高粱种子对萌发温度的响应分析与耐低温萌发能力鉴定

doi:10.3724/SP.J.1006.2020.94150

Abstract

Abstract:

Low temperature during germination is an important abiotic stress factor limiting seed germination. Sorghum seeds with high germination capacity at low temperature are conducive to the emergence and establishment of a good population. Therefore, studying the response characteristics of sorghum hybrids to different germination temperatures is of great theoretical and practical value. Thirty sorghum hybrids from different regions of China were germinated in the artificial climate chamber, at 25°C, 20°C, 16°C, or 12°C to measure germination potential, germination percent, bud length, root length, bud weight and root weight. Sorghum hybrids were identified and classified according to low temperature resistance during the germination based on principal component analysis (PCA) and clustering analysis. With a decrease in germination temperature, the growth of both buds and roots were inhibited, but the ratio of roots to buds in both weight and length increased, indicating that buds were more sensitive to low temperature during germination than roots. The relative values of six germination indicators of the thirty sorghum hybrids were correlated between each other. The PCA results showed that relative bud length, relative root length and relative germination percent could be used to evaluate the sorghum germination capacity under low temperatures because these indicators had the largest loads in the three principal components, respectively. According to the low temperature tolerance ability of the 30 sorghum hybrids were divided into four categories: Liaonian 3 was extremely sensitive to low temperature; eighteen hybrids, such as Jiliang 1, were sensitive to low temperature; five hybrids, such as Jiniang 1, were insensitive to low temperature, and six hybrids, such as Chiza 101 had a strong low temperature tolerance during the germination.

Key words: sorghum, germination traits, low temperature sensitivity, principal components analysis

ZHANG Rui-Dong,XIAO Meng-Ying,XU Xiao-Xue,JIANG Bing,XING Yi-Fan,CHEN Xiao-Fei,LI Bang,AI Xue-Ying,ZHOU Yu-Fei,HUANG Rui-Dong. Responses of sorghum hybrids to germination temperatures and identification of low temperature resistance[J].Acta Agronomica Sinica, 2020, 46(6): 889-901.

Figures/Tables 10

Table 1

Tested sorghum hybrids and their origin"

编号 Serial number	名称 Cultivar	品种来源 Origin
S1	济粱1号 Jiliang 1	山东省农业科学院Shandong Academy of Agricultural Sciences
S2	济粱2号 Jiliang 2	山东省农业科学院Shandong Academy of Agricultural Sciences
S3	冀酿1号 Jiniang 1	河北省农林科学院Hebei Academy of Agricultural and Forestry Sciences
S4	冀酿2号 Jiniang 2	河北省农林科学院Hebei Academy of Agricultural and Forestry Sciences
S5	辽粘3号 Liaonian 3	辽宁省农业科学院Liaoning Academy of Agricultural Sciences
S6	辽糯11 Liaonuo 11	辽宁省农业科学院Liaoning Academy of Agricultural Sciences
S7	辽杂19 Liaoza 19	辽宁省农业科学院Liaoning Academy of Agricultural Sciences
S8	辽杂27 Liaoza 27	辽宁省农业科学院Liaoning Academy of Agricultural Sciences
S9	辽杂36 Liaoza 36	辽宁省农业科学院Liaoning Academy of Agricultural Sciences
S10	辽杂37 Liaoza 37	辽宁省农业科学院Liaoning Academy of Agricultural Sciences
S11	13163A/早21R 13163A/Zao 21R	四川省农业科学院Sichuan Academy of Agricultural Sciences
S12	3401A/早21R 3401A/Zao 21R	四川省农业科学院Sichuan Academy of Agricultural Sciences
S13	吉杂127 Jiza 127	吉林省农业科学院Jilin Academy of Agricultural Sciences
S14	吉杂136 Jiza 136	吉林省农业科学院Jilin Academy of Agricultural Sciences
S15	吉杂137 Jiza 137	吉林省农业科学院Jilin Academy of Agricultural Sciences
S16	吉杂145 Jiza 145	吉林省农业科学院Jilin Academy of Agricultural Sciences
S17	吉杂152 Jiza 152	吉林省农业科学院Jilin Academy of Agricultural Sciences
S18	吉杂305 Jiza 305	吉林省农业科学院Jilin Academy of Agricultural Sciences
S19	通杂108 Tongza 108	通辽市农业科学研究院Tongliao Academy of Agricultural Sciences
S20	通杂137 Tongza 137	通辽市农业科学研究院Tongliao Academy of Agricultural Sciences
S21	407/272	四川省农业科学院Sichuan Academy of Agricultural Sciences
S22	407/M5	四川省农业科学院Sichuan Academy of Agricultural Sciences
S23	锦杂107 Jinza 107	锦州市科学技术研究院Jinzhou Academy of Science and Technology
S24	锦杂109 Jinza 109	锦州市科学技术研究院Jinzhou Academy of Science and Technology
S25	晋中0592 Jinzhong 0592	山西省农业科学院Shanxi Academy of Agricultural Sciences
S26	晋中0742 Jinzhong 0742	山西省农业科学院Shanxi Academy of Agricultural Sciences
S27	晋杂31 Jinza 31	山西省农业科学院Shanxi Academy of Agricultural Sciences
S28	晋杂33 Jinza 33	山西省农业科学院Shanxi Academy of Agricultural Sciences
S29	平试13 Pingshi 13	平凉市农业科学院Pingliang Academy of Agricultural Sciences
S30	赤杂101 Chiza 101	赤峰市农牧科学院Chifeng Academy of Agricultural and Animal Husbandry Sciences

Table 1

Table 2

Comparison of germination indicators of sorghum under different temperatures"

品种 Hybrid	温度 Temperature (℃)	发芽势 Germination potential (%)	发芽率 Germination percent (%)	芽长 Bud length (cm)	根长 Root length (cm)	芽重 Bud FW (mg)	根重 Root FW (mg)
S1	25	78.67±6.11	84.90±4.29	9.90±0.93	13.17±2.38	92.00±7.77	72.17±7.96
	20	73.33±6.11	84.67±2.31	4.92±0.62	12.80±1.65	54.50±10.48	76.17±11.89
	16	33.67±4.51	82.33±6.03	3.35±0.31	6.60±0.88	25.00±3.10	27.50±3.02
	12	0.00±0.00	74.67±12.86	0.32±0.04	1.19±0.17	1.83±0.26	8.17±0.75
S2	25	81.33±2.31	84.67±2.52	10.37±1.51	9.00±1.46	89.67±13.17	25.00±4.94
	20	80.57±3.44	84.33±4.04	6.02±0.90	15.42±2.80	62.50±6.12	64.03±12.69
	16	63.33±3.06	80.00±2.00	2.02±0.16	7.52±0.72	20.60±3.83	63.20±9.45
	12	0.00±0.00	72.00±4.00	0.42±0.04	1.45±0.14	2.50±0.46	11.50±1.52
S3	25	68.00±4.00	89.33±2.31	9.03±0.65	13.60±2.05	75.00±8.29	74.33±14.62
	20	65.33±7.02	88.00±3.46	5.77±0.64	12.52±1.42	57.17±5.91	65.67±9.58
	16	21.33±1.53	87.33±3.06	1.98±0.21	6.85±0.90	22.00±2.90	37.50±5.99
	12	0.00±0.00	84.00±6.93	0.37±0.08	1.40±0.13	2.33±0.29	10.67±1.21
S4	25	60.00±4.00	78.33±6.03	9.47±1.16	6.62±0.66	70.67±8.82	17.17±1.47
	20	58.67±2.31	76.00±5.29	5.18±0.73	10.18±0.83	55.17±4.58	57.67±9.58
	16	37.33±2.31	68.23±3.28	1.86±0.14	4.92±0.68	21.80±4.23	44.80±8.86
	12	0.00±0.00	38.67±5.03	0.40±0.06	1.08±0.12	1.50±0.41	6.50±0.55
S5	25	72.00±4.00	74.00±4.00	11.53±1.20	14.47±1.98	106.17±15.78	64.67±7.17
	20	31.33±1.53	66.67±2.31	4.40±0.46	7.83±1.16	49.50±5.24	40.00±6.63
	16	0.00±0.00	61.33±8.33	2.10±0.29	4.62±0.45	24.00±4.15	26.33±3.27
	12	0.00±0.00	10.67±4.62	0.10±0.01	0.72±0.13	0.48±0.15	3.33±0.52
S6	25	93.33±4.62	94.67±2.31	10.97±0.96	14.80±2.23	102.00±14.64	59.33±11.45
	20	84.00±5.29	93.67±2.08	5.10±0.28	10.58±1.66	64.83±8.47	56.00±4.43
	16	22.67±2.31	93.33±4.62	2.47±0.16	5.67±0.75	28.67±4.18	27.83±4.22
	12	0.00±0.00	81.33±4.62	0.27±0.05	1.27±0.16	2.00±0.52	8.33±1.03
S7	25	86.00±4.00	95.33±1.15	11.80±0.98	9.83±1.05	108.58±14.56	19.17±3.13
	20	81.33±8.33	94.67±1.53	6.68±0.26	11.73±2.10	72.67±10.89	52.50±7.82
	16	80.00±4.00	94.33±3.21	2.28±0.21	6.72±1.12	22.20±2.79	27.40±5.00
	12	0.00±0.00	88.00±4.00	0.63±0.12	2.40±0.42	4.17±0.75	12.00±0.89
S8	25	97.33±2.31	98.67±2.31	11.13±1.41	8.23±1.37	77.50±15.14	21.17±3.37
	20	92.23±5.08	95.67±3.21	5.77±0.71	13.78±1.50	46.50±5.68	55.83±7.65
	16	82.00±3.46	92.67±3.06	1.92±0.07	6.26±0.66	15.20±1.60	31.40±3.72
	12	0.00±0.00	90.67±2.31	0.40±0.06	1.65±0.10	1.17±0.41	7.00±0.89
S9	25	84.43±5.10	93.33±2.31	9.10±0.94	13.65±1.96	99.00±14.76	38.67±4.59
	20	68.90±6.97	93.33±2.31	8.70±1.28	15.02±1.99	75.67±6.98	64.83±5.27
	16	18.67±1.53	92.00±4.00	2.40±0.20	6.35±0.86	32.17±4.92	40.83±6.74
	12	0.00±0.00	90.00±2.00	0.67±0.08	1.93±0.23	7.83±1.33	14.33±2.42
S10	25	73.33±5.03	90.67±2.31	11.45±0.98	13.88±2.72	85.33±10.19	62.67±3.61
	20	53.33±3.06	89.33±2.31	5.72±0.74	11.58±2.17	52.33±6.56	56.17±8.35
	16	33.33±4.16	86.67±4.62	2.65±0.26	6.98±1.05	27.17±4.75	28.83±0.75
	12	0.00±0.00	58.67±8.33	0.17±0.05	1.27±0.23	1.33±0.39	7.00±1.10
S11	25	61.33±6.11	85.33±2.31	8.92±0.77	7.70±1.00	81.83±6.21	33.33±4.32
	20	58.00±6.00	82.67±2.31	5.60±0.49	10.67±1.35	54.50±6.66	61.50±10.56
	16	12.33±1.53	80.00±4.00	2.45±0.19	5.30±0.83	24.67±3.67	30.17±3.60
S11	12	0.00±0.00	78.67±2.31	0.35±0.08	2.05±0.18	1.33±0.34	11.67±1.63
S12	25	84.00±2.43	89.33±2.31	10.13±0.90	14.78±2.05	111.00±18.22	50.00±7.95
	20	61.33±5.13	86.67±2.31	6.98±1.01	9.73±1.41	82.33±8.24	56.00±10.08
	16	27.33±2.31	84.00±4.00	2.10±0.26	5.67±0.81	27.33±4.13	36.00±5.73
	12	0.00±0.00	81.33±2.31	0.68±0.10	2.10±0.22	6.17±1.17	13.33±2.07
S13	25	87.33±5.03	89.33±3.06	8.97±1.34	13.22±2.28	78.17±13.47	44.50±6.09
	20	78.00±5.29	84.67±3.06	5.87±0.48	11.52±2.09	59.33±9.93	66.67±3.33
	16	5.33±0.58	82.67±2.31	2.03±0.24	5.20±0.89	24.50±4.32	38.67±3.39
	12	0.00±0.00	52.00±4.00	0.10±0.00	1.02±0.19	0.55±0.26	6.50±1.05
S14	25	82.00±4.00	93.33±2.31	11.22±1.39	14.00±1.52	112.17±16.86	56.67±9.27
	20	73.33±6.11	90.67±2.31	6.18±0.39	10.88±1.19	76.33±9.97	60.17±11.32
	16	46.00±4.00	80.00±3.46	2.17±0.19	6.60±0.54	25.00±2.53	33.17±3.06
	12	0.00±0.00	62.00±2.00	0.38±0.12	1.97±0.27	3.17±0.88	11.33±2.16
S15	25	90.67+2.31	93.33±2.31	9.37±0.81	14.48±1.23	76.67±4.59	52.83±6.91
	20	89.33+2.31	90.67±2.31	5.83±0.66	13.25±1.46	58.33±10.13	64.67±8.36
	16	16.00±1.00	90.67±6.11	2.13±0.15	6.68±1.02	25.33±4.72	33.67±5.65
	12	0.00±0.00	70.67±4.62	0.27±0.08	1.17±0.20	2.17±0.75	7.17±0.75
S16	25	74.67±8.32	89.33±2.31	9.33±1.05	14.80±2.21	88.44±6.62	51.44±9.39
	20	72.00±9.17	81.33±6.11	5.25±0.33	14.20±2.62	52.17±5.56	67.67±6.53
	16	42.67±5.03	80.67±7.57	1.68±0.12	8.93±1.28	17.67±1.86	47.33±7.97
	12	0.00±0.00	56.00±4.00	0.45±0.10	2.10±0.25	2.50±0.49	12.17±0.75
S17	25	78.67±6.11	86.67±2.31	12.42±0.69	9.92±1.21	101.67±12.86	27.33±4.03
	20	73.23±5.85	82.67±4.38	7.22±0.63	14.75±1.88	72.50±11.13	75.5±12.63
	16	58.90±3.44	78.67±2.31	2.14±0.34	5.96±0.79	21.40±4.03	54.40±8.45
	12	0.00±0.00	58.00±6.00	0.50±0.13	1.43±0.16	3.33±1.03	9.00±1.55
S18	25	78.67±8.33	89.33±2.31	11.83±1.11	13.78±2.15	108.67±12.14	62.50±9.46
	20	62.67±6.11	88.00±4.00	5.53±0.38	9.50±1.37	62.00±7.01	56.50±9.73
	16	14.67±1.53	81.33±6.11	2.38±0.36	6.55±0.27	32.17±6.21	36.33±5.20
	12	0.00±0.00	68.00±6.93	0.43±0.05	1.55±0.19	2.83±0.75	9.50±1.87
S19	25	63.33±5.03	85.33±4.62	8.28±0.54	12.95±2.42	74.67±11.52	50.33±5.09
	20	56.00±8.00	72.67±5.03	7.50±0.93	15.45±2.27	77.17±12.91	67.67±8.94
	16	17.33±1.53	66.00±5.29	2.07±0.26	6.60±1.25	21.00±3.03	31.50±6.09
	12	0.00±0.00	62.00±6.00	0.25±0.05	1.53±0.12	1.83±0.68	7.33±1.03
S20	25	86.67±6.65	88.00±8.00	9.28±1.25	15.87±2.83	98.33±7.60	32.67±1.32
	20	66.00±7.21	80.00±4.00	6.40±0.92	15.38±2.63	78.00±7.62	82.00±10.71
	16	40.00±5.29	77.33±3.06	1.97±0.14	6.95±1.09	24.00±2.28	35.33±4.13
	12	0.00±0.00	74.00±2.00	0.40±0.06	2.37±0.35	3.83±1.03	15.50±1.87
S21	25	86.67±6.11	94.67±2.31	9.27±1.04	7.70±1.04	87.28±9.61	27.33±4.63
	20	80.80±3.73	93.33±4.62	5.98±0.67	12.83±1.96	58.00±11.24	60.65±7.38
	16	72.67±5.03	90.67±6.11	2.50±0.28	7.12±0.44	26.20±3.19	56.47±5.18
	12	0.00±0.00	89.33±2.31	0.30±0.06	1.32±0.12	2.33±0.45	6.50±1.05
S22	25	54.67±8.08	69.33±4.62	11.02±1.43	14.17±2.24	102.00±18.19	100.67±16.85
	20	36.67±3.06	66.67±6.11	6.20±0.46	10.97±1.65	67.33±7.00	68.83±6.52
	16	8.00±1.00	65.33±2.31	1.57±0.20	4.58±0.52	16.17±1.83	27.67±2.07
S22	12	0.00±0.00	61.33±8.33	0.23±0.05	1.52±0.16	1.17±0.27	9.00±0.63
S23	25	91.33±4.16	96.67±1.15	9.95±1.34	15.23±2.92	73.00±10.77	46.33±6.92
	20	90.67±4.62	96.00±4.00	5.40±0.25	12.43±1.26	45.83±3.82	58.17±4.88
	16	13.33±1.53	94.67±2.31	2.48±0.44	6.85±1.07	40.67±6.19	33.83±6.18
	12	0.00±0.00	52.00±8.00	0.22±0.04	0.95±0.15	3.67±0.82	5.50±0.55
S24	25	76.67±5.03	85.33±2.31	9.83±1.14	8.75±1.49	79.50±12.60	40.50±7.69
	20	66.67±6.11	81.33±5.77	5.68±0.62	7.72±1.26	54.50±7.37	40.67±7.34
	16	16.00±1.73	77.33±8.33	2.05±0.21	5.67±0.48	25.83±2.48	24.33±4.68
	12	0.00±0.00	54.00±2.00	0.23±0.05	1.13±0.22	1.17±0.41	7.50±1.05
S25	25	68.33±2.52	89.33±2.31	10.90±0.51	16.05±2.61	89.67±7.55	84.67±9.14
	20	64.00±6.00	89.33±6.11	6.22±0.58	14.17±1.87	64.50±6.44	98.50±18.25
	16	60.00±3.46	86.67±6.11	2.68±0.19	7.68±0.61	33.00±2.53	46.17±5.81
	12	0.00±0.00	57.33±4.62	0.15±0.05	1.25±0.08	1.58±0.49	8.83±1.17
S26	25	89.33±8.33	92.00±4.00	9.35±1.13	16.28±3.11	74.67±11.2	67.33±11.93
	20	65.33±6.43	90.67±6.11	4.85±0.71	10.35±1.23	48.00±9.23	59.00±5.59
	16	36.00±1.73	89.33±2.31	2.62±0.30	6.18±0.73	27.00±3.41	32.33±6.02
	12	0.00±0.00	77.33±8.33	0.13±0.05	0.95±0.08	0.67±0.22	6.83±0.75
S27	25	90.67±2.31	93.33±2.31	8.30±1.08	15.13±2.06	95.17±11.34	51.00±9.84
	20	89.33±2.31	89.33±6.11	7.35±1.08	16.13±2.32	98.50±7.92	78.17±8.66
	16	62.00±6.00	88.67±3.06	2.27±0.20	8.07±0.79	28.67±3.93	46.00±7.40
	12	0.00±0.00	38.00±2.00	0.55±0.05	2.28±0.29	3.50±0.84	12.17±1.47
S28	25	84.00±10.58	88.00±6.93	11.87±1.37	16.00±1.11	94.83±15.46	61.33±4.72
	20	60.67±6.11	86.67±6.11	6.20±0.87	12.07±2.01	68.67±10.78	67.67±11.31
	16	36.00±2.00	85.33±6.11	2.63±0.30	6.83±1.04	30.83±5.12	35.50±6.12
	12	0.00±0.00	78.67±2.31	0.38±0.10	1.93±0.34	2.83±0.71	11.00±1.67
S29	25	82.67±4.16	88.00±4.00	10.73±1.54	8.62±1.40	80.83±10.32	32.67±4.80
	20	80.57±3.44	84.00±6.93	5.15±0.34	10.85±1.03	39.33±4.89	47.83±7.47
	16	73.33±2.31	82.67±4.62	1.76±0.14	6.44±0.83	15.20±2.48	35.20±3.19
	12	0.00±0.00	66.67±6.11	0.25±0.05	1.65±0.27	1.33±0.41	8.33±1.03
S30	25	83.33±7.02	86.67±6.11	9.40±0.73	9.62±1.06	93.00±8.10	20.67±3.78
	20	78.30±5.00	85.33±8.33	6.25±0.86	16.78±2.67	69.17±8.06	86.17±16.46
	16	70.00±8.00	84.00±4.00	2.16±0.24	7.94±1.04	23.00±3.90	45.20±7.08
	12	0.00±0.00	56.00±4.00	0.57±0.08	1.93±0.37	5.67±1.21	14.33±1.63
品种 Hybrid(H)	F-value	42.97	42.84	7.28	16.59	16.3	24.31
品种 Hybrid(H)	P-value	**	**	**	**	**	**
处理Treatment(T)	F value	3919.17	397.94	7772.28	2495.72	4756.06	2039.14
处理Treatment(T)	P-value	**	**	**	**	**	**
H×T	F value	17.42	7.62	8.09	10.44	7.08	21.35
H×T	P-value	**	**	**	**	**	**
变异系数CV (%)		74.29	17.34	82.17	60.62	78.02	59.88

Table 2

Table 3

Table 4

Relative value of all traits in different sorghum hybrids (%)"

品种 Hybrid	X₁	X₂	X₃	X₄	X₅	X₆
S1	31.21±4.75 gh	92.95±5.53 ac	22.01±1.03 ce	39.40±3.01 fi	20.91±2.07 kn	37.66±1.90 no
S2	44.30±1.43 ad	90.86±1.26 ad	19.26±1.07 fj	67.62±3.94 a	21.97±1.09 ik	155.08±9.07 b
S3	28.01±6.37 hk	96.05±2.89 a	21.04±1.02 cf	39.17±4.17 gi	25.39±0.82 dg	40.46±3.09 mn
S4	38.89±0.93 df	70.77±1.03 ij	18.76±1.07 gk	61.19±2.16 bc	25.75±0.58 df	166.71±16.62 b
S5	8.02±1.12 o	51.71±4.40 k	13.56±0.22 m	23.08±0.79 m	16.41±0.45 o	27.46±1.81 o
S6	24.75±2.18 il	92.52±2.05 ac	17.31±0.55 jl	30.19±1.25 kl	22.10±0.64 hk	40.37±3.71 mn
S7	48.49±1.16 a	95.80±2.53 a	19.53±0.69 fi	56.33±4.38 cd	21.05±0.58 kn	128.91±4.45 c
S8	45.63±1.70 ac	93.50±0.82 ac	17.14±0.90 kl	66.63±4.64 ab	18.68±2.28 mo	115.11±9.18 de
S9	22.42±1.76 kn	97.80±1.26 a	30.00±1.66 a	43.07±1.58 eg	29.08±3.20 bc	84.01±2.02 f
S10	28.68±1.97 hj	81.23±5.42 eh	17.63±0.73 il	36.84±3.05 hj	22.66±1.11 gk	37.25±1.64 no
S11	23.71±4.95 jm	93.58±2.40 ac	22.67±0.42 c	61.45±2.31 bc	23.08±1.55 fk	81.16±4.36 fg
S12	24.28±4.70 il	93.14±1.23 ac	22.84±1.23 c	31.90±1.65 jl	24.77±1.52 di	57.60±2.66 ik
S13	18.55±0.78 mn	76.40±0.97 hi	20.35±1.17 eh	32.95±1.63 jl	24.85±1.39 dh	64.16±4.33 hj
S14	35.22±1.28 fg	78.54±1.01 fh	18.38±1.02 hk	36.93±1.65 hj	21.47±1.09 km	48.95±1.77 kn
S15	24.11±1.45 im	86.79±2.79 ce	20.49±1.20 dg	36.09±1.70 hj	26.34±3.33 ce	50.41±1.61 km
S16	36.88±0.51 ef	77.09±4.68 hi	18.81±0.72 gk	44.74±1.13 ef	18.90±0.70 lo	67.06±4.82 hi
S17	42.23±0.79 be	80.10±3.23 eh	18.39±1.21 gk	54.58±3.14 d	21.70±1.17 jl	133.62±13.08 c
S18	20.87±2.42 ln	85.17±4.50 dg	17.14±0.80 kl	34.40±3.22 hk	21.64±1.38 jl	43.52±2.78 ln
S19	25.32±3.55 il	76.47±3.18 hi	26.48±2.07 b	45.02±2.72 e	29.70±1.69 b	52.56±3.38 jl
S20	29.43±1.50 hi	86.91±4.83 be	22.03±1.90 ce	39.86±2.25 eh	24.66±0.93 di	105.15±9.62 e
S21	45.24±0.81 ac	95.60±2.08 a	22.51±0.97 cd	70.31±5.17 a	23.49±1.43 ek	122.58±9.24 cd
S22	17.35±1.15 n	91.74±3.24 ad	16.25±0.73 l	30.43±1.28 kl	18.30±1.88 no	26.45±2.51 o
S23	23.19±2.03 jm	76.91±4.72 hi	19.48±0.88 fi	33.61±3.57 jk	32.70±1.20 a	53.46±1.37 jl
S24	22.95±2.69 kn	78.29±3.76 gh	18.84±1.09 gk	44.66±4.60 eg	24.42±1.94 dj	47.66±2.84 kn
S25	47.03±2.22 ab	81.72±4.59 eh	19.41±1.12 fj	36.47±3.29 hj	26.44±1.21 cd	44.58±2.38 ln
S26	26.94±1.76 hk	91.03±2.44 ad	19.60±0.82 fi	27.61±2.67 lm	24.39±1.28 dj	37.45±2.57 no
S27	41.02±1.86 ce	68.97±1.86 j	28.75±1.22 a	44.89±1.61 ef	31.04±1.15 ab	70.68±5.12 gh
S28	27.6±1.99 hk	93.78±4.45 ab	18.61±1.25 gk	33.86±3.30 ik	25.69±1.49 df	48.11±4.41 kn
S29	47.65±1.22 ab	85.40±2.34 df	15.62±1.33 lm	57.83±3.06 cd	16.06±0.85 o	75.70±3.67 fh
S30	45.37±0.57 ac	81.67±0.63 eh	22.81±1.40 c	69.31±3.67 a	24.85±1.47 dh	184.80±13.69 a
平均值 Mean	31.51	84.75	20.19	44.35	23.62	74.96
变异范围 Range	8.02-48.49	51.71-97.80	13.56-30.00	23.08-70.31	16.06-32.70	26.45-184.80
变异系数 CV (%)	34.40	12.07	17.77	30.75	16.77	58.36

Table 4

Table 5

Supplementary table 1

Supplementary table 2

Supplementary table 3

Supplementary table 4

Table 6

References 34

[1]	Huang R D . Research progress on plant tolerance to soil salinity and alkalinity in sorghum. J Integr Agric, 2018,17:739-746.
[2]	Tiryaki I, Andrews D J . Germination and seedling cold tolerance in sorghum: II. Parental lines and hybrids. Agron J, 2001,93:1391-1397. doi: 10.2134/agronj2001.1391
[3]	Peacock J M. Response and tolerance of sorghum to temperature stress. In: House L R, Mughogho L K, Peacock J M, eds. Sorghum in the Eighties Proceedings of the International Symposium on Sorghum. Patancheru, India: International Crops Research Institute for the Semi-Arid Tropics. 1982. pp 143-159.
[4]	Yu J, Tuinstra M R . Genetic analysis of seedling growth under cold temperature stress in grain sorghum. Crop Sci, 2001,41:1438-1443.
[5]	Bekele W A, Fiedler K, Shiringani A, Schnaubelt D, Windpassinger S, Uptmoor R, Friedt W, Snowdon R J . Unravelling the genetic complexity of sorghum seedling development under low-temperature conditions. Plant Cell Environ, 2014,37:707-723.
[6]	Ma Z, Bykova N V, Igamberdiev A U . Cell signaling mechanisms and metabolic regulation of germination and dormancy in barley seeds. Crop J, 2017,5:459-477.
[7]	Aoki N, Scofield G N, Wang X D, Offler H E, Patrick J W, Furbank R T . Pathway of sugar transport in germinating wheat seeds. Plant Physiol, 2006,141:1255-1263. doi: 10.1104/pp.106.082719
[8]	Hong Y F, Ho T H D, Wu C F, Ho S L, Yeh R H, Lu C A, Chen P W, Yu L C, Chao A, Yu A M . Convergent starvation signals and hormone crosstalk in regulating nutrient mobilization upon germination in cereals. Plant Cell, 2012,24:2857-2873. doi: 10.1105/tpc.112.097741
[9]	Ma Z, Marsolais F, Bernards M A, Sumarahb M W, Bykovad N V, Lgamberdiev A U . Glyoxylate cycle and metabolism of organic acids in the scutellum of barley seeds during germination. Plant Sci, 2016,248:37-44. doi: 10.1016/j.plantsci.2016.04.007
[10]	鲜孟筑, 杨萍, 胡立勇, 徐正华 . 油菜种子萌发成苗期耐低温性评价. 作物杂志, 2015, ( 5):116-122.
	Xian M Z, Yang P, Hu L Y, Xu Z H . Comprehensive evaluation of low temperature tolerance in rapeseed during germination and emergence periods. Crops, 2015, ( 5):116-122 (in Chinese with English abstract).
[11]	Thompson K, Grime J P, Mason G . Seed germination in response to diurnal fluctuations of temperature. Nature, 1977,267:147-149.
[12]	Upadhyaya H D, Wang Y H, Sastry D V S S R, Dwivedi S L, Prasad P V V, Burrell A M, Klein R R, Morris G P, Klein P E . Association mapping of germinability and seedling vigor in sorghum under controlled low-temperature conditions. Genome, 2016,59:137-145.
[13]	Franks C D, Burow G B, Burke J J . A comparison of us and Chinese sorghum germplasm for early season cold tolerance. Crop Sci, 2006,46:1371-1376.
[14]	张丽霞, 张明政, 张灵敏, 霍岩, 王春语, 丛玲 . 高粱种子萌发期耐低温材料的筛选与鉴定. 西南农业学报, 2017,30:20-25.
	Zhang L X, Zhang M Z, Zhang L M, Huo Y, Wang C Y, Cong L . Screening and identification of low-temperature resistant materials at seed stage. Southwest China J Agric Sci, 2017,30:20-25 (in Chinese with English abstract).
[15]	张海燕, 史红梅, 杨彬, 周忠宇, 张桂香 . 高粱种子耐冷材料筛选鉴定与利用评价. 种子, 2016,35(3):65-67.
	Zhang H Y, Shi H M, Yang B, Zhou Z Y, Zhang G X . Utilization evaluation and screening identification on the chilling tolerance materials of sorghum seeds. Seed, 2016,35(3):65-67 (in Chinese with English abstract).
[16]	朱晨曦, 马艳青, 杨博智, 张竹青 . 不同辣椒品种种子萌发期耐低温性的研究. 中国蔬菜, 2015, ( 8):34-38.
	Zhu C X, Ma Y Q, Yang B Z, Zhang Z Q . Studies on low temperature tolerance of different pepper varieties in seed germination stage. Chin Veg, 2015, ( 8):34-38 (in Chinese with English abstract).
[17]	王俊娟, 王德龙, 阴祖军, 王帅, 樊伟丽, 陆许可, 穆敏, 郭丽雪, 叶武威, 喻树迅 . 陆地棉萌发至幼苗期抗冷性的鉴定. 中国农业科学, 2016,49:3332-3346. doi: 10.3864/j.issn.0578-1752.2016.17.008
	Wang J J, Wang D L, Yin Z J, Wang S, Fan W L, Lu X K, Mu M, Guo L X, Ye W W, Yu S X . Identification of the chilling resistance from germination stage to seedling stage in upland cotton. Sci Agric Sin, 2016,49:3332-3346 (in Chinese with English abstract). doi: 10.3864/j.issn.0578-1752.2016.17.008
[18]	张雪峰, 张立军, 胡滨 . 玉米萌发期种子耐低温鉴定指标的筛选. 辽宁农业科学, 2011, ( 1):25-30.
	Zhang X F, Zhang L J, Hu B . Effects of chilling stress on chill-resistance physiological indexes of maize germinating seeds. Liaoning Agric Sci, 2011, ( 1):25-30 (in Chinese with English abstract).
[19]	高利英, 邓永胜, 韩宗福, 孔凡金, 申贵芳, 李汝忠, 尹燕枰 . 黄淮棉区棉花品种种子萌发期低温耐受性评价. 棉花学报, 2018,30:36-44.
	Gao L Y, Deng Y S, Han Z F, Kong F J, Shen G F, Li R Z, Yin Y P . Evaluation of the low-temperature tolerance of cotton varieties in the Huang-Huai region during seed germination. Cotton Sci, 2018,30:36-44 (in Chinese with English abstract).
[20]	Lu Q S, Dahlberg J A . Chinese sorghum genetic resources. Econ Bot, 2001,55:401-425. doi: 10.1007/BF02866563
[21]	高士杰, 陈冰嬬, 李继洪, 贾俊英, 侯玉波 . 中国高粱春播早熟区雄性不育系存在的问题探讨. 吉林农业科学, 2012,37(5):9-11.
	Gao S J, Chen B X, Li J H, Jia J Y, Hou Y B . Discussions on problems in male sterile line of sorghum in spring seeding early-maturing region in China. J Jilin Agric Sci, 2012,37(5):9-11 (in Chinese with English abstract).
[22]	Balota M, Payne W A, Veergoni S K, Stewrt B A, Rosenow D T . Respiration and its relationship to germination, emergence, and early growth under cool temperatures in sorghum. Crop Sci, 2010,50:1414-1422.
[23]	常博文, 钟鹏, 刘杰, 唐中华, 高亚冰, 于洪久, 郭炜 . 低温胁迫和赤霉素对花生种子萌发和幼苗生理响应的影响. 作物学报, 2019,45:122-134.
	Chang B W, Zhong P, Liu J, Tang Z H, Gao Y B, Yu H J, Guo W . Effect of low-temperature stress and gibberellin on seed germination and seedling physiological responses in peanut. Acta Agron Sin, 2019, 45:122-134 (in Chinese with English abstract).
[24]	张海艳 . 低温对鲜食玉米种子萌发及幼苗生长的影响. 植物生理学报, 2013,49:347-350.
	Zhang H Y . Effects of low temperature on seed germination and seedling growth of fresh corn. Acta Phytophysiol Sin, 2013,49:347-350 (in Chinese with English abstract).
[25]	江玲, 侯名语, 刘世家, 陈亮明, 刘喜, 翟虎渠, 万建民 . 水稻种子低温萌发生理机制的初步研究. 中国农业科学, 2005,38:480-485.
	Jiang L, Hou M Y, Liu S J, Chen L M, Liu X, Zhai H Q, Wan J M . Physiological mechanism of seed germination ( Oryza sativa L.) under low temperature. Sci Agric Sin, 2005,38:480-485 (in Chinese with English abstract).
[26]	Masondo N A, Kulkarni M G, Finnie J F, Staden J V . Influence of biostimulants-seed-priming on, Ceratotheca triloba, germination and seedling growth under low temperatures, low osmotic potential and salinity stress. Ecotox Environ Safe, 2018,147:43-48.
[27]	Sergio M C, Dante R T, Diodoro G S, Violeta C, Leopoldo M C, Hubert T . Phenotype, seed size and temperature affect the germinative capacity of Agave cupreata. Seed Sci Technol, 2017,45:1-6. doi: 10.15258/sst.2017.45.1.05
[28]	耿广东, 程智慧, 张素勤 . 低温发芽鉴定茄子耐冷性的研究. 种子, 2006,25(6):43-46.
	Geng G D, Cheng Z H, Zhang S Q . Appraisal of eggplant chilling-resistant by low temperature germination. Seed, 2006,25(6):43-46 (in Chinese with English abstract).
[29]	王钰静, 谢磊, 李志博, 魏亦农, 林海荣 . 低温胁迫对北疆棉花种子萌发的影响及其耐冷性差异评价. 种子, 2014,33(5):74-77.
	Wang Y J, Xie L, Li Z B, Wei Y N, Lin H R . Effects of low temperature stress to germination of cotton seeds and evaluation of their cold resistance in northern Xinjiang. Seed, 2014,33(5):74-77 (in Chinese with English abstract).
[30]	徐建伟, 张晨, 曾晓燕, 张小均, 李志博, 魏亦农 . 近十年新疆北疆主栽棉花种子低温萌发能力差异评价. 新疆农业科学, 2017,54:1569-1578.
	Xu J W, Zhang C, Zeng X Y, Zhang X J, Li Z B, Wei Y N . Evaluation of seed germination of main-cultivated cotton under low temperature in northern Xinjiang in recent ten years. Xinjiang Agric Sci, 2017,54:1569-1578 (in Chinese with English abstract).
[31]	王艺陶, 周宇飞, 李丰先, 依兵, 白薇, 闫彤, 许文娟, 高明超, 黄瑞冬 . 基于主成分和SOM聚类分析的高粱品种萌发期抗旱性鉴定与分类. 作物学报, 2014,40:110-121. doi: 10.3724/SP.J.1006.2014.00110
	Wang Y T, Zhou Y F, Li F X, Yi B, Bai W, Yan T, Xu W J, Gao M C, Huang R D . Identification and classification of Sorghum cultivars for drought resistance during germination stage based on principal components analysis and self organizing map cluster analysis. Acta Agron Sin, 2014,40:110-121 (in Chinese with English abstract). doi: 10.3724/SP.J.1006.2014.00110
[32]	龙卫华, 浦惠明, 张洁夫, 戚存扣, 张学昆 . 甘蓝型油菜发芽期的耐盐性筛选. 中国油料作物学报, 2013,35:271-275.
	Long W H, Pu H M, Zhang J F, Qi C K, Zhang X K . Screening of Brassica napus for salinity tolerance at germination stage. Chin J Oil Crop Sci, 2013,35:271-275 (in Chinese with English abstract).
[33]	Tiryaki I, Andrews D J . Germination and seedling cold tolerance in sorghum: I. Evaluation of rapid screening methods. Agron J, 2001,93:1386-1391.
[34]	Yu J, Tuinstra M R, Claassen M M, Gordon W B, Witt M D . Analysis of cold tolerance in sorghum under controlled environment conditions. Field Crops Res, 2004,85:21-30.

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性状 Trait	25℃	20℃	16℃	12℃
发芽势 Germination potential (%)	79.64±11.73 a	69.73±15.26 b	37.32±24.57 c	0.00±0.00 d
发芽率 Germination percent (%)	88.55±6.92 a	85.63±8.38 b	82.85±9.34 c	66.07±18.19 d
芽长 Bud length (cm)	10.17±1.15 a	6.00±0.90 b	2.23±0.36 c	0.35±0.16 d
根长 Root length (cm)	12.54±3.01 a	12.38±2.39 a	6.48±1.01 b	1.55±0.46 c
芽重 Bud FW (mg)	90.25±12.66 a	62.58±12.88 b	24.95±5.56 c	2.56±1.70 d
根重 Root FW (mg)	48.28±20.66 b	63.76±12.48 a	37.16±9.57 c	9.41±2.96 d
根芽比(长度) Root/bud (length)	1.01±0.32 d	1.91±0.33 c	2.62±0.83 b	5.01±1.79 a
根芽比(鲜重) Root/bud (FW)	0.54±0.23 c	1.04±0.21 bc	1.57±0.56 b	4.80±2.41 a

主成分 Principal component	特征值 Eigen value	贡献率 Contribution (%)	累计贡献率 Cumulative contribution (%)
I	2.59	43.23	43.23
II	1.71	28.56	71.79
III	0.97	16.21	87.99

萌发指标 Germination traits	主成分I Principal I	主成分II Principal II	主成分III Principal III
X₁	0.854	-0.166	-0.025
X₂	0.307	0.136	0.935
X₃	0.272	0.897	0.030
X₄	0.943	-0.112	-0.062
X₅	0.010	0.921	-0.193
X₆	0.899	-0.053	-0.237

萌发指标 Germination traits	主成分I Principal I	主成分II Principal II	主成分III Principal III
X₁	0.329	-0.097	-0.026
X₂	0.118	0.079	0.961
X₃	0.105	0.523	0.031
X₄	0.363	-0.065	-0.064
X₅	0.004	0.538	-0.198
X₆	0.346	-0.031	-0.244

编号 Serial number	Y₁	Y₂	Y₃	Y	排序 Order
S1	0.510	0.234	0.734	0.461	16
S2	1.058	0.156	0.403	0.644	2
S3	0.512	0.257	0.748	0.473	14
S4	1.033	0.164	0.179	0.593	6
S5	0.282	0.169	0.385	0.264	30
S6	0.460	0.226	0.727	0.433	22
S7	0.946	0.168	0.522	0.615	4
S8	0.921	0.141	0.532	0.596	5
S9	0.670	0.315	0.653	0.551	8
S10	0.473	0.215	0.619	0.416	28
S11	0.718	0.229	0.617	0.540	9
S12	0.531	0.264	0.686	0.473	13
S13	0.516	0.241	0.509	0.425	26
S14	0.533	0.200	0.566	0.431	23
S15	0.511	0.255	0.636	0.451	20
S16	0.628	0.175	0.508	0.459	18
S17	0.915	0.158	0.361	0.567	7
S18	0.464	0.217	0.647	0.418	27
S19	0.549	0.289	0.521	0.459	17
S20	0.733	0.230	0.504	0.527	10
S21	0.967	0.192	0.524	0.634	3
S22	0.386	0.211	0.762	0.398	29
S23	0.497	0.278	0.523	0.430	24
S24	0.516	0.226	0.559	0.430	25
S25	0.560	0.225	0.595	0.458	19
S26	0.448	0.250	0.717	0.433	21
S27	0.656	0.281	0.399	0.487	12
S28	0.512	0.246	0.710	0.462	15
S29	0.747	0.128	0.560	0.512	11
S30	1.163	0.171	0.236	0.670	1

Responses of sorghum hybrids to germination temperatures and identification of low temperature resistance

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萌发指标 Germination traits	X₁	X₂	X₃	X₄	X₅	X₆
X₁	1
X₂	0.20	1
X₃	0.06	0.20	1
X₄	0.74^**	0.21	0.17	1
X₅	-0.09	-0.02	0.71^**	-0.10	1
X₆	0.66^**	0.08	0.17	0.85^**	0.01	1

温度敏感类别 Type of temperature-sensitivity	品种 Hybrid
高度低温敏感Highly cold-sensitive	S5
低温敏感Cold-sensitive	S1, S3, S6, S10, S12, S13, S14, S15, S16, S18, S19, S22, S23, S24, S25, S26, S27, S28
低温不敏感Cold-tolerance	S9, S11, S17, S19, S20
低温极不敏感Highly cold-tolerance	S2, S4, S7, S8, S21, S30

[1]	WANG Yuan, WANG Jin-Song, DONG Er-Wei, WU Ai-Lian, JIAO Xiao-Yan. Effects of long-term nitrogen fertilization with different levels on sorghum grain yield, nitrogen use characteristics and soil nitrate distribution [J]. Acta Agronomica Sinica, 2021, 47(2): 342-350.
[2]	DONG Er-Wei, WANG Jin-Song, WU Ai-Lian, WANG Yuan, WANG Li-Ge, HAN Xiong, GUO Jun, JIAO Xiao-Yan. Effects of row space and plant density on characteristics of grain filling, starch and NPK accumulation of sorghum grain of different parts of panicle [J]. Acta Agronomica Sinica, 2021, 47(12): 2459-2470.
[3]	Li-Ge BAO,Ping LU,Meng-Sha SHI,Yue XU,Min-Xuan LIU. Screening and identification of Chinese sorghum landraces for salt tolerance at germination and seedling stages [J]. Acta Agronomica Sinica, 2020, 46(5): 734-744.
[4]	Rui WANG,Liang LING,Peng-Jie ZHAN,Ji-Zhen YU,Jian-Qiang CHU,Jun-Ai PING,Fu-Yao ZHANG. Mapping of genes confessing same height of tiller and main stem in sorghum [J]. Acta Agronomica Sinica, 2019, 45(6): 829-838.
[5]	ZHANG Xiao-Xiao,PAN Ying-Hong,REN Fu-Li,PU Wei-Jun,WANG Dao-Ping,LI Yu-Bin,LU Ping,LI Gui-Ying,ZHU Li. Establishment of an accurate evaluation method for drought resistance based on multilevel phenotype analysis in sorghum [J]. Acta Agronomica Sinica, 2019, 45(11): 1735-1745.
[6]	Jing DONG,Xiao-Ping LU,Kun-Ming ZHANG,Chun-Lei XUE,Rui-Xia ZHANG. Analysis of SNP and Allele-specific Expression in Transcriptome of Sorghum bicolor × Sorghum sudanense and Their Parents [J]. Acta Agronomica Sinica, 2018, 44(12): 1809-1817.
[7]	Guang-Long ZHU,Cheng-Yu SONG,Lin-Lin YU,Xu-Bing CHEN,Wen-Fang ZHI,Jia-Wei LIU,Xiu-Rong JIAO,Gui-Sheng ZHOU. Alleviation Effects of Exogenous Growth Regulators on Seed Germination of Sweet Sorghum under Salt Stress and Its Physiological Basis [J]. Acta Agronomica Sinica, 2018, 44(11): 1713-1724.
[8]	Yan-Yan ZHAO, Gang XI. Characteristics of Ultra-weak Photon Emission from Sorghum Seeds during Germination [J]. Acta Agronomica Sinica, 2018, 44(05): 783-789.
[9]	LYU Pin,YU Hai-Feng,YU Zhi-Xian,ZHANG Yong-Hu,ZHANG Yan-Fang,WANG Ting-Ting,HOU Jian-Hua. Construction of High-density Genetic Map and QTL Mapping for Seed Germination Traits in Sunflower under Two Water Conditions [J]. Acta Agron Sin, 2017, 43(01): 19-30.
[10]	WU Qi,ZHOU Yu-Fei,GAO Yue,ZHANG Jiao,CHEN Bing-Ru,XU Wen-Juan,HUANG Rui-Dong. Screening and Identification for Drought Resistance during Germination in Sorghum Cultivars [J]. Acta Agron Sin, 2016, 42(08): 1233-1246.
[11]	HAN Ping-An,LU Xiao-Ping,MI Fu-Gui,ZHANG Rui-Xia,LI Mei-Na,XUE Chun-Lei,DONG Jing,CONG Meng-Lu. Analysis of Heterosis in Sorghum-Sudangrass Hybrids Seedlings Based on Proteomics [J]. Acta Agron Sin, 2016, 42(05): 696-705.
[12]	TANG Chao-Chen,LUO Feng,LI Xin-Yu,PEI Zhong-You,GAO Jian-Ming,SUN Shou-Jun*. Responsiveness of Sweet Sorghum in Yield and Quality Related Traits to Environmental Factors [J]. Acta Agron Sin, 2015, 41(10): 1612-1618.
[13]	WANG Jin-Song,JIAO Xiao-Yan,DING Yu-Chuan,DONG Er-Wei,BAI Wei-Bin,WANG Li-Ge,WU Ai-Lian. Response of Nutrient Uptake, Yield and Quality to Nutrition of Nitrogen, Phosphorus and Potassium in Grain Sorghum [J]. Acta Agron Sin, 2015, 41(08): 1269-1278.
[14]	WANG Rui,ZHANG Fu-Yao,CHENG Qing-Jun,TIAN Cheng-Hua,LING Liang. Establishment of 20 Sorghum Hybrids Fingerprints Using SSR Fluorescent Marker [J]. Acta Agron Sin, 2015, 41(04): 658-665.
[15]	MA Qiang,DUN Bao-Qing,XI Ya-Jun,WANG Zhi,CHEN Chao-Ru,LU Ming,LI Gui-Ying. Effects of Alkali Treatment on Component and Structure and Enzyme Saccharifying Efficiency of Sweet Sorghum Bagasse [J]. Acta Agron Sin, 2014, 40(09): 1604-1611.