作物杂志,2022, 第1期: 56–64 doi: 10.16035/j.issn.1001-7283.2022.01.008

• 遗传育种·种质资源·生物技术 • 上一篇    下一篇

人工合成六倍体小麦在黄淮麦区育种中的利用性评价

宋全昊1,2(), 金艳1(), 宋佳静1, 白冬1, 赵立尚1, 陈杰1, 朱统泉1   

  1. 1驻马店市农业科学院,463000,中国河南驻马店
    2国际玉米小麦改良中心,6-641 06600,墨西哥埃尔巴丹
  • 收稿日期:2021-03-30 修回日期:2021-05-07 出版日期:2022-01-14 发布日期:2022-02-16
  • 通讯作者: 金艳
  • 作者简介:宋全昊,主要从事小麦育种和栽培技术研究,E-mail:songmanl. 2005@163.com
  • 基金资助:
    国家现代农业产业技术体系建设专项(CARS-03)

Evaluation the Breeding Utilizability of Synthetic Hexaploid Wheat in Huang-Huai Area

Song Quanhao1,2(), Jin Yan1(), Song Jiajing1, Bai Dong1, Zhao Lishang1, Chen Jie1, Zhu Tongquan1   

  1. 1Zhumadian Academy of Agricultural Sciences, Zhumadian 463000, Henan, China
    2International Maize and Wheat Improvement Center, 6-641 06600 El Batan, Mexico
  • Received:2021-03-30 Revised:2021-05-07 Online:2022-01-14 Published:2022-02-16
  • Contact: Jin Yan

摘要:

为了解人工合成六倍体小麦(synthetic hexaploid wheat,SHW)在黄淮麦区育种改良中的应用价值,利用从国际玉米小麦改良中心引进的5份SHW与普通小麦驻麦305进行杂交、回交,对亲本及BC2群体的主要农艺性状、产量相关指标和籽粒品质进行调查分析。结果表明,与普通小麦相比,SHW的株高、小穗数、穗粒数、收获系数和千粒重等是其不利性状,但具有较多的分蘖。SHW的纤维含量、面筋含量、蛋白含量和硬度都比驻麦305高(PAAAAA0.05)。BC2的收获系数较SHW显著提升,其产量虽然比SHW有了较大幅度提升,但仍显著低于普通小麦。BC2的蛋白质和面筋含量相对于普通小麦亲本显著提升,其中仅2018-2019年的BC2-SHW1和BC2-SHW2群体未达显著水平。这表明5份SHW可作为重要的品质改良资源应用于小麦育种中。

关键词: 人工合成六倍体小麦, 回交群体, 农艺性状, 产量, 品质

Abstract:

To reveal the application value of synthetic hexaploid wheat (SHW) in breeding program in Huang-Huai area, five SHWs introduced from the International Maize and Wheat Improvement Center were used to backcross with common wheat Zhumai 305, main agronomic traits, yield relative traits and grain quality were investigated in the parents and BC2 populations. The results showed that plant height, spikelet number, grain number per spike, harvest index and 1000-seed weight were unfavorable traits for SHW compared with common wheat, but SHW produced more tillers. The fibre content, gluten content, protein content and hardness of SHW were higher than those of Zhumai 305 (P > 0.05). The harvest index of BC2 was significantly higher than that of SHW, the yield of BC2 was significantly lower than that of common wheat, while significantly higher than that of SHW. The protein and gluten contents of BC2 were significantly increased compared with those of common wheat parent, and only BC2-SHW1 and BC2-SHW2 populations of 2018-2019 did not reach the significant level. These results indicated that the five SHWs could be used as important quality improvement germplasms in wheat breeding program.

Key words: Synthetic hexaploid wheat, Backcross population, Agronomic traits, Yield, Quality

表1

普通小麦驻麦305、SHW及回交群体的农艺及品质性状

性状
Trait
驻麦305
Zhumai 305
SHW 回交群体
Backcross population
最小值
Min.
最大值
Max.
均值
Average
最小值
Min.
最大值
Max.
均值
Average
最小值
Min.
最大值
Max.
均值
Average
株高Plant height (cm) 74.82 76.37 75.64 101.09 118.41 110.71 83.26 92.26 86.87
穗下节长Length of the first internode under spike (cm) 25.10 26.84 26.09 39.36 50.86 44.79 27.63 34.09 29.80
穗下茎长Distance from spike to flag leaf ligule (cm) 7.85 8.36 8.08 20.26 30.71 26.58 9.27 12.81 10.95
穗长Spike length (cm) 10.44 10.81 10.68 12.66 14.77 13.80 10.57 11.79 11.05
旗叶长Flag leaf length (cm) 17.98 18.53 18.26 19.50 27.18 24.37 18.31 22.28 20.06
小穗数Spikelet number 19.10 22.14 20.21 14.17 17.37 16.06 16.04 22.23 18.61
穗粒数Grains per spike 48.90 52.40 50.33 28.40 34.20 31.84 33.30 41.50 36.98
单株分蘖Tillers per plant 6.10 6.40 6.30 7.50 10.60 8.57 6.40 7.80 6.98
单株不育小穗数Sterile spikelets per plant 0.80 1.10 0.97 1.60 3.20 2.33 1.10 2.20 1.83
生物量Biomass (g) 153.34 169.92 163.49 179.25 329.61 258.22 140.97 280.88 194.94
收获系数Harvest index 0.45 0.48 0.46 0.15 0.26 0.21 0.25 0.42 0.32
千粒重1000-seed weight (g) 47.22 47.89 47.63 38.93 45.95 41.76 41.85 46.83 43.69
产量Yield (g) 71.71 77.75 75.49 40.58 63.96 51.84 52.24 69.70 62.23
水分含量Moisture content (%) 10.43 10.67 10.55 10.83 11.65 11.15 10.45 11.20 10.78
蛋白质含量Protein content (%) 13.66 13.89 13.77 15.10 17.80 15.92 13.46 16.22 14.62
面筋含量Gulten content (%) 65.96 68.55 67.55 59.06 63.09 61.73 61.22 65.06 63.26
淀粉含量Starch content (%) 2.92 2.99 2.95 3.31 3.48 3.40 3.11 3.41 3.25
纤维含量Fibre content (%) 31.21 31.93 31.62 36.26 44.84 39.18 32.13 39.62 35.78
硬度Hardness 30.46 31.26 30.73 49.58 58.56 53.94 36.43 48.59 42.43
SDS沉降值SDS sedimentation value (mL) 30.05 32.55 31.35 17.50 24.29 20.68 23.15 30.22 27.33
Zeleny沉降值Zeleny sedimentation value (mL) 45.80 54.59 50.20 68.10 91.20 78.85 57.66 76.37 68.39

表2

普通小麦驻麦305、SHW及回交群体的农艺性状比较

群体
Population
年份
Year
材料
Material
株高
Plant height
(cm)
穗下节长
Length of the first
internode under spike (cm)
穗下茎长
Distance from spike to
flag leaf ligule (cm)
穗长
Spike length
(cm)
旗叶长
Flag leaf
length (cm)
生物量
Biomass
(g)
1 2018-2019 驻麦305 76.20±0.21c 26.40±0.55c 8.19±0.29c 10.78±0.05b 18.19±0.19b 163.70±7.10a
SHW1 114.17±0.75a 50.01±0.84a 29.65±0.36a 14.57±0.21a 25.84±1.27a 186.46±8.46a
BC2-SHW1 88.49±0.98b 33.52±0.50b 10.10±0.72b 11.03±0.33b 19.49±0.42b 163.37±20.41a
2019-2020 驻麦305 75.07±0.32c 25.77±0.62c 7.97±0.09c 10.57±0.14b 18.32±0.23c 163.28±8.77a
SHW1 116.63±0.78a 48.24±1.90a 29.99±0.63a 14.52±0.21a 25.23±0.99a 248.09±55.87a
BC2-SHW1 88.57±0.70b 32.41±0.31b 10.35±0.17b 10.81±0.15b 19.45±0.63b 214.07±25.32a
2 2018-2019 驻麦305 76.20±0.21c 26.40±0.55c 8.19±0.29c 10.78±0.05b 18.19±0.19c 163.70±7.10b
SHW2 106.89±2.95a 46.81±0.14a 28.61±0.50a 13.41±0.34a 25.30±0.42a 297.23±21.98a
BC2-SHW2 86.35±1.27b 28.88±0.96b 10.93±0.12b 11.00±0.27b 19.33±0.57b 185.71±18.66b
2019-2020 驻麦305 75.07±0.32c 25.77±0.62c 7.97±0.09c 10.57±0.14b 18.32±0.23c 163.28±8.77c
SHW2 106.88±1.69a 44.24±0.33a 26.88±0.30a 13.50±0.29a 24.97±1.23a 308.29±8.99a
BC2-SHW2 85.41±1.02b 28.88±0.53b 10.72±0.19b 10.88±0.32b 20.20±0.23b 230.41±23.79b
3 2018-2019 驻麦305 76.20±0.21c 26.40±0.55c 8.19±0.29c 10.78±0.05b 18.19±0.19c 163.70±7.10b
SHW3 108.44±5.79a 44.59±0.51a 25.40±0.77a 14.37±0.36a 25.21±0.21a 249.13±59.70a
BC2-SHW3 85.51±1.31b 29.68±0.27b 11.07±0.19b 11.35±0.39b 21.16±0.32b 193.16±28.56ab
2019-2020 驻麦305 75.07±0.32c 25.77±0.62c 7.97±0.09c 10.57±0.14b 18.32±0.23c 163.28±8.77b
SHW3 111.10±0.76a 45.75±0.20a 25.46±1.20a 14.05±0.43a 25.25±0.59a 251.53±50.81a
BC2-SHW3 85.49±1.60b 31.51±0.34b 10.68±0.21b 10.78±0.16b 21.04±0.28b 194.82±24.25ab
4 2018-2019 驻麦305 76.20±0.21c 26.40±0.55c 8.19±0.29c 10.78±0.05b 18.19±0.19b 163.70±7.10b
SHW4 102.97±1.64a 40.01±0.67a 21.14±0.19a 12.92±0.12a 21.77±2.06a 240.39±15.56a
BC2-SHW4 85.55±2.10b 28.41±0.43b 10.56±0.31b 11.08±0.31b 19.59±0.67ab 173.63±25.92b
2019-2020 驻麦305 75.07±0.32c 25.77±0.62c 7.97±0.09c 10.57±0.14b 18.32±0.23b 163.28±8.77a
SHW4 107.91±1.15a 39.80±0.13a 20.80±0.57a 12.82±0.20a 23.49±1.71a 231.58±35.35a
BC2-SHW4 86.24±1.70b 27.78±0.23b 10.16±0.36b 10.71±0.20b 19.65±0.88b 175.86±23.11a
5 2018-2019 驻麦305 76.20±0.21c 26.40±0.55c 8.19±0.29c 10.78±0.05c 18.19±0.19b 163.70±7.10b
SHW5 116.76±2.23a 43.59±0.51a 29.00±1.45a 13.85±0.18a 23.26±0.85a 250.42±49.97a
BC2-SHW5 87.34±1.52b 28.76±0.70b 12.47±0.30b 11.45±0.17b 18.75±0.52b 189.33±29.86ab
2019-2020 驻麦305 75.07±0.32c 25.77±0.62c 7.97±0.09c 10.57±0.14c 18.32±0.23c 163.28±8.77b
SHW5 115.36±1.90a 44.86±0.40a 28.84±0.15a 13.98±0.20a 23.39±0.53a 319.10±17.15a
BC2-SHW5 89.71±3.38b 28.15±0.56b 12.50±0.35b 11.43±0.25b 21.90±0.34b 229.03±47.34b

表3

普通小麦驻麦305、SHW及回交群体的产量相关性状比较

群体
Population
年份
Year
材料
Material
单株分蘖数
Tillers
per plant
小穗数
Spikelet
number
穗粒数
Grains
per spike
单株不育小穗数
Sterile spikelets
per plant
千粒重
1000-seed
weight (g)
收获系数
Harvest
index
产量
Yield
(g)
1 2018-2019 驻麦305 6.23±0.15b 20.93±1.06a 51.63±1.00a 0.93±0.15b 47.63±0.36a 0.47±0.01a 76.22±1.71a
SHW1 8.70±0.79a 16.35±0.96b 28.80±0.35c 2.13±0.31a 41.84±0.06b 0.24±0.01c 44.14±2.56c
BC2-SHW1 7.33±0.15b 18.46±1.2ab 38.47±1.02b 1.87±0.21a 42.33±0.13b 0.34±0.03b 55.73±5.24b
2019-2020 驻麦305 6.37±0.06b 19.49±0.53a 49.03±0.15a 1.00±0.17b 47.63±0.36a 0.46±0.01a 74.76±2.84a
SHW1 8.73±0.85a 15.53±0.46c 31.37±0.45c 2.10±0.44a 41.39±0.67c 0.21±0.03c 51.42±11.12b
BC2-SHW1 6.90±0.26b 17.29±0.17b 37.23±1.06b 1.77±0.12a 43.48±0.21b 0.28±0.02b 60.47±6.16b
2 2018-2019 驻麦305 6.23±0.15c 20.93±1.06a 51.63±1.00a 0.93±0.15b 47.63±0.36a 0.47±0.01a 76.22±1.71a
SHW2 10.03±0.51a 16.58±0.41c 33.07±1.06c 2.00±0.36a 45.80±0.13b 0.18±0.02c 53.75±1.71c
BC2-SHW2 7.50±0.30b 18.60±0.48b 36.60±2.25b 1.87±0.21ab 46.44±0.39b 0.36±0.03b 66.87±2.03b
2019-2020 驻麦305 6.37±0.06b 19.49±0.53a 49.03±0.15a 1.00±0.17b 47.63±0.36a 0.46±0.01a 74.76±2.84a
SHW2 9.30±0.40a 16.84±0.58b 33.37±0.87c 2.30±0.10a 45.73±0.10c 0.18±0.02c 54.76±4.96b
BC2-SHW2 6.60±0.20b 18.27±0.90ab 35.70±0.56b 1.97±0.15a 46.52±0.24b 0.30±0.03b 67.60±1.83a
3 2018-2019 驻麦305 6.23±0.15c 20.93±1.06a 51.63±1.00a 0.93±0.15b 47.63±0.36a 0.47±0.01a 76.22±1.71a
SHW3 8.37±0.31a 15.57±0.98c 31.47±0.21c 2.03±0.32a 41.08±0.19c 0.22±0.04c 52.45±3.72c
BC2-SHW3 7.00±0.35b 18.56±0.73b 35.10±0.60b 1.67±0.31a 44.01±0.21b 0.34±0.07b 64.91±4.15b
2019-2020 驻麦305 6.37±0.06b 19.49±0.53b 49.03±0.15a 1.00±0.17b 47.63±0.36a 0.46±0.01a 74.76±2.84a
SHW3 8.50±0.36a 16.83±0.69c 30.63±1.25c 2.13±0.31a 40.88±0.50c 0.21±0.04c 51.28±1.01c
BC2-SHW3 6.97±0.40b 21.26±0.98a 35.53±1.05b 1.47±0.40b 43.48±0.42b 0.34±0.04b 64.66±0.83b
4 2018-2019 驻麦305 6.23±0.15b 20.93±1.06a 51.63±1.00a 0.93±0.15c 47.63±0.36a 0.47±0.01a 76.22±1.71a
SHW4 7.70±0.17a 16.19±0.10b 32.03±0.75b 2.53±0.25a 40.37±0.24c 0.22±0.01c 52.55±2.64c
BC2-SHW4 6.77±0.38b 18.90±1.52a 34.77±1.45b 1.97±0.21b 43.32±0.35b 0.34±0.04b 58.08±2.12b
2019-2020 驻麦305 6.37±0.06c 19.49±0.53a 49.03±0.15a 1.00±0.17b 47.63±0.36a 0.46±0.01a 74.76±2.84a
SHW4 7.77±0.15a 15.95±0.71b 32.10±1.91c 2.20±0.20a 41.28±0.32c 0.21±0.03c 47.10±5.96c
BC2-SHW4 6.93±0.29b 19.66±1.46a 37.30±1.30b 1.97±0.21a 43.08±0.29b 0.33±0.04b 56.67±2.76b
5 2018-2019 驻麦305 6.23±0.15c 20.93±1.06a 51.63±1.00a 0.93±0.15c 47.63±0.36a 0.47±0.01a 76.22±1.71a
SHW5 8.03±0.23a 14.86±0.61b 33.13±1.50c 3.00±0.26a 40.01±0.06c 0.22±0.04c 54.47±1.14c
BC2-SHW5 6.70±0.20b 16.89±0.73b 39.67±1.63b 1.90±0.20b 42.29±0.52b 0.33±0.03b 62.84±5.65b
2019-2020 驻麦305 6.37±0.06c 19.49±0.53a 49.03±0.15a 1.00±0.17b 47.63±0.36a 0.46±0.01a 74.76±2.84a
SHW5 8.53±0.35a 15.92±0.49c 32.47±1.89c 2.87±0.31a 39.18±0.22c 0.18±0.01c 56.47±2.12b
BC2-SHW5 7.07±0.25b 18.27±0.84b 39.43±1.85b 1.87±0.12b 41.93±0.10b 0.29±0.05b 64.41±4.56b

表4

普通小麦驻麦305、SHW及回交群体的品质性状比较

群体
Population
年份
Year
材料
Material
水分含量
Moisture
content (%)
蛋白质含量
Protein
content (%)
面筋含量
Gulten
content (%)
淀粉含量
Starch
content (%)
纤维含量
Fibre
content (%)
硬度
Hardness
SDS沉降值
SDS sedimentation
value (mL)
Zeleny沉降值
Zeleny sedimentation
value (mL)
1 2018-2019 驻麦305 10.65±0.03b 13.76±0.12b 31.70±0.20c 66.67±0.73a 2.96±0.02c 30.67±0.20c 46.73±1.10b 30.47±0.42a
SHW1 10.99±0.08a 15.21±0.10a 37.07±0.25a 61.96±0.23c 3.35±0.02a 50.00±0.37a 69.25±1.26a 20.54±0.51c
BC2-SHW1 10.96±0.05a 13.97±0.12b 32.39±0.32b 64.89±0.15b 3.21±0.02b 37.17±0.86b 66.15±1.46a 29.13±0.26b
2019-2020 驻麦305 10.46±0.02c 13.78±0.11c 31.53±0.31c 68.42±0.13a 2.93±0.01c 30.80±0.40c 53.66±0.90c 32.22±0.33a
SHW1 10.96±0.05a 15.14±0.06a 36.42±0.21a 62.82±0.18c 3.41±0.03a 50.78±0.58a 69.25±1.26a 19.08±0.35c
BC2-SHW1 10.71±0.14b 14.28±0.11b 33.32±0.30b 64.78±0.22b 3.26±0.01b 44.73±0.49b 58.86±2.03b 27.89±1.11b
2 2018-2019 驻麦305 10.65±0.03b 13.76±0.12b 31.70±0.20c 66.67±0.73a 2.96±0.02c 30.67±0.20c 46.73±1.10c 30.47±0.42a
SHW2 11.56±0.10a 15.77±0.12a 38.13±0.17a 62.66±0.19b 3.44±0.02a 53.98±0.04a 75.32±0.57a 17.79±0.29c
BC2-SHW2 10.75±0.09b 13.62±0.15b 32.64±0.10b 63.47±0.19b 3.13±0.02b 40.27±0.22b 69.92±1.98b 23.65±0.46b
2019-2020 驻麦305 10.46±0.02c 13.78±0.11c 31.53±0.31c 68.42±0.13a 2.93±0.01c 30.80±0.40c 53.66±0.90c 32.22±0.33a
SHW2 11.22±0.04a 15.37±0.05a 37.35±0.13a 62.97±0.11c 3.37±0.02a 56.27±0.27a 76.05±1.72a 19.82±0.36c
BC2-SHW2 10.70±0.11b 14.55±0.12b 34.43±0.10b 63.94±0.14b 3.21±0.02b 38.06±0.27b 67.18±0.47b 24.49±0.21b
3 2018-2019 驻麦305 10.65±0.03c 13.76±0.12c 31.70±0.20b 66.67±0.73a 2.96±0.02c 30.67±0.20c 46.73±1.10c 30.47±0.42a
SHW3 11.26±0.05a 16.12±0.03a 39.10±0.03a 61.61±0.19c 3.32±0.02a 51.95±0.29a 80.26±2.25a 21.99±0.60c
BC2-SHW3 10.81±0.04b 14.11±0.08b 39.07±0.44a 63.27±0.32b 3.25±0.02b 41.39±0.37b 72.70±0.88b 29.87±0.30b
2019-2020 驻麦305 10.46±0.02b 13.78±0.11c 31.53±0.31c 68.42±0.13a 2.93±0.01c 30.80±0.40c 53.66±0.90c 32.22±0.33a
SHW3 11.18±0.02a 16.06±0.06a 39.70±0.13a 60.14±0.18c 3.39±0.02a 52.79±0.21a 86.98±1.78a 21.92±0.10c
BC2-SHW3 10.55±0.09b 15.80±0.14b 38.06±0.04b 62.25±0.08b 3.22±0.01b 41.90±0.57b 75.22±1.05b 28.77±0.45b
4 2018-2019 驻麦305 10.65±0.03b 13.76±0.12c 31.70±0.20c 66.67±0.73a 2.96±0.02c 30.67±0.20c 46.73±1.10c 30.47±0.42a
SHW4 10.89±0.07a 17.70±0.11a 44.61±0.23a 59.31±0.22c 3.45±0.02a 54.44±0.63a 87.10±0.91a 22.38±0.23c
BC2-SHW4 10.72±0.04b 16.12±0.10b 39.46±0.05b 61.51±0.19b 3.39±0.02b 44.42±0.46b 69.81±1.77b 26.38±0.15b
2019-2020 驻麦305 10.46±0.02c 13.78±0.11c 31.53±0.31c 68.42±0.13a 2.93±0.01c 30.80±0.40c 53.66±0.90c 32.22±0.33a
SHW4 10.95±0.08a 16.70±0.09a 44.21±0.22a 60.35±0.19c 3.45±0.02a 57.85±0.81a 89.75±1.30a 24.16±0.12c
BC2-SHW4 10.75±0.09b 14.55±0.08b 39.30±0.30b 61.40±0.29b 3.23±0.02b 44.11±0.22b 66.46±1.35b 27.66±0.60b
5 2018-2019 驻麦305 10.65±0.03c 13.76±0.12c 31.70±0.20c 66.67±0.73a 2.96±0.02c 30.67±0.20c 46.73±1.10c 30.47±0.42a
SHW5 11.22±0.04a 15.35±0.07a 37.35±0.13a 62.97±0.11b 3.39±0.01a 56.27±0.27a 75.85±1.84a 19.28±0.48c
BC2-SHW5 10.81±0.05b 14.55±0.10b 34.09±0.20b 63.28±0.23b 3.28±0.01b 43.93±0.20b 66.89±0.80b 26.52±0.35b
2019-2020 驻麦305 10.46±0.02b 13.78±0.11c 31.53±0.31c 68.42±0.13a 2.93±0.01c 30.80±0.40c 53.66±0.90c 32.22±0.33a
SHW5 11.23±0.17a 15.74±0.08a 37.89±0.23a 62.54±0.14c 3.45±0.03a 55.09±0.38a 78.75±1.05a 19.86±0.54c
BC2-SHW5 11.01±0.18a 14.61±0.14b 35.00±0.18b 63.83±0.18b 3.28±0.01b 48.36±0.37b 70.66±2.29b 28.93±0.09b

表5

SHW与其后代回交群体农艺性状的相关性分析

性状
Trait
穗下节长
Length of the
first internode
under spike
穗下茎长
Distance from
spike to flag
leaf ligule
穗长
Spike
length
旗叶长
Flag
leaf
length
小穗数
Spikelet
number
穗粒数
Grains
per
spike
单株分蘖数
Tillers
per plant
单株不育
小穗数
Sterile spikelets
per plant
生物量
Biomass
收获系数
Harvest
index
千粒重
1000-seed
weight
产量
Yield
株高Plant height 0.94** 0.97** 0.95** 0.85** -0.76** -0.78** 0.76** 0.62** 0.59** -0.81** -0.54** -0.67**
穗下节长
Length of the first
internode under spike
0.96** 0.95** 0.88** -0.69** -0.81** 0.85** 0.48** 0.54** -0.80** -0.40** -0.72**
穗下茎长
Distance from spike
to flag leaf ligule
0.96** 0.88** -0.74** -0.77** 0.84** 0.58** 0.62** -0.83** -0.42** -0.65**
穗长Spike length 0.87** -0.73** -0.79** 0.78** 0.52** 0.55** -0.78** -0.50** -0.67**
旗叶长Flag leaf length -0.55** -0.75** 0.79** 0.36** 0.54** -0.74** -0.29* -0.59**
小穗数Spikelet number 0.52** -0.51** -0.56** -0.48** 0.69** 0.45** 0.52**
穗粒数Grains per spike -0.60** -0.40** -0.32* 0.59** 0.32* 0.64**
单株分蘖数
Tillers per plant
0.33** 0.59** -0.73** -0.08 -0.55**
单株不育小穗数
Sterile spikelets per plant
0.40** -0.49** -0.50** -0.35**
生物量Biomass -0.85** -0.11 -0.08
收获系数Harvest index 0.34** 0.57**
千粒重1000-seed weight 0.47**
[1] 董玉琛. 小麦的基因源. 麦类作物学报, 2000, 20(3):78-81.
[2] 肖静, 田纪春. 小麦(T. aestivum L.)D基因组的研究进展. 分子植物育种, 2008(3):537-541.
[3] Lagudah E S, Appels R, Mcneil D. The Nor-D3 locus of Triticum tauschii:natural variation and genetic linkage to markers on chromosome 5. Genome, 1991, 34:387-395.
doi: 10.1139/g91-060
[4] Talbert L E, Smith L Y, Blake N K. More than one origin of hexaploid wheat is indicated by sequence comparison of low copy DNA. Genome, 1998, 41:402-407.
doi: 10.1139/g98-037
[5] 李俊, 魏会廷, 胡晓蓉, 等. 利用SSR分子标记技术揭示“硬粒小麦—节节麦”人工合成六倍体小麦的遗传差异. 西南农业学报, 2007(2):305-312.
[6] 张颙, 杨武云, 胡晓蓉, 等. 源于硬粒小麦—节节麦人工合成种的高产抗病小麦新品种川麦42主要农艺性状分析. 西南农业学报, 2004, 17(2):141-145.
[7] 廖杰, 魏会廷, 李俊, 等. 川麦42遗传背景中人工合成小麦导入位点的SSR标记检测. 作物学报, 2007, 33(5):703-707.
[8] Mujeeb-Kazi A, Cano S, Rosas V, et al. Registration of five synthetic hexaploid wheat and seven bread wheat lines resistant to wheat spot blotch. Crop Science, 2001, 41:1653-1654.
doi: 10.2135/cropsci2001.4151653x
[9] Mujeeb-Kazi A, Fuentes-Davila G, Villareal R L, et al. Registration of 10 synthetic hexaploid wheat and six bread wheat germplasms resistant to karnal bunt. Crop Science, 2001, 41:1652-1653.
doi: 10.2135/cropsci2001.4151652x
[10] 刘迪, 霍纳新, 张立芳, 等. 人工合成双二倍体小麦白粉病抗性和农艺性状表现. 南方农业学报, 2013, 44(8):1249-1253.
[11] 武小菲, 李洪杰, 王晓鸣, 等. 28份人工合成小麦对禾谷孢囊线虫、纹枯病、条锈病和叶锈病的抗性. 植物遗传资源学报, 2013, 14(6):1221-1226.
[12] 倪中福, 张荣, 梁荣奇, 等. 从CIMMYT引进的人工合成六倍体小麦D染色体组微卫星分子标记的遗传差异. 遗传学报, 2002, 29(6):542-548.
[13] 王亚娟, 王长有, 刘新伦, 等. 人工合成小麦抗病性及其高分子量谷蛋白亚基的鉴定与评价. 华北农学报, 2010, 25(6):122-127.
[14] 伍玲, 朱华忠, 邓丽, 等. 1997-2007年通过四川省区试审定的小麦品种述评. 西南农业学报, 2008, 21(3):562.
[15] 李文才, 李涛, 陈于和, 等. 粗山羊草D组染色体对小麦若干产量性状的影响. 麦类作物学报, 2005, 25(1):26-29.
[16] 王丽敏, 林志珊, 张增艳, 等. 人工合成小麦高分子量谷蛋白亚基组成分析及新亚基的发现. 西南农业学报, 2006, 19(1):1-4.
[17] 胡英考, 辛志勇, 陈孝, 等. 硬粒小麦—粗山羊草双二倍体白粉病抗性的遗传分析与基因推导. 遗传学报, 2001, 28(2):152-157.
[18] 杨林, 李霞, 刘登才, 等. 人工合成多倍体小麦及其供体种的高分子蛋白亚基组成研究. 农业生物技术, 2006, 22(4):44-47.
[19] 王亚娟, 王耀勇, 张德华, 等. 节节麦农艺性状及高分子量谷蛋白亚基遗传多样性研究. 西北植物学报, 2007, 27(10):1967-1972.
[20] 茹振钢, 冯素伟, 李淦. 黄淮麦区小麦品种的高产潜力与实现途径. 中国农业科学, 2015, 48(17):3388-3393.
[21] Liu S, Zhou R, Dong Y, et al. Development,utilization of introgression lines using a synthetic wheat as donor. Theoretical and Applied Genetics, 2006, 112(7):1360-1373.
doi: 10.1007/s00122-006-0238-x
[22] 甘斌杰, 杨赞林, 张少华. “矮败”小麦回交群体若干重要性状的相关分析. 麦类作物学报, 2001, 21(4):18-21.
[23] 满强, 赵慧, 徐萍, 等. 小麦水旱地品种回交二代农艺性状改良效应分析. 中国生态农业学报, 2019, 27(4):61-69.
[24] 陈稳良, 景蕊莲, 刘惠民, 等. 晋麦47背景回交导入系的遗传选择与性状分析. 麦类作物学报, 2009, 29(2):206-211.
[25] Del I A, Rajaram S, Kronstad W E. Agronomic potential of synthetic hexaploid wheat-derived populations. Crop Science, 2001, 41(3):670-676.
doi: 10.2135/cropsci2001.413670x
[26] 宋全昊. 小麦异源种质光合效率评价及其对干旱胁迫的响应. 杨凌:西北农林科技大学, 2017.
[27] 陈雪燕, 王灿国, 程敦公, 等. 小麦加工品质相关贮藏蛋白,基因及其遗传改良研究进展. 植物遗传资源学报, 2018, 19(1):1-9.
[28] 周阳, 何中虎, 张改生, 等. 1BL/1RS易位系在我国小麦育种中的应用. 作物学报, 2004, 30(6):531-535.
[29] 汤永禄, 曾云超, 杨武云, 等. 人工合成小麦与普通小麦的重组近交系主要品质性状的初步研究. 麦类作物学报, 2007, 27(6):974-981.
[30] 蒋进, 蒋云, 王淑荣. 四川省近年育成小麦品种农艺性状和品质性状分析. 麦类作物学报, 2019, 39(6):682-691.
[31] 孙婷. 人工合成小麦遗传改良评价. 成都:四川农业大学, 2010.
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