Xinjiang Agricultural Sciences ›› 2023, Vol. 60 ›› Issue (8): 1858-1865.DOI: 10.6048/j.issn.1001-4330.2023.08.005
• Crop Genetics and Breeding · Germplasm Resources · Molecular Genetics · Soil Fertilizer • Previous Articles Next Articles
FENG Mei1(), LIU Chaoqin2, CHEN Jie2, LIU Wenlong2, YANG Zhigang1(
), TIAN Jieying1, HUANG Xin1
Received:
2022-12-28
Online:
2023-08-20
Published:
2023-08-14
Correspondence author:
YANG Zhigang (1965-), male, native place: Lezhi,Sichuang, associate research fellow, master, research field: breeding and cultivation techniques of wheat, (E-mail)xjyangzg@163.comSupported by:
冯梅1(), 刘超勤2, 陈杰2, 刘文龙2, 杨志刚1(
), 田杰英1, 黄鑫1
通讯作者:
杨志刚(1965-),男,四川乐至人,副研究员,研究方向为小麦育种及栽培,(E-mail)xjyangzg@163.com作者简介:
冯梅(1987-),女,四川蓬溪人,助理研究员,硕士,研究方向为果树育种及栽培,(E-mail)528186822@qq.com
基金资助:
CLC Number:
FENG Mei, LIU Chaoqin, CHEN Jie, LIU Wenlong, YANG Zhigang, TIAN Jieying, HUANG Xin. Analysis of character variation and heterosis of F1 generation of different crosses in wheat[J]. Xinjiang Agricultural Sciences, 2023, 60(8): 1858-1865.
冯梅, 刘超勤, 陈杰, 刘文龙, 杨志刚, 田杰英, 黄鑫. 小麦不同杂交F1代性状变异及杂种优势分析[J]. 新疆农业科学, 2023, 60(8): 1858-1865.
杂交组合 Hybrid combin- ations | 参数 Parameter | 株高 Plant height (cm) | 收获穗数 Spikes number (104/hm2) | 穗长 Spike length (cm) | 穗粒数 Grains per spike | 穗粒重 Spike grain weight (g) | 千粒重 1000-grain weight (g) | 产量 Yield (kg/667m2) |
---|---|---|---|---|---|---|---|---|
18-1 | 平均值 | 80bc | 399.8c | 9.73bc | 55.25a | 3.28a | 59.40a | 434.0b |
CV(%) | 5.4 | 17.22 | 2.28 | 7.64 | 8.01 | 3.10 | 41.97 | |
Ta(%) | 104.17 | 67.05 | 113.34 | 148.4 | 184.33 | 116.05 | 83.19 | |
18-2 | 平均值 | 77c | 500ab | 8.80d | 46c | 2.49b | 54.08c | 480.3ab |
CV(%) | 1.3 | 0.2 | 0.57 | 0.87 | 0.40 | 0.02 | 0.21 | |
Ta(%) | 101.25 | 77.74 | 115.33 | 131.32 | 171.59 | 121.04 | 92.87 | |
18-3 | 平均值 | 78.8bc | 500ab | 9.35c | 50bc | 2.79b | 55.75bc | 391.2b |
CV(%) | 2.09 | 4.09 | 2.35 | 2.43 | 4.92 | 1.67 | 15.75 | |
Ta(%) | 99.94 | 82.15 | 110.65 | 140.92 | 175.41 | 119.76 | 69.16 | |
18-4 | 平均值 | 90.8a | 574.5a | 10.70a | 56.10a | 3.37a | 60.17a | 589.1ab |
CV(%) | 0.93 | 5.33 | 2.75 | 1.03 | 4.71 | 5.06 | 2.99 | |
Ta(%) | 114.61 | 106.17 | 129.85 | 146.94 | 192.74 | 130.67 | 102.72 | |
18-5 | 平均值 | 82.7b | 558.3a | 10.13b | 52.20ab | 3.14a | 60.23a | 638.3a |
CV(%) | 0.7 | 13.49 | 2.48 | 3.77 | 3.72 | 2.65 | 11.14 | |
Ta(%) | 100.9 | 86.81 | 123.13 | 144.88 | 198.94 | 131.86 | 117.72 | |
18-6 | 平均值 | 81bc | 450bc | 8.40d | 47c | 2.71b | 57.56ab | 446.5b |
CV(%) | 4.28 | 18.22 | 4.76 | 10.43 | 11.07 | 2.26 | 44.83 | |
Ta(%) | 103.12 | 69.7 | 106.33 | 134.06 | 168.07 | 121.78 | 79.73 | |
总样本 Total | 平均值 | 81.69 | 497.1 | 9.52 | 51.09 | 2.96 | 57.87 | 496.58 |
CV(%) | 5.41 | 12.03 | 8.15 | 7.47 | 10.88 | 4.00 | 17.71 | |
Ta(%) | 105.01 | 80.93 | 116.31 | 138.24 | 180.63 | 128.17 | 95.3 | |
组合间F值 F value among combination | 14.32** | 5.56** | 36.55** | 7.9** | 11.83** | 6.63** | 2.41 |
Tab.1 Genetic variation analysis of characters in cross F1 generation of wheat
杂交组合 Hybrid combin- ations | 参数 Parameter | 株高 Plant height (cm) | 收获穗数 Spikes number (104/hm2) | 穗长 Spike length (cm) | 穗粒数 Grains per spike | 穗粒重 Spike grain weight (g) | 千粒重 1000-grain weight (g) | 产量 Yield (kg/667m2) |
---|---|---|---|---|---|---|---|---|
18-1 | 平均值 | 80bc | 399.8c | 9.73bc | 55.25a | 3.28a | 59.40a | 434.0b |
CV(%) | 5.4 | 17.22 | 2.28 | 7.64 | 8.01 | 3.10 | 41.97 | |
Ta(%) | 104.17 | 67.05 | 113.34 | 148.4 | 184.33 | 116.05 | 83.19 | |
18-2 | 平均值 | 77c | 500ab | 8.80d | 46c | 2.49b | 54.08c | 480.3ab |
CV(%) | 1.3 | 0.2 | 0.57 | 0.87 | 0.40 | 0.02 | 0.21 | |
Ta(%) | 101.25 | 77.74 | 115.33 | 131.32 | 171.59 | 121.04 | 92.87 | |
18-3 | 平均值 | 78.8bc | 500ab | 9.35c | 50bc | 2.79b | 55.75bc | 391.2b |
CV(%) | 2.09 | 4.09 | 2.35 | 2.43 | 4.92 | 1.67 | 15.75 | |
Ta(%) | 99.94 | 82.15 | 110.65 | 140.92 | 175.41 | 119.76 | 69.16 | |
18-4 | 平均值 | 90.8a | 574.5a | 10.70a | 56.10a | 3.37a | 60.17a | 589.1ab |
CV(%) | 0.93 | 5.33 | 2.75 | 1.03 | 4.71 | 5.06 | 2.99 | |
Ta(%) | 114.61 | 106.17 | 129.85 | 146.94 | 192.74 | 130.67 | 102.72 | |
18-5 | 平均值 | 82.7b | 558.3a | 10.13b | 52.20ab | 3.14a | 60.23a | 638.3a |
CV(%) | 0.7 | 13.49 | 2.48 | 3.77 | 3.72 | 2.65 | 11.14 | |
Ta(%) | 100.9 | 86.81 | 123.13 | 144.88 | 198.94 | 131.86 | 117.72 | |
18-6 | 平均值 | 81bc | 450bc | 8.40d | 47c | 2.71b | 57.56ab | 446.5b |
CV(%) | 4.28 | 18.22 | 4.76 | 10.43 | 11.07 | 2.26 | 44.83 | |
Ta(%) | 103.12 | 69.7 | 106.33 | 134.06 | 168.07 | 121.78 | 79.73 | |
总样本 Total | 平均值 | 81.69 | 497.1 | 9.52 | 51.09 | 2.96 | 57.87 | 496.58 |
CV(%) | 5.41 | 12.03 | 8.15 | 7.47 | 10.88 | 4.00 | 17.71 | |
Ta(%) | 105.01 | 80.93 | 116.31 | 138.24 | 180.63 | 128.17 | 95.3 | |
组合间F值 F value among combination | 14.32** | 5.56** | 36.55** | 7.9** | 11.83** | 6.63** | 2.41 |
性状 Trait | 杂交组合 Hybrid combina tions | 母本 Female | 父本 Male | 中亲值 MPV | 中亲优势 Hm | 中亲 优势率 RHm (%) | 高亲值 BPV | 超亲优势 Hb | 超亲 优势率 RHb (%) | |||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
株高 Plant height (cm) | 18-1 | 79.6 | 74 | 76.8 | 3.2 | 4.17 | 79.6 | 0.4 | 0.5 | |||||||
18-2 | 79.6 | 72.5 | 76.05 | 0.95 | 1.25 | 79.6 | -2.6 | -3.27 | ||||||||
18-3 | 79.6 | 78 | 78.8 | -0.05 | -0.06 | 79.6 | -0.85 | -1.07 | ||||||||
18-4 | 79.6 | 78.8 | 79.18 | 11.57 | 14.61 | 79.6 | 11.15 | 14.01 | ||||||||
18-5 | 79.6 | 84.3 | 81.93 | 0.74 | 0.9 | 84.25 | -1.58 | -1.88 | ||||||||
18-6 | 79.6 | 77.5 | 78.55 | 2.45 | 3.12 | 79.6 | 1.4 | 1.76 | ||||||||
收获穗数 Spikes number (104/hm2) | 18-1 | 611.25 | 581.2 | 596.23 | -196.48 | -32.95 | 611.25 | -211.5 | -34.6 | |||||||
18-2 | 611.25 | 675 | 643.13 | -143.13 | -22.26 | 675 | -175 | -25.93 | ||||||||
18-3 | 611.25 | 606 | 608.63 | -108.63 | -17.85 | 611.25 | -111.25 | -18.2 | ||||||||
18-4 | 611.25 | 471 | 541.13 | 33.37 | 6.17 | 611.25 | -36.75 | -6.01 | ||||||||
18-5 | 611.25 | 675 | 643.13 | -84.8 | -13.2 | 675 | -116.67 | -17.28 | ||||||||
18-6 | 611.25 | 680 | 645.63 | -195.63 | -30.3 | 680 | -230 | -33.82 | ||||||||
穗长 Spikel ength (cm) | 18-1 | 8.15 | 9 | 8.58 | 1.15 | 13.35 | 9 | 0.73 | 8.06 | |||||||
18-2 | 8.15 | 7.10 | 7.63 | 1.17 | 15.34 | 8.15 | 0.65 | 7.98 | ||||||||
18-3 | 8.15 | 8.75 | 8.45 | 0.9 | 10.65 | 8.75 | 0.6 | 6.86 | ||||||||
18-4 | 8.15 | 8.33 | 8.24 | 2.46 | 29.85 | 8.33 | 2.37 | 28.4 | ||||||||
18-5 | 8.15 | 8.30 | 8.23 | 1.9 | 23.1 | 8.3 | 1.83 | 22.09 | ||||||||
18-6 | 8.15 | 7.65 | 7.9 | 0.5 | 6.33 | 8.15 | 0.25 | 3.07 | ||||||||
穗粒数 Grains perspike | 18-1 | 35.05 | 39.40 | 37.23 | 18.02 | 48.41 | 39.4 | 15.85 | 40.23 | |||||||
18-2 | 35.05 | 35 | 35.03 | 10.97 | 31.32 | 35.05 | 10.95 | 31.24 | ||||||||
18-3 | 35.05 | 35.90 | 35.48 | 14.52 | 40.93 | 35.9 | 14.1 | 39.28 | ||||||||
18-4 | 35.05 | 41.30 | 38.18 | 17.92 | 46.94 | 41.3 | 14.8 | 35.84 | ||||||||
18-5 | 35.05 | 37 | 36.03 | 16.17 | 44.9 | 37 | 15.2 | 41.08 | ||||||||
18-6 | 35.05 | 35.07 | 35.06 | 11.94 | 34.06 | 35.07 | 11.93 | 34.03 | ||||||||
穗粒重 Spikegrain weight (g) | 18-1 | 1.6 | 1.95 | 1.78 | 1.5 | 84.56 | 1.95 | 1.33 | 68.26 | |||||||
18-2 | 1.6 | 1.30 | 1.45 | 1.04 | 71.59 | 1.6 | 0.89 | 55.5 | ||||||||
18-3 | 1.6 | 1.57 | 1.59 | 1.2 | 75.65 | 1.6 | 1.19 | 74.31 | ||||||||
18-4 | 1.6 | 1.90 | 1.75 | 1.62 | 92.74 | 1.9 | 1.47 | 77.53 | ||||||||
18-5 | 1.6 | 1.55 | 1.58 | 1.56 | 99.13 | 1.6 | 1.54 | 96.46 | ||||||||
18-6 | 1.6 | 1.61 | 1.61 | 1.1 | 68.29 | 1.61 | 1.1 | 68.07 | ||||||||
千粒重 1 000-grain weight (g) | 18-1 | 49.36 | 53 | 51.18 | 8.22 | 16.05 | 53 | 6.4 | 12.07 | |||||||
18-2 | 49.36 | 40 | 44.68 | 9.4 | 21.04 | 49.36 | 4.72 | 9.57 | ||||||||
18-3 | 49.36 | 43.75 | 46.55 | 9.2 | 19.76 | 49.36 | 6.39 | 12.95 | ||||||||
18-4 | 49.36 | 42.75 | 46.05 | 14.12 | 30.66 | 49.36 | 10.81 | 21.91 | ||||||||
18-5 | 49.36 | 42 | 45.68 | 14.55 | 31.9 | 49.36 | 10.88 | 22.03 | ||||||||
18-6 | 49.36 | 45.18 | 47.27 | 10.29 | 21.78 | 49.36 | 8.21 | 16.63 | ||||||||
产量 Yield (kg/667m2) | 18-1 | 582.6 | 460.9 | 521.74 | -87.7 | -16.81 | 582.6 | -148.56 | -25.5 | |||||||
18-2 | 582.6 | 451.8 | 517.22 | -36.89 | -7.13 | 582.6 | -102.27 | -17.55 | ||||||||
18-3 | 582.6 | 548.8 | 565.69 | -174.46 | -30.84 | 582.6 | -191.37 | -32.85 | ||||||||
18-4 | 582.6 | 564.4 | 573.52 | 15.61 | 2.72 | 582.6 | 6.53 | 1.12 | ||||||||
18-5 | 582.6 | 501.8 | 542.18 | 96.09 | 17.7 | 582.6 | 55.67 | 9.55 | ||||||||
18-6 | 582.6 | 537.3 | 559.94 | -113.48 | -20.27 | 582.6 | -136.14 | -23.37 |
Tab.2 Heterosis analysis of characters in cross F1 generation of wheat
性状 Trait | 杂交组合 Hybrid combina tions | 母本 Female | 父本 Male | 中亲值 MPV | 中亲优势 Hm | 中亲 优势率 RHm (%) | 高亲值 BPV | 超亲优势 Hb | 超亲 优势率 RHb (%) | |||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
株高 Plant height (cm) | 18-1 | 79.6 | 74 | 76.8 | 3.2 | 4.17 | 79.6 | 0.4 | 0.5 | |||||||
18-2 | 79.6 | 72.5 | 76.05 | 0.95 | 1.25 | 79.6 | -2.6 | -3.27 | ||||||||
18-3 | 79.6 | 78 | 78.8 | -0.05 | -0.06 | 79.6 | -0.85 | -1.07 | ||||||||
18-4 | 79.6 | 78.8 | 79.18 | 11.57 | 14.61 | 79.6 | 11.15 | 14.01 | ||||||||
18-5 | 79.6 | 84.3 | 81.93 | 0.74 | 0.9 | 84.25 | -1.58 | -1.88 | ||||||||
18-6 | 79.6 | 77.5 | 78.55 | 2.45 | 3.12 | 79.6 | 1.4 | 1.76 | ||||||||
收获穗数 Spikes number (104/hm2) | 18-1 | 611.25 | 581.2 | 596.23 | -196.48 | -32.95 | 611.25 | -211.5 | -34.6 | |||||||
18-2 | 611.25 | 675 | 643.13 | -143.13 | -22.26 | 675 | -175 | -25.93 | ||||||||
18-3 | 611.25 | 606 | 608.63 | -108.63 | -17.85 | 611.25 | -111.25 | -18.2 | ||||||||
18-4 | 611.25 | 471 | 541.13 | 33.37 | 6.17 | 611.25 | -36.75 | -6.01 | ||||||||
18-5 | 611.25 | 675 | 643.13 | -84.8 | -13.2 | 675 | -116.67 | -17.28 | ||||||||
18-6 | 611.25 | 680 | 645.63 | -195.63 | -30.3 | 680 | -230 | -33.82 | ||||||||
穗长 Spikel ength (cm) | 18-1 | 8.15 | 9 | 8.58 | 1.15 | 13.35 | 9 | 0.73 | 8.06 | |||||||
18-2 | 8.15 | 7.10 | 7.63 | 1.17 | 15.34 | 8.15 | 0.65 | 7.98 | ||||||||
18-3 | 8.15 | 8.75 | 8.45 | 0.9 | 10.65 | 8.75 | 0.6 | 6.86 | ||||||||
18-4 | 8.15 | 8.33 | 8.24 | 2.46 | 29.85 | 8.33 | 2.37 | 28.4 | ||||||||
18-5 | 8.15 | 8.30 | 8.23 | 1.9 | 23.1 | 8.3 | 1.83 | 22.09 | ||||||||
18-6 | 8.15 | 7.65 | 7.9 | 0.5 | 6.33 | 8.15 | 0.25 | 3.07 | ||||||||
穗粒数 Grains perspike | 18-1 | 35.05 | 39.40 | 37.23 | 18.02 | 48.41 | 39.4 | 15.85 | 40.23 | |||||||
18-2 | 35.05 | 35 | 35.03 | 10.97 | 31.32 | 35.05 | 10.95 | 31.24 | ||||||||
18-3 | 35.05 | 35.90 | 35.48 | 14.52 | 40.93 | 35.9 | 14.1 | 39.28 | ||||||||
18-4 | 35.05 | 41.30 | 38.18 | 17.92 | 46.94 | 41.3 | 14.8 | 35.84 | ||||||||
18-5 | 35.05 | 37 | 36.03 | 16.17 | 44.9 | 37 | 15.2 | 41.08 | ||||||||
18-6 | 35.05 | 35.07 | 35.06 | 11.94 | 34.06 | 35.07 | 11.93 | 34.03 | ||||||||
穗粒重 Spikegrain weight (g) | 18-1 | 1.6 | 1.95 | 1.78 | 1.5 | 84.56 | 1.95 | 1.33 | 68.26 | |||||||
18-2 | 1.6 | 1.30 | 1.45 | 1.04 | 71.59 | 1.6 | 0.89 | 55.5 | ||||||||
18-3 | 1.6 | 1.57 | 1.59 | 1.2 | 75.65 | 1.6 | 1.19 | 74.31 | ||||||||
18-4 | 1.6 | 1.90 | 1.75 | 1.62 | 92.74 | 1.9 | 1.47 | 77.53 | ||||||||
18-5 | 1.6 | 1.55 | 1.58 | 1.56 | 99.13 | 1.6 | 1.54 | 96.46 | ||||||||
18-6 | 1.6 | 1.61 | 1.61 | 1.1 | 68.29 | 1.61 | 1.1 | 68.07 | ||||||||
千粒重 1 000-grain weight (g) | 18-1 | 49.36 | 53 | 51.18 | 8.22 | 16.05 | 53 | 6.4 | 12.07 | |||||||
18-2 | 49.36 | 40 | 44.68 | 9.4 | 21.04 | 49.36 | 4.72 | 9.57 | ||||||||
18-3 | 49.36 | 43.75 | 46.55 | 9.2 | 19.76 | 49.36 | 6.39 | 12.95 | ||||||||
18-4 | 49.36 | 42.75 | 46.05 | 14.12 | 30.66 | 49.36 | 10.81 | 21.91 | ||||||||
18-5 | 49.36 | 42 | 45.68 | 14.55 | 31.9 | 49.36 | 10.88 | 22.03 | ||||||||
18-6 | 49.36 | 45.18 | 47.27 | 10.29 | 21.78 | 49.36 | 8.21 | 16.63 | ||||||||
产量 Yield (kg/667m2) | 18-1 | 582.6 | 460.9 | 521.74 | -87.7 | -16.81 | 582.6 | -148.56 | -25.5 | |||||||
18-2 | 582.6 | 451.8 | 517.22 | -36.89 | -7.13 | 582.6 | -102.27 | -17.55 | ||||||||
18-3 | 582.6 | 548.8 | 565.69 | -174.46 | -30.84 | 582.6 | -191.37 | -32.85 | ||||||||
18-4 | 582.6 | 564.4 | 573.52 | 15.61 | 2.72 | 582.6 | 6.53 | 1.12 | ||||||||
18-5 | 582.6 | 501.8 | 542.18 | 96.09 | 17.7 | 582.6 | 55.67 | 9.55 | ||||||||
18-6 | 582.6 | 537.3 | 559.94 | -113.48 | -20.27 | 582.6 | -136.14 | -23.37 |
性状 Character | 株高 Plant height (cm) | 穗数 Spikes number (104/hm2) | 穗长 Spike length (cm) | 穗粒数 Grains per spike | 穗粒重 Spike grain weight (g) | 千粒重 1000- grain weight (g) | 产量 Yield (kg/hm2) |
---|---|---|---|---|---|---|---|
株高 Plant height(cm) | 1 | ||||||
穗数 Spikes number(104/hm2) | 0.59 | 1 | |||||
穗长 Spike length(cm) | 0.76* | 0.57 | 1 | ||||
穗粒数 Grains per spike | 0.69 | 0.16 | 0.89** | 1 | |||
穗粒重 Spike grain weight(g) | 0.73 | 0.19 | 0.88** | 0.98** | 1 | ||
千粒重 1000-grain weight(g) | 0.73 | 0.21 | 0.73 | 0.82* | 0.92** | 1 | |
产量 Yield(kg/hm2) | 0.64 | 0.76* | 0.66 | 0.38 | 0.48 | 0.62 | 1 |
Tab.3 The indicatorsin F1 generation of wheatby Pearson correlation analysis
性状 Character | 株高 Plant height (cm) | 穗数 Spikes number (104/hm2) | 穗长 Spike length (cm) | 穗粒数 Grains per spike | 穗粒重 Spike grain weight (g) | 千粒重 1000- grain weight (g) | 产量 Yield (kg/hm2) |
---|---|---|---|---|---|---|---|
株高 Plant height(cm) | 1 | ||||||
穗数 Spikes number(104/hm2) | 0.59 | 1 | |||||
穗长 Spike length(cm) | 0.76* | 0.57 | 1 | ||||
穗粒数 Grains per spike | 0.69 | 0.16 | 0.89** | 1 | |||
穗粒重 Spike grain weight(g) | 0.73 | 0.19 | 0.88** | 0.98** | 1 | ||
千粒重 1000-grain weight(g) | 0.73 | 0.21 | 0.73 | 0.82* | 0.92** | 1 | |
产量 Yield(kg/hm2) | 0.64 | 0.76* | 0.66 | 0.38 | 0.48 | 0.62 | 1 |
参数 Paraterment | 主成分 Principal component | ||
---|---|---|---|
Y1 | Y2 | ||
特征值Eigenvalue | 4.491 | 1.56 | |
贡献率Contributionrate(%) | 64.16 | 22.28 | |
累计贡献率 Comulate contributionrate(%) | 64.16 | 86.44 | |
特征向量 Eigenvector | 株高 | 0.299 7 | 0.496 |
穗数 | -0.322 6 | 0.431 8 | |
穗长 | 0.431 1 | 0.176 6 | |
穗粒数 | 0.460 3 | -0.07 9 | |
穗粒重 | 0.465 9 | -0.063 1 | |
千粒重 | 0.436 5 | -0.088 1 | |
产量 | 0.026 | 0.719 9 |
Tab.4 Eigenvectors of correlation matrixof traits in F1 generation of wheat
参数 Paraterment | 主成分 Principal component | ||
---|---|---|---|
Y1 | Y2 | ||
特征值Eigenvalue | 4.491 | 1.56 | |
贡献率Contributionrate(%) | 64.16 | 22.28 | |
累计贡献率 Comulate contributionrate(%) | 64.16 | 86.44 | |
特征向量 Eigenvector | 株高 | 0.299 7 | 0.496 |
穗数 | -0.322 6 | 0.431 8 | |
穗长 | 0.431 1 | 0.176 6 | |
穗粒数 | 0.460 3 | -0.07 9 | |
穗粒重 | 0.465 9 | -0.063 1 | |
千粒重 | 0.436 5 | -0.088 1 | |
产量 | 0.026 | 0.719 9 |
组合 Combination | 主成分值 Principal component values | 综合评价F值 Comprehensive evaluation value | 排名 Ranking | |
---|---|---|---|---|
PC-1 | PC-2 | |||
母本Female | -1.487 3 | 1.043 7 | -0.667 | 8 |
父本1 Parent 1 | -0.706 1 | -0.944 | -0.783 | 9 |
父本2 Parent 2 | -3.490 1 | -0.831 2 | -2.628 | 13 |
父本3 Parent 3 | -1.625 3 | 0.664 8 | -0.883 | 11 |
父本4 Parent 4 | -0.777 4 | 0.096 7 | -0.494 | 7 |
父本5 Parent 5 | -1.728 4 | 1.156 | -0.793 | 10 |
父本6 Parent 6 | -2.370 4 | 0.640 9 | -1.394 | 12 |
18-1 | 2.895 8 | -1.670 5 | 1.415 | 3 |
18-2 | 0.527 6 | -0.976 8 | 0.040 | 6 |
18-3 | 1.401 2 | -1.677 1 | 0.403 | 4 |
18-4 | 3.631 7 | 2.146 8 | 3.150 | 1 |
18-5 | 2.524 9 | 1.621 | 2.232 | 2 |
18-6 | 1.203 7 | -1.270 3 | 0.401 | 5 |
Tab.5 Comprehensive evaluation of wheathybrid F1 generation
组合 Combination | 主成分值 Principal component values | 综合评价F值 Comprehensive evaluation value | 排名 Ranking | |
---|---|---|---|---|
PC-1 | PC-2 | |||
母本Female | -1.487 3 | 1.043 7 | -0.667 | 8 |
父本1 Parent 1 | -0.706 1 | -0.944 | -0.783 | 9 |
父本2 Parent 2 | -3.490 1 | -0.831 2 | -2.628 | 13 |
父本3 Parent 3 | -1.625 3 | 0.664 8 | -0.883 | 11 |
父本4 Parent 4 | -0.777 4 | 0.096 7 | -0.494 | 7 |
父本5 Parent 5 | -1.728 4 | 1.156 | -0.793 | 10 |
父本6 Parent 6 | -2.370 4 | 0.640 9 | -1.394 | 12 |
18-1 | 2.895 8 | -1.670 5 | 1.415 | 3 |
18-2 | 0.527 6 | -0.976 8 | 0.040 | 6 |
18-3 | 1.401 2 | -1.677 1 | 0.403 | 4 |
18-4 | 3.631 7 | 2.146 8 | 3.150 | 1 |
18-5 | 2.524 9 | 1.621 | 2.232 | 2 |
18-6 | 1.203 7 | -1.270 3 | 0.401 | 5 |
[1] | 中华人民共和国国家统计局. 中国统计年鉴[J]. 北京:中国农业出版社, 2015. |
National Bureau of Statistics of the People's Republic of China. China Statistical Year Book[J]. Beijing: China Statistics Press, 2015. | |
[2] | 孙彩玲, 曲辉英, 吕建华, 等. 基于主成分和聚类分析的山东省区试小麦品种(系)品质的综合评价[J]. 山东农业大学学报(自然科学版), 2014, 45(4):545-551. |
SUN Cailing, QU Huiying, LYU Jianhua, et al. Comprehensive Assessment on Wheat Quality in Regional Test of Shandong Based on Principal Component and Cluster Analysis[J]. Journal of Shandong Agricultural University (Natural Science Ed.), 2014, 45(4):545-551. | |
[3] | 常向楠, 陈树林, 程西永, 等. 稀植和密植下小麦主要农艺性状的遗传差异及关系分析[J]. 河南农业大学学报, 2018, 52(4):497-505. |
CHANG Xiangnan, CHEN Shulin, CHENG Xiyong, et al. Genetic differences and correlation of main agronomic traits in wheat under low-density and high-density planting models[J]. Journal of Henan Agricultural University, 2018, 52(4):497-505. | |
[4] | 蔡金华, 杨阳, 单延博, 等. 35份小麦种质资源品质性状的主成分和聚类分析[J]. 浙江农业科学, 2017, 58(5):758-760. |
CAI Jinhua, YANG Yang, SHAN Yanbo, et al. Principal Component Analysis and cluster analysis on quality characters of 35 wheat germplasm resources[J]. Journal of Zhejiang Agricultural Sciences, 2017, 58(5):758-760. | |
[5] | 郭凤芝, 林坤, 葛振勇, 等. 2001-2017年山东省审定小麦高产品种农艺、产量和品质性状演变分析[J]. 山东农业科学, 2019, 51(3):16-23. |
GUO Fengzhi, LIN Kun, GE Zhenyong, et al. Evolutionary Analysis of Agronomic, Yield and Quality Traits of Approved High Yield Wheat Varieties in Shandong Province from 2001 to 2017[J]. Shangdong Agricultural Sciences, 2019, 51(3):16-23. | |
[6] | 李振声. 我国小麦育种的回顾与展望[J]. 中国农业科技导报, 2010, 12(2):1-4. |
LI Zhensheng. Retrospect and Prospect of Wheat Breeding in China[J]. Journal of Agricultural Science and Technology, 2010, 12(2):1-4.
DOI |
|
[7] | 何中虎, 庄巧生, 程顺和, 等. 中国小麦产业发展与科技进步[J]. 农学学报, 2018,(1):99-106. |
HE Zhonghu, ZHUANG Qiaosheng, CHENG Shunhe, et al. Wheat Production and Technology Improvement in China[J]. Journal of Agriculture, 2018,(1):99-106. | |
[8] | 庄巧生. 中国小麦品种改良及系谱分析[M]. 北京: 中国农业出版化, 2003,502. |
ZHUANG Qiaosheng. Chinese Wheat Improvement and Pedigree Analysis[M]. Beijing: China Agriculture Press, 2003,502. | |
[9] |
蒋林峰, 张新全, 付玉凤, 等. 中国主要鸭茅品种农艺性状变异研究[J]. 草业学报, 2015, 24(3):142-154.
DOI |
JIANG Linfeng, ZHANG Xinquan, FU Yufeng, et al. Agronomic trait variation of some main orchardgrass (Dactyisglomerata) cultivars in China[J]. Acta Prataculturae Sinica, 2015, 24(3):142-154.
DOI |
|
[10] | 陈素生, 宋晓华, 刘生祥, 等. 冬、春小麦杂种F1及春小麦品系间杂种F1代主要农艺性状的研究[J]. 种子, 2005,(6):32-33 |
CHEN Susheng, SONG Xiaohua, LIU Shengxiang, et al. Study on Main Agricultural Characteristics of the F1 in the Spring Wheat and SpringWheat×WinterWheat[J]. Seed, 2005, (6):32-33. | |
[11] | 兰秀锦, 郑有良, 刘登才, 等. 小麦多小穗改良品系的杂种优势分析[J]. 种子, 2002,(1):25-27. |
LAN Xiujin, ZHENG Youliang, LIU Dengcai, et al. Heterosis of Hybrid between Chuanmai 28 and Multi-spikelet Advanced Lines in Wheat[J]. Seed, 2002, (1):25-27. | |
[12] |
陈军营, 冯林剑, 舒文涛, 等. 小麦及其近缘种间杂交的不亲和性及其F1籽粒性状研究[J]. 河南农业科学, 2006,(12):16-19.
DOI |
CHEN Junying, FENG Linjian, SHU Wentao, et al. Interspecific Cross-incompatibility between Triticum aestivum and Its Related Species and Their F1 Kernel Characters[J]. Henan Agricultural Sciences, 2006, (12):16-19. | |
[13] | 李罗江, 茹振刚, 高庆荣, 等. 小麦雄性不育系BNS及其杂种F1的育性分析[J]. 麦类作物学报, 2009, 29(4):583-587. |
LI Luojiang, RU Zhengang, GAO Qingrong, et al. Analysis on the Fertility of Wheat Male sterile Line BNS andIts F1Hybrids[J]. Journal of Triticeac Crops, 2009, 29(4):583-587. | |
[14] | 宋晓华, 梁朴. 冬春小麦杂种F1代主要农艺性状的研究[J]. 宁夏农学院学报, 2009, 29(4):583-587. |
SONG Xiaohua, LIANG Pu. Studies on main agronomic characteristics of hybrid F1 in the spring winter wheat[J]. Journal of Ningxia Agricultural College, 2009, 29(4):583-587. | |
[15] | 兰秀锦, 郑有良, 刘登才, 等. 小麦多小穗资源10-A改良后代的杂交组合优势分析[J]. 四川农业大学学报, 2000, 18(4):300-302. |
LAN Xiujin, ZHENG Youliang, LI Dengcai, et al. Analysis of Major Agronomic Characters of Hybrids between Mianyang 26 and Advanced Lines from Multi-spikelet 10-A[J]. Journal of Sichuan Agricultural University, 2000, 18(4):300-302. | |
[16] |
陈军营, 张艳敏, 李香妞, 等. 小麦不同杂交组合F1主要农艺性状研究[J]. 河南农业科学, 2009, 38(11):31-34.
DOI |
CHEN Junying, ZHANG Yanmin, LI Xiangniu, et al. Study on Main Agronomic Traits of Different Wheat Hybrid F1[J]. Henan Agricultural Sciences, 2009, 38(11):31-34. | |
[17] | 赵爽, 赵福洞, 石鹤飞, 等. 核桃品种绿岭杂交后代主要性状的遗传分析与优株选择研究[J]. 植物遗传资源学报, 2015, 16(5):1004-1012. |
ZHAO Shuang, ZHAO Fudong, SHI Hefei, et al. Main Traits Genetic Analysis and Superior Tree Selection of Hybrid Offspring of LvlingWalnut[J]. Journal of Plant Genetic Resources, 2015, 16(5):1004-1012. | |
[18] | 叶梓. 植物体细胞无性系变异[J]. 科技经济导刊, 2016,(26):100. |
YE Zi. Somaclonal variation in plants[J]. Technology and Economic Guide, 2016,(26):100. | |
[19] | 高飞, 柴守诚, 高爱农. 基于形态学的中华鹅观草遗传多样性分析[J]. 麦类作物学报, 2006, 26(3):12-17. |
GAO Fei, CHAI Shouchengi, GAO Ainong. Genetic Diversity of Roegneriasinica Populations Based on Morphological Analysis[J]. Journal of Triticeae Crops, 2006, 26(3):12-17. | |
[20] | 柴永峰, 李秀绒, 赵智勇, 等. 国外小麦种质资源农艺性状及品质性状的多样性分析[J]. 农学学报, 2013, 3(9):1-8. |
CHAI Yongfeng, LI Xiurong, ZHAO Zhiyong, et al. Diversity Analysis of Agronomic and Quality Characters of Foreign Wheat Germplasm Resources[J]. Journal of Agriculture, 2013, 3(9):1-8.
DOI |
|
[21] | 欧俊梅, 李生荣, 杜小英, 等. 5个矮秆小麦品种(系)主要农艺性状的配合力和遗传力分析[J]. 绵阳经济技术高等专科学校学报, 2000,(2):123-125. |
OU Junmei, LI Shengrong, DU Xiaoying, et al. Combining Ability and Heritability Analyses of Agronomic Characters of 5 Dwarf varieties in Wheat[J]. Journal of Mianyang College of Economy &Technology, 2000,(2):123-125. | |
[22] | 庞红喜, 亢福仁, 王成社, 等. 大穗型小麦主要农艺性状配合力分析[J]. 西北农业学报, 2000, 9(2):78. |
PANG Hongxi, KANG Furen, WANG Chengshe, et al. Combining Ability Analyses of main Agronomic Characters in Big-spike Wheat[J]. Acta Agriculturce Boreali-occidentalis Sinica, 2000, 9(2):78. | |
[23] | 刘新月, 裴磊, 董双全, 等. 冬小麦种质材料主要农艺性状研究[J]. 中国农学通报, 2012, 28(33):18-24. |
LIU Xinyue, PEI Lei, DONG Shuangquan, et al. Research of Agronomic Trait for Winter Wheat[J]. Chinese Agricultural Science Bulletin, 2012, 28(33):18-24. | |
[24] | 王光禄, 刘志宏, 程倩倩, 等. 94份国外小麦种质材料的主要农艺性状分析[J]. 麦类作物学报, 2016, 36(5):577-582. |
WANG Guanglu, LIU Zhihong, CHENG Qianqian, et al. Analysis on Main Agronomic Characters of 94 Foreign Wheat Germplasms[J]. Journal of Triticeae Crops, 2016, 36(5):577-582. | |
[25] | 薛志伟, 杨春玲. 安麦1132农艺性状及产量的相关性和主成分分析[J]. 作物研究, 2020, 34(5):414-418. |
XUE Zhiwei, YANG Chunling. Correlation and Principal Componet Analysis of Agronomic Traits and Yield of Anmai1132[J]. Crop Research, 2020, 34(5):414-418. | |
[26] | 张丽英, 张正斌, 徐萍, 等. 黄淮小麦农艺性状进化及对产量性状调控机理的分析[J]. 中国农业科学, 2014, 47(5):1018-1028. |
ZHANG Liying, ZHANG Zhengbin, XU Ping, et al. Evolution of Agronomic Traits of Wheat andAnalysis of the Mechanism of Agronomic Traits Controlling the Yield Traits in the Huang-Huai Plain[J]. Scientia Agricultura Sinica, 2014, 47(5):1018-1028. | |
[27] | 李素, 姜鸿明, 宫德衬, 等. 48份冬小麦主要田间农艺性状的主成分分析及抗旱性综合评价[J]. 山东农业科学, 2014, 46(7):25-30. |
LI Su, JIANG Hongming, GONG Dechen, et al. Principal Component Analysis of Primary Agronomic Characters and Comprehensive Evaluation on Drought Resistance of 48 Winter Wheat Cultivars[J]. Shangdong Agricultural Sciences, 2014, 46(7):25-30. | |
[28] | 董攀, 李伟, 郑有良. 波兰小麦主要农艺性状分析[J]. 麦类作物学报, 2007, 27(2):216-222. |
DONG Pan, LI Wei, ZHENG Youliang. Analysis on the Agronomic Traits of Triticum polonicum L[J]. Journal of Triticeae Crops, 2007, 27(2):216-222. | |
[29] | 朱晓平, 郑新疆, 管利军, 等. 哈密地区春小麦品种(系)主要性状的主成分分析[J]. 安徽农学通报, 2017, 23(15):31-32. |
ZHU Xiaoping, ZHENG Xinjiang, GUAN Lijun, et al. Principal Component Analysis of the Main Agronomic Traits of Spring Wheat Strains in Hami[J]Anhui Agricultural Science Bulletin, 2017, 23(15): 31-32. |
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