播期对长江下游不同类型晚稻品种产量的影响及其与水稻全育期温光资源配置间关系

doi:10.3724/SP.J.1006.2022.12072

作物学报 ›› 2022, Vol. 48 ›› Issue (10): 2597-2613.doi: 10.3724/SP.J.1006.2022.12072

播期对长江下游不同类型晚稻品种产量的影响及其与水稻全育期温光资源配置间关系

冯向前¹^,²(), 殷敏³(), 王孟佳², 马横宇², 刘元辉², 褚光², 徐春梅², 章秀福², 王丹英², 张运波¹^,^*(), 陈松²^,^*()

¹长江大学农学院, 湖北荆州 434025
²中国水稻研究所, 浙江杭州 311400
³江苏沿海地区农业科学研究所新洋试验站, 江苏盐城 224049

收稿日期:2021-10-13 接受日期:2022-02-25 出版日期:2022-10-12 网络出版日期:2022-03-16
通讯作者: 张运波,陈松
作者简介:第一作者联系方式: 冯向前, E-mail: 201604651@yangtzeu.edu.cn;
殷敏, E-mail: 1603811077@qq.com第一联系人：
^** 同等贡献
基金资助:
浙江省重点研发计划项目(2022C02035);浙江省自然科学基金项目(LY22C130001);财政部和农业农村部国家现代农业产业技术体系建设专项(水稻, CARS-01);中国农业科学院科技创新工程重大科研任务(CAAS-ZDRW202001)

Effects of sowing date on the yield of different late rice variety types and its relationship with the allocation of temperature and light resources during the whole growth period of rice in the lower reaches of the Yangtze River

FENG Xiang-Qian¹^,²(), YIN Min³(), WANG Meng-Jia², MA Heng-Yu², LIU Yuan-Hui², CHU Guang², XU Chun-Mei², ZHANG Xiu-Fu², WANG Dan-Ying², ZHANG Yun-Bo¹^,^*(), CHEN Song²^,^*()

¹College of Agriculture, Yangtze University, Jingzhou 434025, Hubei, China
²China national rice research institute, Hangzhou 311400, Zhejiang, China
³Xinyang Agricultural Experiment Station of Yancheng City, Yancheng 224049, Jiangsu, China

Received:2021-10-13 Accepted:2022-02-25 Published:2022-10-12 Published online:2022-03-16
Contact: ZHANG Yun-Bo,CHEN Song
About author:First author contact:
^** Contributed equally to this work
Supported by:
Key Research and Development Program of Zhejiang Province(2022C02035);Zhejiang Province Natural Science Foundation of China(LY22C130001);China Agriculture Research System of MOF and MARA (Rice, CARS-01);Agricultural Science and Technology Innovation Program(CAAS-ZDRW202001)

摘要/Abstract

摘要：

为研究晚稻品种在不同播期处理下的产量、生理特征及温光配置情况, 探索长江下游地区适宜晚粳稻的品种类型及其适宜播期。以大面积推广的2个籼稻为对照、以7个常规粳稻和3个籼粳杂交稻为材料, 在当地晚稻可用播种期内(6月中旬至7月上旬)均匀设置播期[即0 d (I)、+T d (II)、+2T d (III)、+3T d (IV)、+4T d (V)], 研究晚稻随播期的推迟在产量、生育期和干物质积累等生理特征上的差异。结果表明, 随着播期推迟, 籼稻全生育期略有延长, 主要源于灌浆期的延长; 粳稻随播期推迟, 其灌浆期亦有所延长, 但由于营养生长期缩短幅度较大, 导致全生育期略有缩短; 不同晚稻品种类型间, 随着播期的推迟, 籼粳杂交稻和常规粳稻产量略有波动。其中常规粳稻在5个播期下产量[(8.0±0.5) t hm^-2]表现基本平稳, 差异不显著; 籼粳杂交稻先产量增加后降低, 2019年和2020年分别在播期IV和播期III达到峰值, 最高为11.0 t hm^-2和9.1 t hm^-2; 籼稻品种随着播期的推迟产量明显降低。同时, 不同品种类型间产量差异随播期推迟逐渐增大, 产量差从0.5 t hm^-2增大到5.1 t hm^-2; 播期变化对产量构成因子的影响各有不同。随着播期延迟, 有效穗数有所增加, 每穗粒数和结实率不同程度降低, 而千粒重无显著变化; 不同播期下主成分分析表明: 随着播期推迟, 品种特征差异从库源协同性差异, 逐渐演化为库源协同性叠加温光资源配置差异, 再演变为后期低温耐性差异。综上所述, 长江下游稻区晚籼稻应适当早播, 充分利用前期温光资源, 通过足穗达到高产。相对于籼稻, 粳稻拥有较强的播期适应性。在前茬作物收获较晚的情况下, 选择籼粳杂交稻品种更具产量保障, 而选择最佳播期可使籼粳杂交稻产量最大化。

关键词: 播期, 晚稻, 产量, 温光资源配置, 水稻品种类型

Abstract:

The yield, physiological characteristics, temperature, and light configurations of different late season rice varieties under different sowing treatments were studied to explore the suitable variety types of late japonica rice and their suitable sowing periods in the lower reaches of the Yangtze River. Two indica rice (CK), seven inbred japonica rice and three indica-japonica hybrid rice were used, and the sowing date adjustment experiment was carried out in the local suitable sowing period. The sowing treatments were set evenly within the locally available sowing period (mid-June to early July), with sowing periods set at 0 days (I), +T days (II), +2T days (III), +3T days (IV), and +4T days (V), respectively. The result showed that the total growing period of indica rice was slightly extended with delayed sowing, mainly due to the extension of the grain filling period. The grain filling period of japonica rice was also extended, but the total growing period was slightly shortened due to the greater shortening of the vegetative growth period. The yield of hybrid indica-japonica rice and inbred japonica rice fluctuated slightly with delayed sowing. The yield of inbred japonica rice [8.0±0.5 (t hm^-2)] was basically stable under five sowing dates. The yield of hybrid indica-japonica rice increased with delayed sowing dates, and peaked at sowing stage IV and sowing stage III in 2019 and 2020, respectively, with the highest yields of 11.0 t hm^-2and 9.1 t hm^-2. The yield of indica rice varieties decreased significantly with the delay of sowing period. At the same time, yield differences among different variety types gradually increased with sowing delay, with yield differences increasing from 0.5 t hm^-2 to 5.1 t hm^-2. The effects of sowing changes on yield components varied. The number of effective panicles increased with sowing delay, the number of grains per panicle, and the grain filling rate decreased to different degrees, while the 1000-grain weight did not change significantly. The principal component analysis at different sowing dates revealed that with sowing delay the differences in variety characteristics evolved from differences in sink-source synergism to differences in sink-source synergism superimposed on temperature and light resource allocation, and then to differences in low temperature tolerance at later stages. As a result, indica rice should be sown appropriately early to make full use of the early temperature and light resources to achieve high yield by producing adequate panicles. Japonica rice possessed strong sowing adaptability, and indica-japonica hybrid rice had advantages in yield under all sowing periods. In the case of late harvest of the previous crop, the selection of indica-japonica hybrid rice varieties was more yield guarantee, while the selection of the best sowing period could maximize the yield of indica-japonica hybrids.

Key words: sowing date, late season rice, yield, configuration of temperature and light resources, rice type

冯向前, 殷敏, 王孟佳, 马横宇, 刘元辉, 褚光, 徐春梅, 章秀福, 王丹英, 张运波, 陈松. 播期对长江下游不同类型晚稻品种产量的影响及其与水稻全育期温光资源配置间关系[J]. 作物学报, 2022, 48(10): 2597-2613.

FENG Xiang-Qian, YIN Min, WANG Meng-Jia, MA Heng-Yu, LIU Yuan-Hui, CHU Guang, XU Chun-Mei, ZHANG Xiu-Fu, WANG Dan-Ying, ZHANG Yun-Bo, CHEN Song. Effects of sowing date on the yield of different late rice variety types and its relationship with the allocation of temperature and light resources during the whole growth period of rice in the lower reaches of the Yangtze River[J]. Acta Agronomica Sinica, 2022, 48(10): 2597-2613.

图/表 13

表1

图1

表2

图2

表3

2019-2020年不同播期处理品种产量构成差异"

品种类型 Rice type	播期 Sowing date	有效穗数 No. of panicles (×10⁴ hm^-2)		每穗粒数 Spikelets per panicle		库容 Sink (×10⁷ hm^-2)		结实率 Percentage of filled grain (%)		千粒重 1000-grain weight (g)
品种类型 Rice type	播期 Sowing date	2019	2020	2019	2020	2019	2020	2019	2020	2019	2020
籼稻	I	316.5 b	260.0 c	170.6 a	225.8 a	54.0 a	58.5 a	83.3 ab	53.1 b	20.3 ab	21.7 bc
IR	II	342.5 a	302.5 b	132.0 b	169.7 bc	45.1 b	51.0 a	90.4 a	73.7 a	20.8 a	20.7 c
	III	293.1 bc	299.2 b	137.5 b	192.5 ab	40.2 b	57.6 a	76.8 b	49.1 bc	21.4 a	22.5 b
	IV	297.8 bc	377.1 a	146.6 b	165.7 bc	43.6 b	62.4 a	84.0 ab	44.3 bc	20.8 a	24.0 a
	V	284.4 c	380.4 a	149.1 b	128.7 c	42.3 b	48.8 a	64.0 c	33.4 c	18.7 b	24.8 a
	SDS	-1.95	4.50	-0.44	-2.83	-0.43	-0.11	-0.83	-0.98	-0.06	0.14
	R²	0.57^ns	0.51^ns	0.07^**	0.76^**	0.52^**	0.05^*	0.56^*	0.54^ns	0.28^*	0.81^*
常规粳稻	I	315.1 b	276.1 d	131.5 a	131.8 a	41.3 a	36.2 b	83.4 c	75.1 a	24.4 a	26.8 c
IJR	II	327.0 b	307.1 c	117.1 b	122.7 b	38.1 b	37.7 ab	84.7 bc	73.1 a	24.9 a	27.2 bc
	III	315.0 b	335.0 b	111.3 bc	111.7 c	34.8 c	37.3 ab	88.3 ab	77.1 a	25.5 a	28.0 ab
	IV	319.5 b	346 ab	111.9 bc	113.1 c	35.5 bc	38.7 a	90.7 a	72.9 a	25.4 a	28.4 a
	V	363.5 a	355.0 a	105.0 c	111.7 c	38.2 b	39.5 a	87.8 ab	66.8 b	24.6 a	27.9 ab
	SDS	1.63	2.81	-1.01	-0.71	-0.14	0.11	0.25	-0.24	0.01	0.05
	R²	0.52^ns	0.93^ns	0.83^**	0.78^**	0.25^**	0.89^*	0.59^ns	0.47^*	0.06^*	0.69^*
籼粳杂交稻	I	233.6 bc	223.3 bc	207.4 b	274.6 ab	48.2 b	61.1 ab	89.0 a	71.1 ab	22.5 ab	21.1 c
HIJR	II	217.5 c	215.0 c	225.7 ab	279.0 a	49.0 b	59.9 b	88.6 a	75.3 a	22.8 ab	21.4 c
	III	245.9 ab	225.4 bc	226.9 ab	262.7 ab	55.7 ab	58.7 b	82.2 b	68.4 bc	20.5 b	22.6 b
	IV	229.6 bc	238.2 b	257.1 a	281.0 a	58.5 a	66.7 a	89.3 a	62.4 cd	22.9 ab	23.1 ab
	V	250.0 a	272.5 a	205.5 b	244.2 b	51.3 ab	66.6 a	86.3 ab	58.4 d	24.0 a	23.2 a
	SDS	0.83	1.73	0.36	-0.84	0.26	0.25	-0.08	-0.54	0.06	0.08
	R²	0.34^ns	0.72^ns	0.02 ^ns	0.37^*	0.27 ^ns	0.55^*	0.07^*	0.80^*	0.15^*	0.91^*
	Sowing time (A)	^*	^**	^ns	^*	^ns	^ns	^ns	^**	^ns	^*
	Rice type (B)	^**	^**	^**	^**	^**	^**	^**	^*	^*	^**
	A×B	^*	^**	^ns	^ns	^**	^ns	^**	^ns	^ns	^ns

表3

图3

图4

图5

表4

2019-2020年不同播期处理对水稻不同生育阶段有效积温的影响"

品种 Cultivar	播期 Sowing date	营养生长期 Vegetative stage		穗发育期 Reproductive stage		灌浆期 Grain filling stage		全生育期 Whole growth stages
品种 Cultivar	播期 Sowing date	2019	2020	2019	2020	2019	2020	2019	2020
籼稻	I	1028.7 b	955.9 c	459.1 a	566.5 a	468.1 a	532.8 a	1955.9 a	2055.1 a
IR	II	1079.7 ab	993.7 abc	436.6 a	561.9 a	480.9 a	457.4 ab	1997.2 a	1957.3 bc
	III	1074.4 ab	982.8 bc	451.0 a	514.7 ab	468.0 a	480.3 ab	1993.4 a	1977.8 b
	IV	1088.5 a	1046.5 a	429.7 a	439.0 b	395.1 ab	428.0 b	1913.3 ab	1913.4 c
	V	1086.6 ab	1019.8 ab	448.7 a	508.5 ab	305.8 b	322.8 c	1841.1 b	1851.1 d
	SDS	20.40	24.08	-4.53	-31.85	-67.2	-59.92	-51.33	-60.25
	R²	0.64^*	0.67^ns	0.14^**	0.54^**	0.77^*	0.83^**	0.58^ns	0.88^**
常规粳稻	I	1099.5 a	1076.5 a	358.3 a	452.0 a	557.7 a	579.6 a	2015.5 a	2108.0 a
IJR	II	1072.9 ab	1028.8 a	356.9 a	437.4 a	554.4 a	563.2 ab	1984.2 ab	2029.4 b
	III	1066.3 ab	1012.0 ab	338.1 ab	400.2 ab	525.7 ab	561.2 ab	1930.1 bc	1973.4 bc
	IV	1019.7 ab	1011.3 ab	322.2 b	359.6 b	520.9 ab	533.5 bc	1862.7 cd	1904.3 cd
	V	978.9 b	918.6 b	334.1 ab	411.9 ab	490.4 b	516.7 c	1803.4 d	1847.2 d
品种 Cultivar	播期 Sowing date	营养生长期 Vegetative stage		穗发育期 Reproductive stage		灌浆期 Grain filling stage		全生育期 Whole growth stages
品种 Cultivar	播期 Sowing date	2019	2020	2019	2020	2019	2020	2019	2020
	SDS	-48.21	-44.44	-13.61	-21.07	-27.53	-20.73	-89.35	-86.23
	R²	0.94^**	0.84^**	0.72^**	0.48^**	0.93^**	0.95^**	0.99^**	0.99^**
籼粳杂交稻	I	1162.2 a	1059.1 a	384.4 ab	543.1 a	572.8 a	597.5 a	2119.4 a	2199.7 a
HIJR	II	1079.7 b	1039.0 b	427.2 a	485.7 b	575.3 a	578.1 ab	2082.2 a	2102.8 b
	III	1023.5 bc	982.8 c	443.5 a	505.4 ab	533.6 a	534.2 c	2000.5 b	2022.3 c
	IV	1045.9 b	944.4 d	345.4 b	464.8 b	530.0 a	547.1 bc	1921.2 c	1956.3 d
	V	977.4 c	899.7 e	399.5 ab	479.7 b	468.7 b	497.0 d	1845.6 d	1876.4 e
	SDS	-66.05	-55.12	-8.45	-19.69	-41.51	-30.93	-116.03	-105.75
	R²	0.85^**	0.99^**	0.05^ns	0.60^**	0.86^**	0.88^**	0.99^**	0.99^**

表4

表5

图6

图7

图8

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年份Year	播期 Sowing date treatmrnt	播种日期 Sowing date	移栽日期 Transplanting date
2019	I	2019/6/16	2019/7/3
	II	2019/6/21	2019/7/9
	III	2019/6/27	2019/7/17
	VI	2019/7/2	2019/7/23
	V	2019/7/9	2019/7/30
2020	I	2020/6/10	2020/6/29
	II	2020/6/17	2020/7/6
	III	2020/6/24	2020/7/13
	VI	2020/7/1	2020/7/20
	V	2020/7/8	2020/7/27

品种类型 Rice type	播期 Sowing date	营养生长期 Vegetative stage		穗发育期 Reproductive stage		灌浆期 Grain filling stage		全生育期 Whole growth stages
品种类型 Rice type	播期 Sowing date	2019	2020	2019	2020	2019	2020	2019	2020
籼稻	I	58 a	56 ab	26 ab	26 b	32 c	39 a	116 d	122 b
IR	II	59 a	57 a	26 b	28 b	38 b	40 a	122 c	125 a
	III	57 a	54 bc	27 ab	27 b	42 a	46 a	126 b	127 a
	IV	57 a	55 ab	28 ab	28 b	43 a	44 a	128 a	127 a
	V	58 a	53 c	36 a	36 a	45 a	39 a	130 a	127 a
	SDS	-0.034	-0.144	0.399	0.288	0.537	0.057	0.589	0.171
	R²	0.13^*	0.64^*	0.73^ns	0.63^ns	0.89^ns	0.03^ns	0.92^ns	0.75^ns
常规粳稻	I	62 a	62 a	20 a	22 ab	41 a	45 c	123 a	129 a
IJR	II	59 ab	58 ab	21 a	22 ab	42 a	47 bc	121 a	127 a
	III	57 bc	55 bc	20 a	21 b	42 a	51 ab	119 a	127 a
品种类型 Rice type	播期 Sowing date	营养生长期 Vegetative stage		穗发育期 Reproductive stage		灌浆期 Grain filling stage		全生育期 Whole growth stages
品种类型 Rice type	播期 Sowing date	2019	2020	2019	2020	2019	2020	2019	2020
	IV	54 cd	53 c	20 a	20 b	45 a	52 a	119 a	126 a
	V	50 d	47 d	21 a	24 a	48 a	54 a	119 a	126 a
	SDS	-0.509	-0.500	0.018	0.029	0.301	0.328	-0.171	-0.100
	R²	0.99^**	0.97^**	0.09^*	0.05^*	0.89^ns	0.97^ns	0.75^*	0.81^*
籼粳杂交稻	I	65 a	61 a	23 ab	26 ab	46 b	52 c	134 a	140 a
HIJR	II	59 b	59 b	25 ab	24 b	52 a	53 bc	136 a	137 a
	III	54 c	54 c	26 a	26 ab	53 a	53 bc	133 a	133 b
	IV	55 c	50 d	21 b	26 b	55 a	57 a	131 a	133 b
	V	50 d	46 e	26 a	29 a	55 a	56 ab	131 a	131 b
	SDS	-0.595	-0.577	0.043	0.114	0.359	0.171	-0.193	-0.314
	R²	0.89^**	0.99^**	0.03^*	0.50^**	0.77^ns	0.77^*	0.68^*	0.92^**
Sowing date (A)		**	**	ns	**	**	**	ns	ns
Rice type (B)		ns	ns	ns	**	**	**	*	**
A×B		**	ns	ns	ns	ns	ns	*	ns

品种 Cultivar	播期 Sowing date	营养生长期 Vegetative stage		穗发育期 Reproductive stage		灌浆期 Grain filling stage		全生育期 Whole growth stages
品种 Cultivar	播期 Sowing date	2019	2020	2019	2020	2019	2020	2019	2020
籼稻	I	27.7 c	27.1 e	27.6 a	31.0 a	24.6 a	23.3 a	26.7 a	26.7 a
IR	II	28.3 bc	27.4 d	27.1 ab	30.1 ab	22.8 b	21.2 b	25.5 a	25.5 a
	III	28.8 ab	28.2 c	26.7 b	29.1 b	21.1 c	20.2 bc	26.7 a	26.7 a
	IV	29.1 a	29.0 b	25.4 c	25.7 c	18.6 d	19.5 c	26.9 a	26.9 a
	V	28.7 ab	29.4 a	25.5 c	24.0 d	16.2 e	18.2 d	26.2 a	26.2 a
	SDS	0.45	0.82	-0.96	-2.45	-3.43	-1.58	0.07	0.05
	R²	0.67^**	0.98^**	0.91^**	0.94^**	0.99^**	0.96^**	0.01^**	0.01^**
常规粳稻	I	27.8 e	27.4 d	27.8 a	31.1 a	23.6 a	22.6 a	26.0 a	26.0 a
IJR	II	28.3 d	27.6 d	27.4 ab	30.2 ab	23.3 ab	21.8 ab	26.0 a	26.0 a
	III	28.8 c	28.3 c	26.7 bc	29.4 b	22.6 ab	20.9 bc	25.8 a	25.8 a
	IV	29.0 b	28.9 b	26.3 c	27.7 c	21.5 bc	20.1 cd	25.3 a	25.3 a
	V	29.5 a	29.4 a	25.8 c	26.8 c	20.1 c	19.4 d	25.6 a	25.6 a
	SDS	0.67	0.70	-0.83	-1.48	-1.44	-1.08	-0.25	-0.20
	R²	0.98^**	0.98^**	0.99^**	0.98^**	0.94^**	0.99^**	0.64^**	0.64^**
籼粳杂交稻	I	28.0 e	27.4 e	27.0 ab	30.6 a	22.4 a	21.2 a	24.8 ab	24.8 ab
HIJR	II	28.3 d	27.6 d	27.1 a	30.0 ab	20.8 b	20.6 b	23.7 b	23.7 b
	III	28.8 c	28.2 c	27.1 ab	29.2 b	19.6 c	20.0 c	24.9 ab	24.9 ab
	IV	29.0 b	28.8 b	26.4 b	28.1 c	19.0 c	19.4 d	25.7 a	25.7 a
	V	29.5 a	29.4 a	25.6 c	26.0 d	17.8 d	18.9 e	24.3 ab	24.3 ab
	SDS	0.60	0.69	-0.57	-1.48	-1.81	-0.77	0.16	0.13
	R²	0.99^**	0.98^**	0.72^**	0.94^**	0.98^**	0.99^**	0.05^**	0.05^**

播期对长江下游不同类型晚稻品种产量的影响及其与水稻全育期温光资源配置间关系

Effects of sowing date on the yield of different late rice variety types and its relationship with the allocation of temperature and light resources during the whole growth period of rice in the lower reaches of the Yangtze River

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