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几个新选水稻不育系主要农艺性状的配合力及通径分析

邬相宏 张杰 江青山 廖宗永 包灵丰 陈家彬 姜方洪 韩冬 李恒进 赵德明

邬相宏,张杰,江青山,等. 几个新选水稻不育系主要农艺性状的配合力及通径分析 [J]. 福建农业学报,2023,38(4):401−409 doi: 10.19303/j.issn.1008-0384.2023.04.002
引用本文: 邬相宏,张杰,江青山,等. 几个新选水稻不育系主要农艺性状的配合力及通径分析 [J]. 福建农业学报,2023,38(4):401−409 doi: 10.19303/j.issn.1008-0384.2023.04.002
WU X H, ZHANG J, JIANG Q S, et al. Agronomic Trait Combining Abilities and Correlation with Yield of New Male Sterile Rice Lines [J]. Fujian Journal of Agricultural Sciences,2023,38(4):401−409 doi: 10.19303/j.issn.1008-0384.2023.04.002
Citation: WU X H, ZHANG J, JIANG Q S, et al. Agronomic Trait Combining Abilities and Correlation with Yield of New Male Sterile Rice Lines [J]. Fujian Journal of Agricultural Sciences,2023,38(4):401−409 doi: 10.19303/j.issn.1008-0384.2023.04.002

几个新选水稻不育系主要农艺性状的配合力及通径分析

doi: 10.19303/j.issn.1008-0384.2023.04.002
基金项目: 国家现代农业产业技术体系建设专项(CARS-01-96);国家产业技术体系四川省水稻创新团队项目(CXTD-2021-01);四川省科技计划重点研发项目(2021YFYZ0016)
详细信息
    作者简介:

    邬相宏(1994−),男,硕士,研究方向:水稻遗传育种(E-mail:wuxh1994@163.com

    通讯作者:

    赵德明(1965−),男,硕士,研究员,研究方向:水稻遗传育种(E-mail:yixiangseed@163.com

  • 中图分类号: S511

Agronomic Trait Combining Abilities and Correlation with Yield of New Male Sterile Rice Lines

  • 摘要:   目的  探究五良A、酒都A、Z1A和1281A 4个新选水稻不育系主要农艺性状的配合力,同时分析不同农艺性状对产量的影响。  方法  采用6×6 NC Ⅱ遗传设计,利用6个不育系(S)和6个恢复系(R)杂交配组36个组合,对杂交组合的8个农艺性状进行配合力分析、相关及通径分析。  结果  (1)8个农艺性状在不育系或恢复系或两者间的一般配合力方差均达到显著或极显著水平,除株高外其他7个农艺性状的特殊配合力方差均达到显著或极显著水平,说明多数农艺性状受到加性效应和非加性效应共同影响。(2)株高、穗长、千粒重和每穗颖花数等4个性状广义遗传率较高,主要受到遗传的影响,其中株高、穗长和千粒重的狭义遗传率也较高(>70%),三者主要受到基因加性效应的影响,结实率、单株有效穗数和单株产量的狭义遗传率相对较低(<50%),表明这些性状受到基因非加性效应和环境的影响较大。(3)相关分析结果表明,千粒重、穗长、单株有效穗数和结实率与单株产量呈显著或极显著正相关,通径分析结果表明,千粒重、单株有效穗数对单株产量的直接作用达到极显著正相关,农艺性状之间通过相互促进与制约来共同影响单株产量。  结论  4个新选不育系中,五良A、酒都A多数农艺性状的一般配合力和特殊配合力效应较高,具有较好的应用前景;在川南中籼稻区,千粒重和单株有效穗数是影响单株产量的关键因素。
  • 表  1  主要农艺性状的配合力方差分析

    Table  1.   Analysis of variance on combining ability of main agronomic traits

    变异来源
    Source ofvariatioin
    自由度
    df
    株高
    PH
    穗长
    PL
    千粒重
    TGW
    每穗实粒数
    FSP
    每穗颖花数
    SP
    结实率
    SSR
    单株有效穗数
    TP
    单株产量
    GWP
    组合 Combination3518.1665**22.4393**398.3065**10.3568**13.9383**4.5617**5.4225**3.8326**
    恢复系 R 518.5998**4.015**82.6418**9.7716**12.6394**4.9701**3.01*2.4425
    不育系 S 558.4764**19.0802**31.5235**2.7176*1.69817.6693**5.2619**3.9612**
    恢复系×不育系 R×S251.54945.5908**23.3973**4.1453**5.0455**1.8103*2.86**2.3526**
    “*”和 “**”分别表示显著差异(P<0.05)和极显著差异(P<0.01)。df:自由度 。
    * and ** represent significant difference (P <0.05) and extremely significant difference (P <0.01), respectively. df: degrees of freedom.
    下载: 导出CSV

    表  2  不育系农艺性状一般配合力效应值

    Table  2.   GCA of agronomic traits in male sterile rice

    不育系
    S
    株高
    PH
    穗长
    PL
    千粒重
    TGW
    每穗实粒数
    FSP
    每穗颖花数
    SP
    结实率
    SSR
    单株有效穗数
    TP
    单株产量
    GWP
    1A3.45084.28237.457−2.0734−1.6291−0.4184−0.39764.9982
    9A−3.0294−8.9093−3.46974.05231.55522.4747−5.169−4.6277
    A10.66643.1679−4.92661.76511.23990.56767.65414.5002
    A20.47491.15785.425−4.2365−3.7746−0.58962.43543.3596
    A34.41031.8677−1.89782.412.6181−0.1243−3.5288−2.7706
    A4−5.9731−1.5664−2.5879−1.9176−0.0096−1.9099−0.994−5.4598
    下载: 导出CSV

    表  3  杂交组合主要农艺性状的特殊配合力效应值

    Table  3.   SCA of agronomic traits in hybrids

    组合
    Combination
    株高
    PH
    穗长
    PL
    千粒重
    TGW
    每穗实粒数
    FSP
    每穗颖花数
    SP
    结实率
    SSR
    单株有效穗数
    TP
    单株产量
    GWP
    1A×R527−0.42691.4426−0.01921.91383.2788−1.3831.88873.9176
    1A×R7271.6077−2.46211.3994−4.9336−5.63060.77863.3797−0.3813
    1A×R21150.9181.2032−1.51445.47484.60710.85192.93247.4165
    1A×R6139−0.5877−0.88121.05430.023−1.05911.1414−1.839−0.7411
    1A×R2877−1.5482−1.0711−3.35474.5685.1956−0.512−3.9264−2.3636
    1A×R30030.03721.76872.4345−7.046−6.3918−0.8768−2.4354−7.8481
    9A×R5270.48650.46851.0160.0192−0.96091.0925−4.9702−4.2303
    9A×R727−0.55463.7457−1.47611.38162.5558−1.2264−7.0577−7.4304
    9A×R21150.3885−1.133−1.62942.32293.4048−1.1412−5.7157−5.6665
    9A×R6139−0.6333−1.1124−0.901−1.4146−1.0669−0.31644.72172.5039
    9A×R28770.2292−2.04523.8914−8.6839−9.20640.25854.42350.3224
    9A×R30030.08380.0764−0.9016.37475.27361.3338.598414.501
    A1×R527−1.4814−4.1791−2.81794.37853.22291.04091.88873.9722
    A1×R727−0.21863.7045−1.85940.73440.13620.56186.95835.8807
    A1×R21150.14862.88725.3483−6.0131−6.19360.2506−1.5408−2.0713
    A1×R6139−0.5853−2.2433−2.20452.08031.41120.55982.63421.8774
    A1×R28770.4673−0.37771.2077−3.5822−1.8479−1.7042−3.0318−5.9717
    A1×R30031.66960.20840.32592.40223.2713−0.709−6.9085−3.6874
    A2×R5270.34010.3571.3227−3.5353−1.9702−1.54890.8449−1.8464
    A2×R727−1.755−4.241−2.08951.08011.6282−0.4425.01994.6309
    A2×R21151.20691.95031.2077−1.5377−1.97710.692.78332.3272
    A2×R6139−0.20383.90260.7864.53534.16380.4997−5.5666−0.0086
    A2×R28770.08570.5923−2.01287.23984.40982.6686−0.4975.2124
    A2×R30030.3261−2.56110.786−7.7822−6.2545−1.8674−2.5845−10.3156
    A3×R527−0.23450.1424−0.0958−1.5232−3.08961.57420.5467−1.0367
    A3×R727−0.6996−0.56751.78280.05020.3402−0.3680.24852.0091
    A3×R2115−1.0984−0.8647−1.1312.75962.7697−0.15191.59053.0212
    A3×R61391.6206−2.97390.2875−6.0238−5.315−0.80611.2922−4.2689
    A3×R28772.19811.5912−0.21090.13221.8264−1.496−1.6899−2.4022
    A3×R3003−1.78622.6726−0.63264.60493.46831.2478−1.98812.6774
    A4×R5271.31631.76870.5943−1.253−0.481−0.7757−0.1988−0.7765
    A4×R7271.6202−0.17952.24281.68730.97020.696−8.5487−4.7091
    A4×R2115−1.5635−4.0429−2.2812−3.0066−2.6109−0.4995−0.0497−5.0271
    A4×R61390.38953.30820.97760.79981.8661−1.0784−1.24250.6372
    A4×R2877−1.4321.31050.47920.3259−0.37760.78524.72175.2028
    A4×R3003−0.3305−2.1649−2.01281.44640.63320.87245.31814.6727
    下载: 导出CSV

    表  4  主要农艺性状的基因型方差、父母本及其基因互作对F1各性状方差的贡献率和遗传力

    Table  4.   Contributions of genotypic variance of agronomic traits, parents, and gene interactions to trait variance and heritability of F1 hybrids

    项目
    Project
    株高
    PH
    穗长
    PL
    千粒重
    TGW
    每穗实粒数
    FSP
    每穗颖花数
    SP
    结实率
    SSR
    单株有效穗数
    TP
    单株产量
    GWP
    基因型方差 Genotypic variance恢复系 R lines6.20010.26345.727285.9889139.63840.7780.04451.0054
    不育系 S lines20.2481.57982.141216.83798.37521.30690.09432.0639
    互作 R×S0.74950.43050.402944.629357.71580.52630.08632.4042
    贡献率 ContributionVG/%97.2481.0795.1369.7371.9579.8561.6556.07
    Vg1/%22.7911.5969.2458.3167.8829.819.7618.37
    Vg2/%74.4569.4825.8911.424.0750.0541.8937.7
    Vs/%2.7618.934.8730.2728.0520.1538.3543.93
    遗传力 Heritability广义遗传率(hB2)/%86.9288.9999.3577.682.7857.2761.7850.65
    狭义遗传率(hN2)/%84.5272.1494.5154.1159.5645.7238.0928.4
    VG为双亲一般配合力基因型方差占总方差的比重,Vg1为恢复系一般配合力基因型方差占总方差的比重,Vg2为不育系一般配合力基因型方差占总方差的比重,Vs为特殊配合力基因型方差占总方差的比重。
    VG: Proportion of genotype variance of GCA in total variance; Vg1: genotype variance of GCA of restorer lines in total variance; Vg2: genotype variance of GCA of male sterile lines in total variance; Vs: proportion of genotype variance of SCA in total variance.
    下载: 导出CSV

    表  5  供试不育系测交组合F1代主要农艺性状的平均表现

    Table  5.   Average performance of agronomic traits in F1 hybrids of male sterile rice

    组合
    Combination
    株高
    PH/cm
    穗长
    PL/cm
    千粒重
    TGW/g
    每穗实粒数
    FSP
    每穗颖花数
    SP
    结实率
    SSR/%
    单株有效穗数
    TP
    单株产量
    GWP/g
    1A/***119.7428.0731.14157.85188.6083.727.4236.31
    9A/***112.2424.5227.98167.72194.7086.157.0732.98
    A1/***116.5227.7727.55164.03194.1084.558.0236.14
    A2/***116.3027.2330.55154.36184.4883.577.6335.74
    A3/***120.8527.4228.43165.07196.7483.967.1933.62
    A4/***108.8326.5028.23158.10191.7082.467.3832.69
    均值Average115.7526.9228.98161.19191.7284.077.4534.58
    ***代表6个恢复系。
    *** represents 6 restorer lines.
    下载: 导出CSV

    表  6  组合农艺性状间的相关系数

    Table  6.   Correlation coefficients between agronomic traits of hybrids

    农艺性状
    Traits
    株高
    PH
    穗长
    PL
    千粒重
    TGW
    每穗实粒数
    FSP
    每穗颖花数
    SP
    结实率
    SSR
    单株有效穗数
    TP
    单株产量
    GWP
    株高 PH 1
    穗长 PL 0.6243** 1
    千粒重 TGW 0.47** 0.4346** 1
    每穗实粒数 FSP −0.3671* −0.2986 −0.6192** 1
    每穗颖花数 SP −0.3988* −0.2438 −0.7011** 0.963** 1
    结实率 SSR 0.0714 −0.2154 0.2148 0.2781 0.0094 1
    单株有效穗数 TP 0.0955 0.2235 −0.1924 −0.2365 −0.1906 −0.2029 1
    单株产量 GWP 0.315 0.4493** 0.4733** 0.0179 −0.09 0.4007* 0.4111* 1
    *和**分别表示显著差异(P<0.05)和极显著差异(P<0.01)。
    * and ** represent significant difference (P<0.05) and extremely significant difference (P<0.01), respectively.
    下载: 导出CSV

    表  7  各性状与单株产量的直接和间接通径系数

    Table  7.   Direct and indirect path coefficients on traits to yield per plant

    因素
    Factors
    直接系数
    Direct coefficient
    与产量的相关系数
    Correlation coefficient
    with yield
    间接系数 Indirect coefficient
    株高
    PH
    穗长
    PL
    千粒重
    TGW
    每穗实粒数
    FSP
    每穗颖花数
    SP
    结实率
    SSR
    单株有效穗数
    TP
    株高 PH−0.00550.3150.01120.5826−0.2712−0.0950.0080.0849
    穗长 PL0.0180.4493**−0.00340.5388−0.2206−0.0581−0.0240.1987
    千粒重 TGW1.2398**0.4733**−0.00260.0078−0.4575−0.16710.0239−0.1711
    每穗实粒数 FSP0.73880.01790.002−0.0054−0.76770.22950.031−0.2103
    每穗颖花数 SP0.2383−0.090.0022−0.0044−0.86920.71150.001−0.1694
    结实率 SSR0.11140.4007*−0.0004−0.00390.26630.20540.0022−0.1803
    单株有效穗数 TP0.889**0.4111*−0.00050.004−0.2386−0.1748−0.0454−0.0226
    决定系数R2=0.994966,剩余通径系数=0.070952。
    Coefficient of determination, R2=0.994966; residual path coefficient=0.070952.
    下载: 导出CSV
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  • 收稿日期:  2022-03-19
  • 录用日期:  2023-03-15
  • 修回日期:  2022-06-30
  • 网络出版日期:  2023-04-14
  • 刊出日期:  2023-04-28

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