08	09-14	75	47	38	6	160	15.6
泰优99 Taiyou 99	04-06	05-08	09-14	75	47	38	5	160	15.7
德香4103 Dexiang 4103	04-06	05-08	09-07	75	41	37	5	153	15.4
69优8号 69 you 8	04-06	05-08	09-18	83	31	43	6	157	16.6
连粳10 Lianjing 10	04-06	05-08	09-18	83	32	49	7	165	15.8
徐稻6号 Xudao 6	04-06	05-08	09-18	83	32	49	7	165	16.3
W021	04-06	05-08	09-18	83	32	49	7	165	16.5