Crops ›› 2025, Vol. 41 ›› Issue (1): 111-116.doi: 10.16035/j.issn.1001-7283.2025.01.013

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Adaptability Analysis of Non-Transgenic Herbicide-Resistant Hybrid Rapeseed Lines from Lower Reaches of the Yangtze River in Ili River Valley, Xinjiang

Long Weihua1,2(), Xian Zhihui2, Zhang Zheng3(), Alibieligen·Hazitai 3, Zulehumaer·Wusimanjiang 3, Pu Huiming2, Hu Maolong2   

  1. 1College of Rural Revitalization, Jiangsu Open University, Nanjing 210036, Jiangsu, China
    2Institute of Industrial Crops, Jiangsu Academy of Agricultural Sciences, Nanjing 210014, Jiangsu, China
    3Yili Institute of Agricultural Sciences, Yining 835000, Xinjiang, China
  • Received:2023-12-20 Revised:2024-03-23 Online:2025-02-15 Published:2025-02-12

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Abstract:

One significant barrier to the rise in spring rape production is the competition from field weeds. To increase the weed control effect of spring rapeseed in Yili, Xinjiang, this study introduced nine non-transgenic herbicide-resistant hybrid rapeseed lines from the lower reaches of the Yangtze River in order to screen high-yield and resistant varieties suitable for planting in Yili Valley by planting adaptability experiments. The impact of applying herbicide-resistant lines on weed control in farmland was investigated. The results showed that the growth periods of the introduced resistant lines were similar to that of the CK (the locally recommended variety), with a latest delay of only two days compared to the CK. The branch height in the maturity stage of the introduced lines reached 64.0-90.4 cm, higher than the CK. The values of lines such as the number of pods, seed number per pod, and 1000-grain weight fluctuated up and down compared to the CK. The yield of DP2 reached 3368.70 kg/ha, significantly higher than that of CK, while the yield of DP4 remained the same as CK. The experiment of spraying herbicides during the seedling stage showed that the application of corresponding herbicides had an average control effect of 82.54% on broad-leaved weeds in the field, while spraying herbicides had no significant effect on the growth of introduced lines during the seedling stage. This study demonstrates that using “resistant rapeseed lines+spraying corresponding herbicides” is an effective strategy for controlling weeds in the spring rapeseed area of Ili, at the same time, high-yield resistant rapeseed line DP2 adapted to the climate of the Ili River Valley were selected.

Key words: Ili River Valley, Non-transgenic herbicide-resistant hybrid rapeseed, Weeds, Adaptability analysis, Herbicides, Yield

Table 1

Parental sources of nine hybrid combinations"

品系
Line		 杂交组合(母本×父本)
Hybrid (maternal×paternal)
DP1 D26×M75
DP2 D26×M110
DP3 D26×L356
DP4 D50×M75
DP5 D50×M110
DP6 D50×L356
DP7 D218×M75
DP8 D218×M110
DP9 D218×L356

Table 2

"

品种(系)
Variety
(line)		 播种期
Sowing
stage		 出苗期
Seedling
stage		 抽薹期
Bolting
stage		 初花期
Early flowering
stage		 终花期
Final flowering
stage		 成熟期
Maturity
stage		 收获期
Harvesting
stage		 生育期天数
Growth
days(d)
DP1 04-30 05-10 06-26 07-18 08-08 09-14 10-05 127.5
DP2 04-30 05-10 06-28 07-23 08-11 09-15 10-05 128.5
DP3 04-30 05-10 06-28 07-24 08-13 09-14 10-05 127.0
DP4 04-30 05-10 06-29 07-23 08-12 09-15 10-05 128.5
DP5 04-30 05-10 06-27 07-19 08-10 09-07 10-05 120.0
DP6 04-30 05-10 06-26 07-18 08-08 09-16 10-05 129.0
DP7 04-30 05-10 06-26 07-18 08-08 09-13 10-05 126.5
DP8 04-30 05-10 06-26 07-18 08-09 09-15 10-05 128.0
DP9 04-30 05-10 06-29 07-21 08-12 09-11 10-05 124.5
CK 04-30 05-10 06-23 07-16 08-07 09-14 10-05 127.5

Table 3

Weed control effectiveness and seedling indicators of the varieties (lines)"

品种(系)
Variety
(line)		 阔叶杂草防效
Control effect of broad-
leaved weeds (%)		 苗高
Seedling height (cm)		 绿叶数
Number of green leaves		 地上部干重
Dry weight of aboveground (g)
未喷
No spraying		 喷施
Spraying		 未喷
No spraying		 喷施
Spraying		 未喷
No spraying		 喷施
Spraying
DP1 83.21 32.5a 31.2a 7.9a 7.5a 8.8a 8.7a
DP2 80.62 31.6a 33.2a 8.5a 8.6a 9.8a 9.9a
DP3 76.83 28.8a 29.6a 7.6a 7.5a 9.0a 8.6a
DP4 88.63 27.6a 26.8a 8.2a 8.3a 10.0a 10.6a
DP5 87.84 29.5a 28.8a 8.0a 8.1a 7.8a 7.9a
DP6 79.23 24.6a 25.2a 8.3a 8.2a 8.1a 8.0a
DP7 76.54 27.3a 28.4a 7.5a 7.3a 7.8a 7.3a
DP8 81.24 29.6a 30.4a 7.6a 7.4a 8.3a 8.5a
DP9 88.74 26.4a 27.1a 7.3a 7.5a 8.4a 8.6a
CK 89.36 26.4a 5.2b 8.0a 0.0b 8.8a 1.2b

Table 4

Analysis of the agronomic traits of tested varieties (lines)"

品种(系)
Variety
(line)		 株高
Plant height
(cm)		 分枝高度
Branch
height (cm)		 一次分枝数
Primary
branches		 主轴长度
Length of terminal
raceme (cm)		 主轴果数
Pods of
terminal raceme		 一次角果数
Siliques of
1st branch		 角果长度
Pod length
(cm)		 每角粒数
Seed number
per pod		 千粒重
1000-grain
weight (g)
DP1 123.8d 64.0c 4.5a 52.0b 50.5c 107.5c 6.3b 21.1ab 3.4a
DP2 140.1b 71.9bc 4.5a 63.0a 66.5a 171.5a 6.1b 24.3a 3.1b
DP3 133.4c 77.0b 3.5b 52.6b 58.5b 93.5d 6.6b 19.9b 3.4a
DP4 139.0b 67.8c 3.8ab 63.2a 50.5c 90.5d 7.6a 25.2a 3.4a
DP5 147.0ab 79.1b 4.2a 59.2a 63.5ab 101.5c 6.6b 22.8ab 3.6a
DP6 147.0ab 77.6b 3.2b 59.4a 65.5a 146.5ab 6.6b 21.5ab 3.7a
DP7 135.2bc 81.6ab 4.1a 48.4c 55.5bc 104.5c 7.1ab 22.7ab 3.6a
DP8 153.1a 88.6a 4.8a 55.8ab 55.5bc 150.5ab 6.6b 25.0a 3.3ab
DP9 147.2ab 90.4a 3.7ab 31.6d 68.5a 133.5b 7.6a 20.1b 3.5a
CK 113.2e 46.5d 4.2a 54.5ab 40.5d 105.5c 7.6a 24.1a 3.3ab

Table 5

Analysis of yields of the tested varieties (lines)"

变异来源Source of variation 自由度Df 平方和SS 均方MS FF-value F0.05 F0.01
区组Block 2 2.83 1.42 5.36 3.24 5.21
处理Treatment 19 265.50 13.97 52.87 1.87 2.43
年度Year 1 260.30 260.30 984.96 4.10 7.35
品种(系)Variety (line) 9 5.04 0.56 2.12 2.14 2.92
年度×品种(系)Year×variety (line) 9 0.16 0.02 0.07 2.14 2.92
误差Error 38 10.04 0.26
总变异Total variation 59 278.37

Table 6

Multiple comparisons of the average yield of the tested varieties (lines)"

品种(系)
Variety (line)		 平均单产
Average yield (kg/hm2)		 平均增产
Average yield increase (%)
DP2 3368.70 17.57aA
DP4 2989.95 10.21abAB
CK 2755.50 0.00bAB
DP7 2737.65 -1.85bAB
DP6 2659.35 -4.93bAB
DP9 2616.75 -8.27bAB
DP5 2664.15 -3.35bAB
DP3 2585.85 -8.32bAB
DP8 2515.50 -11.53bB
DP1 2414.85 -16.15bB
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