陆地棉主要农艺与纤维品质性状的双列杂交分析   总被引：3，自引：2，他引：1  

刘艳改  马雄风  周晓箭  张文英  王海风  孟清芹  张文生  裴小雨  周克海  杨代刚 《棉花学报》2014,(1)

本文利用加性-显性与环境互作的遗传模型(ADE模型),分析8个陆地棉亲本及其F1在不同环境下的农艺和纤维品质性状,在估算遗传方差分量、遗传效应的基础上,分析各类性状间的遗传相关性,并预测F1和F2的杂种优势,为棉花杂种优势利用和新品种选育提供了较有价值的信息。研究表明,农艺与纤维品质性状的遗传主要受加性、显性和加性与环境互作效应控制。遗传相关分析表明,皮棉产量与纤维品质性状的显性相关系数值较大,利用杂种优势在早期世代可以得到协同改良,纤维品质性状间易实现协同改良。杂种优势分析表明,F1和F2的皮棉产量均具有显著的超亲优势,纤维品质性状的杂种优势不明显。  相似文献   

持续高温干旱年份陆地棉农艺和产量性状的遗传效应分析     

裴小雨  周晓箭  马雄风  田桂平  王海风  孟清芹  张文生  周克海  刘艳改 《棉花学报》2015,27(2):126-134

本文采用NCⅡ交配设计方法,以9个陆地棉品种(系)配置16个杂交组合,利用加性—显性与环境互作的遗传模型(ADE模型),分析亲本和F1在2013年持续高温干旱条件下望江、九江2个环境下的农艺和产量性状,估算了各项遗传方差分量,分析了性状间各项遗传效应的相关性和各性状的杂种优势。结果表明,农艺和产量性状易受环境条件影响,子棉产量、皮棉产量、单株铃数和铃重的遗传主要受显性效应控制,衣分同时受加性和显性效应控制,子指主要受加性效应控制。遗传相关分析表明,子棉产量和皮棉产量与铃重和衣分呈显性正相关;铃重与衣分呈显性正相关,衣分与子指的加性和显性均为负相关。杂种优势分析表明,中棉所63的铃重、衣分、子指、子棉产量和皮棉产量的群体平均优势达极显著水平,其皮棉产量的杂种优势可以利用至F3。  相似文献   

棉花产量和纤维品质性状的遗传研究   总被引：24，自引：10，他引：14  

杨六六  刘惠民  曹美莲  李朋波  王娇娟  陈耕 《棉花学报》2009,21(3):179-183

 采用8×8不完全双列杂交分析法,对棉花产量因素、纤维品质性状的遗传效应及其遗传相关进行了研究分析,并将遗传相关分解为加性相关和显性相关。结果表明,在棉花产量因素中,皮棉产量和单株结铃数的遗传分别以加性效应、显性效应为主,而加性效应、显性效应对铃重和衣分的控制同等重要。其中,衣分受环境变异的影响最小。所以,在F₂～F₃代进行选择的效果较好;在品质性状中,纤维长度、比强度及麦克隆值的遗传均以加性效应为主,受环境变异影响均较大。棉花产量因素与品质性状之间的相关普遍表现为遗传相关大于表型相关,各性状之间的表型相关、遗传相关及加性相关类似,而显性相关则不同。遗传相关特别是加性相关可以指导选择育种,而显性相关对杂种优势的利用至关重要。  相似文献   

陆地棉F_2纤维品质性状杂种优势的遗传分析   总被引：21，自引：5，他引：21  

吴吉祥  朱军  许馥华  季道藩 《棉花学报》1995,(4)

本研究根据加性─显性与环境互作的遗传模型，分析了陆地棉１０个杂交亲本和２０个Ｆ１五个纤维品质性状的两年试验资料，估算各项遗传方差分量和成对性状间各项遗传效应的相关，预测了不同年份Ｆ２杂种优势的遗传表现。各纤维品质性状主要受加性效应的影响。其中纤维长度、纤维强度和麦克隆值３个性状还受到基因型×环境互作效应的影响。基因型×环境互作效应对纤维整齐度和纤维伸长率两个性状影响均不显著。遗传相关分析表明，杂交后代皮棉产量与纤维长度、纤维整齐度、纤维伸长率和纤维细度间可进行同步改良，皮棉产量与纤维强度同步改良较为困难。杂种早代皮棉产量高的组合其纤维强度也较好。Ｆ２纤维品质性状杂种优势的均值一般较小。此外还分析了组合纤维长度、纤维强度和麦克隆值杂种优势在不同环境中的表现。  相似文献   

转基因抗虫棉纤维品质性状的遗传分析     

沈晓佳  孙玉强  刘芦苇  祝水金 《棉花学报》2009,21(3):163-167

 根据ADAA遗传模型分析了7个转基因抗虫棉亲本、两个非转基因抗虫亲本和36个半双列杂交F1的纤维品质性状的两年资料,估算各项遗传方差和成对性状间的遗传相关性。结果表明,转基因抗虫棉纤维品质的5个性状受加性、显性和上位性的共同控制,其中麦克隆值、2.5%纤维长度和纤维比强度以基因显性效应为主,麦克隆值和纤维整齐度以上位性效应为主。除纤维比强度外,其余4个纤维品质性状都受到环境互作效应的影响,且影响较大。遗传相关分析表明,纤维比强度与2.5%纤维长度的基因型相关和表型值相关达极显著水平,其中加性相关未达显著水平,显性相关达极显著水平。比强度与麦克隆值的基因加性相关也达极显著水平,但表型相关未达显著水平。利用亲本和F₁的资料预测了F₂的基因型值和杂种优势。结果表明,F₂代的麦克隆值、伸长率、2.5%纤维长度、整齐度、纤维比强度的中亲优势分别为1.0%, 8.5%, 0.8%, 0和2.9%, 无超亲优势。  相似文献   

陆地棉机采性状对皮棉产量的遗传贡献分析   总被引：5，自引：0，他引：5  

努斯热提·吾斯曼  喻树迅  范术丽  梅拥军  原日红 《棉花学报》2012,24(1):10-17

 采用加性-显性-加加上位性及其与环境互作的遗传模型（ADAA模型）,对8个陆地棉亲本（其中有6个机采棉品种）及其F₁和F₂的28个组合5个机采性状和单株皮棉产量的新疆阿拉尔和石河子2试点资料,进行了贡献分析。结果表明,5个机采性状对皮棉产量表型值的贡献变化范围为－20%～－14%;在显性贡献中,第一果枝高度对皮棉产量的贡献率最大（CR_D=10%）,其次是节间长度的贡献（CR_D=8%）,而霜前花率对皮棉产量有较大的抑制作用（CR_D=－25%）;霜前花率对皮棉产量的加加上位贡献率最大（CR_AA=86%）,其次是第一果枝节位（CR_AA=24%）。霜前花率在特殊的环境中对皮棉产量表现为很大的显性正向贡献（CR_DE=78%）和加加上位效应抑制作用。不同亲本5个机采性状对其皮棉产量的显性和加加上位效应贡献不同。5个机采性状对不同组合皮棉产量显性效应的贡献较小,霜前花率对皮棉产量的显性效应的贡献在2个地点的表现往往和单株皮棉产量在不同地点表现显性效应的性质（正或负）相一致,并且在5个机采性状中对皮棉产量的显性贡献是最大的。加加上位效应在皮棉产量的遗传中起着很重要的作用,而在8个亲本及其后代各组合的5个机采性状中,霜前花率可作为选择皮棉产量加加上位效应的主选性状。在不同的环境中,皮棉产量加加上位效应的主选机采性状随组合有所不同。  相似文献   

中美几个棉花品种育种应用价值研究     

McCARTY Jack C  WU Ji-xiang  郭香墨 《棉花学报》2005,17(1):47-55

用3个美国陆地棉品种为母本与2个中国品种配制6个杂交组合。5个亲本与其6个杂交组合F2和F3种植在美国密西西比州立大学农业试验站。利用加性 显性 加×加互作遗传模型(ADAA)进行数据分析。结果表明,除了加性和显性效应外,加×加互作效应控制大多数农艺性状和纤维性状。两个中国品种均可用于纤维麦克隆值的改良。品种CR110及Deltapine90(DP90)在纤维长度和强度方面具有较好的一般配合力。与品种DP90的杂交组合可以在较晚世代用于产量的改良。杂交组合Stoneville474(ST474)×CR110可用于在早期提高皮棉产量。除ST474×CR110之外,其它各组合均具有产量改良的潜力。组合Sure Grow747(SG747)×86 1在早期和晚期均比其它组合有较高的纤维强度。考虑到皮棉和纤维品质的基因型值,组合SG747×86 1可用于提高早期和晚期产量的改良且有好的纤维品质。  相似文献   

转基因抗虫棉产量性状的遗传效应及其杂种优势分析   总被引：2，自引：2，他引：2  

刘芦苇  祝水金 《棉花学报》2007,19(1):33-37

采用加性-显性与环境互作的遗传模型,分析了9个亲本和36个F1的皮棉产量、单株铃数、铃重和衣分的两年资料,估算了转基因抗虫棉各项遗传方差和成对性状间各项遗传效应的相关性.结果表明,转基因抗虫棉的产量性状受加性和显性效应共同控制,皮棉产量、铃重和衣分都以基因的显性效应为主,而单株铃数是以加性效应为主,单株铃数和衣分还具有基因与环境互作效应.遗传相关分析表明,转基因抗虫棉的皮棉产量与单株铃数的基因型和表现型相关系数都比较大而且比较接近;皮棉产量与单株铃数、铃重和衣分的加性相关系数都达到极显著水平,而且皮棉产量与单株铃数、衣分的数值比较大.利用亲本和F1的资料预测了F2基因型值和杂种优势,结果表明,转基因抗虫棉F2的皮棉产量、单株铃数、铃重和衣分的群体平均优势分别为4.0%、5.1%、-1.3%和3.2%,群体超亲优势分别为-7.3%、-6.0%、-4.2%和-0.5%.  相似文献   

高品质陆地棉与不同类型品种杂种的遗传及优势分析   总被引：5，自引：2，他引：3  

汤飞宇  程锦  黄文新  肖小红  肖文俊 《棉花学报》2008,20(3):170-173

 比较分析了高品质棉与高品质棉、常规品质转Bt基因抗虫棉杂交组合主要性状的遗传效应和杂种优势。结果表明,两类杂种的子棉产量存在极显著的加性和显性效应;高×高杂种的株铃数和铃重具有极显著的显性效应,高×常抗杂种受加性和显性效应共同控制;两类杂种的纤维品质性状以加性效应为主,但显性效应对纤维长度也起较大作用。高×高杂种的F₁子棉产量和株铃数具有正向超亲优势,高×常抗杂种表现为负向超亲优势;两类杂种的纤维长度和麦克隆值具有较小的正向平均优势,比强度具有负优势。高×高杂种可以在保持亲本良好品质的基础上,利用产量和产量性状的正向超亲优势来提高产量。  相似文献   

优异纤维品质陆地棉与转基因抗虫棉的配合力及遗传效应分析   总被引：3，自引：0，他引：3  

唐文武  黄英金  吴秀兰  肖文俊 《棉花学报》2009,21(5):415-419

 利用10个优异纤维品质陆地棉品种和6个转Bt基因抗虫棉品种配组的10×6 NCII交配设计,对其产量、品质及抗虫性的配合力及遗传效应进行了分析。结果表明：Bt基因能在F₁得到显性遗传。以A₈的产量性状一般配合力最高,A₄的纤维品质性状一般配合力最高;A₇×B₅、A₆×B₁等组合的各性状特殊配合力较好;亲本的一般配合力与组合间特殊配合力不存在显著相关性。遗传效应分析表明,基因加性效应对铃重、衣分、2.5%跨长、比强度、伸长率等性状起主导作用;双亲的互作效应对F1产量性状起重要作用;2.5%跨长、铃重、比强度的狭义遗传力较高,产量性状的狭义遗传力最低。  相似文献   

陆地棉配合力与杂种优势、遗传距离的相关性分析   总被引：6，自引：2，他引：4  

杨代刚  马雄风  周晓箭  张先亮  白凤虎  王海风  孟清芹  裴小雨  喻树迅 《棉花学报》2012,24(3):191-198

 用10个陆地棉亲本进行不完全双列杂交,共配置了45个组合,计算亲本的一般配合力（GCA）、特殊配合力(SCA)、杂种优势,并结合SSR标记研究了陆地棉亲本配合力与杂种优势、遗传距离之间的相关关系。配合力分析发现,10个亲本的一般配合力和特殊配合力存在显著或极显著差异。分析亲本配合力、杂种优势和遗传距离的相关性发现,子棉产量、皮棉产量、衣分的一般配合力和杂种优势呈显著或极显著相关,纤维长度、比强度、麦克隆值、株高、果枝数、单株铃数、铃重、子棉产量、皮棉产量、衣分的特殊配合力和杂种优势均呈极显著正相关,而与遗传距离相关均不显著。单株铃数、铃重、子棉产量、皮棉产量、衣分的杂种优势与遗传距离均为正向显著或极显著相关。在育种实践中这些显著或极显著相关的性状可能具有较高的改良潜力。  相似文献   

光子陆地棉种质资源主要性状的遗传评价     

孙亚莉  何守朴  孙君灵  潘兆娥  贾银华  庞保印  杜雄明 《作物学报》2013,39(7):1309-1318

以102份光子陆地棉材料为母本,分别与遗传标准系TM-1杂交,获得102个F₁群体。采用随机区组设计,设置3个重复,对光子陆地棉材料主要性状进行遗传评价。结果表明,调查的11个性状表型差异均较大,材料间产量性状(株高、果枝数、铃数、铃重、衣分和子指)差异大于纤维品质性状(纤维长度、纤维强度、马克隆值、整齐度和伸长率),特别是衣分、铃数等性状差异更明显; 除果枝数、马克隆值、伸长率以外,光子亲本群体其他性状的平均值都小于F₁群体。而亲本群体所有性状的变异系数均大于F₁,不同光子材料的杂种优势有很大差别,中亲优势和超亲优势也有很大的差别,有些种质某些性状的中亲、超亲优势为负值,其后代性状表现劣势; 纤维品质性状的中亲、超亲优势与毛子程度均呈负相关,而产量性状的中亲、超亲优势与毛子程度均呈正相关,说明可利用光子材料杂种优势改良纤维品质,而其后代产量性状的杂种优势利用受到限制; SSR分子标记遗传相似系数与各个性状的中亲、超亲优势的相关都不显著,说明在光子材料的育种中,杂种优势是不能通过亲本之间的遗传背景相似程度来预测的。  相似文献   

Evaluation of genetic variances, heritabilities, and correlations for yield and fiber traits among cotton F2 hybrid populations   总被引：4，自引：0，他引：4  

Bing Tang  J. N. Jenkins  C. E. Watson  J. C. McCarty  R. G. Creech 《Euphytica》1996,91(3):315-322

Summary F₂ hybrid cultivars continue to occupy a small portion of the cotton (Gossypium hirsutum L.) production are in the United States, but occupy a larger proportion of the production area in some other countries. Sixty-four F₂ hybrids resulting from crosses of four commercial cultivars and 16 pest-resistant germplasm lines were evaluated for five fiber and four yield traits in four environments at Mississippi State, MS. An additive-dominance genetic model was employed for these traits. The minimum norm quadratic unbiased estimation (MINQUE) method was used with a mixed model approach for estimating genetic variance and covariance components and for predicting genetic correlations. This study investigated genetic variances, heritabilities, and genetic and phenotypic correlations between agronomic and fiber traits among these 64 F₂ hybrid populations and discussed the usefulness of these populations for use as hybrids or for selections for pure lines.Dominance variance accounted for the major proportion of the phenotypic variances for lint yield, lint percentage, and boll size indicating that hybrids should have an advantage for these traits compared to pure lines. A low proportion of additive variance for fiber traits and the significant additive x environment variance components indicated a lack of substantial useful additive genetic variability for fiber traits. This suggests that selections for pure lines within these F₂ populations would have limited success in improving fiber traits. Genetic and phenotypic correlation coefficients were of comparable magnitude for most pairs of characters. Fiber strength showed a positive additive genetic correlation with boll weight. Dominance genetic correlations of fiber strength with elongation and 2.5% span length were also significant and positive; however, the additive genetic correlation of length and strength was zero.Contribution of the USDA-ARS in cooperation with the Mississippi Agric. and Forestry Exp. Stn.  相似文献   

Heterosis,combining ability and genetic effect,and relationship with genetic distance based on a diallel of hybrids from five diverse <Emphasis Type="Italic">Gossypium barbadense</Emphasis> cotton genotypes     

J. F. Zhang  A. Abdelraheem  J. X. Wu 《Euphytica》2017,213(9):208

The cultivated tetraploid Gossypium barbadense L. cotton produces superior natural fibers for the textile industry in the world. However, the possibility in utilization of heterosis to further increase its lint yield has not been extensively explored. In this study, two commercial US Pima cotton cultivars and three exotic G. barbadense lines, together with all of their possible hybrids in F₁ and F₂ progeny without reciprocals, were tested for lint yield, yield components, and fiber quality traits in four environments in 2005–2007. With a few exceptions, genotype (G), environment (E), and G × E were all significant or highly significant for all the traits studied. General combining ability (GCA) variances for all the traits in both F₁ and F₂ were also significant, while specific combining ability (SCA) variances were detected only for lint yield, fiber length, and micronaire in both generations and boll weight in F₁. GCA × E was also detected for lint percent, seed index, and fiber length in both F₁ and F₂, and boll weight in F₁, but none of the traits had significant SCA × E. As a group, F₁ and F₂ out-yielded the parent group by 20–40% and 6–10%, respectively. Mid-parent heterosis (MPH) for lint yield in F₁ was generally positive, ranging from ?4.7 to 116.4% with an average of 21.2–48.7%, while lint yield MPH in F₂ ranged from ?23.3 to 69.4% with an average of 6.4–12.4%. However, useful heterosis in lint yield was only detected in the hybrid between the two US commercial cultivars Pima S-7 and DP 340. MPH for other traits was low or not detected. MPH in F₂ was lower than that in F₁ but they were generally positively correlated. The genetic distances (GD) of the parents (based on 467 polymorphic RAPD and AFLP markers) between the five parents was not consistently correlated with MPH and SCA of their hybrids and dominant effects for lint yield and other traits. However, significant and positive correlations between GD of parents and the performance of their hybrids were detected for lint yield, lint percentage, and lint index in both F₁ and F₂ in most of the tests. GD of parents was also correlated with their GCA and additive effects in lint yield, lint percent, lint index, micronaire, plant height, and elongation. The results suggest that the close correlation between GD and hybrid performance per se was mainly due to the existence of GCA and additive effects from parents.  相似文献   

棉花IF2群体构建及其在纤维品质遗传和杂种优势研究中的应用     

孔广超  秦利  徐海明  祝水金 《作物学报》2010,36(6):940-944

以陆地棉重组自交系RIL为材料,采用RIL系间随机交配的方式构建了一个含有188个组合的IF₂群体。对该群体的棉花纤维品质性状表现进行了评价,并采用A、D遗传模型对其纤维品质性状的遗传效应和杂种优势进行了分析。结果表明,陆地棉IF₂群体中5个纤维品质性状均呈现良好的正态分布,且各性状的表型平均值大多与F₁杂交种相近,具有明显的杂种优势。显性与环境的互作效应是控制棉花纤维品质遗传的主要因素,其次是基因的加性效应,环境因素对于棉花纤维品质的杂种优势表现巨大的影响,两个环境中预测到的杂种优势值具有明显的差异。IF₂群体是棉花数量性状遗传和杂种优势预测的优良研究群体。  相似文献   

转Bt抗虫棉与常规棉品种间配合力分析及杂种优势研究   总被引：4，自引：1，他引：3  

陈于和  秦素平  张志雯 《棉花学报》2009,21(1):77-80

 利用6个抗虫棉品种作母本,4个常规品种作父本,按NCⅡ设计,对24个组合的杂种F₁进行了分析。结果表明,杂种F₁具有明显的优势,所研究的13个性状全部具有中亲优势,9个性状具有高亲优势,11个性状具有竞争优势。配合力分析的10个性状中单株铃数、铃重、纤维长度、纤维伸长率和麦克隆值主要受基因的加性效应控制,而子棉产量和皮棉产量主要受基因的非加性效应影响。鲁棉研17是优良的抗虫棉亲本,而冀棉12 是良好的非抗虫棉亲本,组合鲁棉研17×中棉所12在重要农艺性状上优势明显,相对而言纤维品质的改良较难。  相似文献   

Genetic effects and genetic values of fiber properties in F2 and F3 hybrids between germplasm lines and high yield cultivars     

Linghe Zeng  Jixiang Wu  Efrem Bechere 《Euphytica》2013,190(3):459-469

Utilization of cotton (Gossypium hirsutum L.) germplasm for genetic improvement of fiber properties requires determination of genetic effects in the germplasm lines. A study was designed to analyze genetic populations derived from multiple crosses between nine germplasm lines as male parents and five cultivars and elite breeding lines as female parents to determine genetic values of fiber properties. Parents and F₂ populations were planted at 2 field sites in 2010 and 2011 with 4 and 3 replicates, respectively, and parents and F₃ populations were planted at 2 field sites in 2011 with 3 replicates. Lint yield and seven fiber properties were analyzed by an additive and dominant model with genotype by environment interaction effects. Significant additive and dominant effects were identified for both lint yield and fiber properties. Germplasm lines JC60, JC65, JC186, and SP205 were good general combiners for micronaire, elongation, strength, 50 % span length, short fiber content, and fineness. Six to fifteen crosses were detected with favorable heterozygous dominant effects for lint yield and diverse fiber traits, which suggest useful heterosis of these hybrids. Favorable additive correlations were identified between fiber properties such as micronaire versus 50 % span length (?0.57), micronaire versus fineness (0.82), strength versus 50 % span length (0.54), strength versus short fiber content (?0.69), and 50 % span length versus short fiber content (?0.78) while unfavorable additive correlations were not identified among fiber properties. These results indicated potential of simultaneous genetic improvement for these multiple properties in breeding populations derived from these germplasm lines.  相似文献   

Analysis of decision-making coefficients of three main fiber quality traits for upland cotton (Gossypium hirsutum L.)     

Yongjun Mei  Wenming Hu  Shuli Fan  Meizhen Song  Chaoyou Pang  Shuxun Yu 《Euphytica》2013,194(1):25-40

The analysis of genetic correlations between fiber length (Len), strength (Str), micronaire, and 12 other traits was conducted using the additive (A)-dominance (D) genetic model, which considers genotype × environment interaction effects, in intraspecific upland cotton (Gossypium hirsutum L.) hybrids to effectively improve the quality of cotton cultivars in high planting density cases. Decision-making coefficients were computed based on the genetic correlation and path analysis of three fiber quality traits. The decision-making coefficient analysis of three fiber traits in cross breeding was beneficial for the improvement of Len by increasing the additive effects of Str and length of boll (LB) and decreasing lint percentage (LP), boll number of the top three fruit-bearing branches. The analysis was also beneficial for the improvement of Str and fiber fineness by increasing or decreasing the additive effects of other traits. Utilizing heterosis in hybrids was beneficial to the heterosis of Len by selecting the high dominance effects of number of nodes of the 1st fruit-bearing branch and LB and decreasing the dominance effects of diameter of boll (DB) and LP and for improving Str by increasing the dominance effects of DB and decreasing the dominance effects of number of fruit-bearing branches and number of nodes of the main stem (NNMS). Utilizing heterosis was also beneficial for improving fineness by increasing the dominance effects of LB, Str, and lint yield and decreasing the dominance effects of NNMS and Len.  相似文献