春大豆主要农艺性状方差分析及相关分析的研究

对引进的9份大豆优良种的11个主要农艺性状进行方差分析，对15个主要农艺性状进行相关分析，研究结果表明：（1）主要农艺性状中的茎粗、单株粒重经方差分析达显著水平，株高、底荚高度、主茎节数、主茎分枝数、单株总荚数、秕荚数、每荚粒数、百粒重等性状经方差分析达极显著水平；（2）主要农艺性状的变异系数大小依次为秕荚数、主茎分枝数、单株荚数、单株粒数、单株产量、底荚高度、每荚粒数、百粒重、株高、茎粗、产量、主茎节数、出苗至开花、开花至成熟、生育期；（3）产量与生育期、秕荚数呈显著正相关，与株高、底荚高度、主茎分枝数、单株产量、每荚粒数、百粒重、开花至成熟的天数呈正相关，与茎粗、主茎节数、单株荚数、单株粒数、出苗至开花的天数呈负相关。因此，要增加产量，首先应考虑百粒重大、单株生产力潜力大的品种，其次考虑底荚高度较低，每荚粒数较多的品种。     

利用高密度SNP芯片精确定位长豇豆耐早衰性QTLs

早衰性是长豇豆的一个重要不利农艺性状。由于嫩荚是长豇豆最主要的商品器官,植株早衰容易影响后期结荚数,导致豆荚产量下降,给种植者带来经济损失。本研究以长豇豆品系ZN016和ZJ282杂交构建的一个含119个株系的扩大重组自交系(F6:8代)群体为材料,利用由豇豆60K高密度SNP芯片构建的含8 032个SNP位点的高密度分子遗传图谱对长豇豆耐早衰性状进行QTL精确定位,最终将长豇豆耐早衰性状的主效QTL定位在LG11上约0.424 c M的区间内。与早期对同一性状QTL定位结果相比证实了本实验室前期的粗定位结果,并且本次QTL定位精度明显提高,大幅度缩小了侧翼标记间的距离。本研究为今后针对耐早衰性这一农艺性状的分子标记辅助育种、基因克隆提供了基础。     

大豆主要性状演化的初步研究

本文概述了从野生大豆进化到栽培大豆各个性状演化趋势。进化程度以产量性状最大;三种类型中以半野生型变异最大;各性状变异情况以荚大小、每荚粒数、全生育期变化最小,而单株荚数、粒数及粒重变异最大;从各性状相关分析看出:三种类型相关性均相似,其相关值大小可顺序排列为叶面积—叶宽>产量性状>全生育期—出苗到开花日数>植株性状。     

绿豆单株产量与主要农艺性状的灰色关联度分析

为探讨绿豆主要农艺性状对单株产量影响的主次关系，以15 个绿豆品种为试验材料，采用灰色关联度分析法，对绿豆7 个农艺性状与单株产量的关联度进行统计分析。结果表明：各性状因子与单株产量的关联度由高到低排序为单株荚数、株高、主茎节数、百粒重、单荚粒数、主茎分枝、生育期。因此，在山西高产绿豆新品种选育时，应首先注重单株荚数和株高。     

大豆杂种一代优势及其与亲本关系的研究

大豆品种间杂种优势是普遍存在的,不同性状有明显差异。在研究的19个性状中,单株粒重的平均优势最强,其次是叶柄干重。并按如下顺序递减:单株荚数,单株粒数,叶面积系数,单株根干重,总干重,叶片干重,分枝数,侧根数,主茎干重,株高,百粒重,经济系数,主茎节数,出苗-开花日数。开花-成熟日数和单位叶面积干重表现为低于双亲平均值     

我国食荚菜豆和长豇豆资源的搜集和利用

食荚菜豆Phaseolus vulgaris L. var. chinensis和长豇豆Vigna unguiculata ssp. sesquipedalis(L) Verdc。分布广,是较为重要的蔬菜。根据其形态特征,可将它们分为若干类型;根据嫩荚的形状和颜色把菜豆分为6个品种群,即花荚群、圆棍荚群、肉豆荚群、扁条美群、黄荚群、紫荚群。长豇豆也可分为6个品种群,即绿荚群、浅绿荚群、绿白荚群、紫荚群、花荚群、盘曲条荚群。介绍了菜豆和长豇豆的利用情况。     

南通扁豆品种主要农艺性状的相关性和通径分析

对16个南通地方扁豆品种的10个主要农艺性状进行相关性分析及通径分析。结果表明,小区产量的变异系数较大,达到44.62%,而始收天数性状的变异系数仅为3.15%;百荚重与荚长等4对性状间呈极显著相关,7个性状与小区产量呈正相关;每荚粒数对小区产量的直接通径系数最大（P＝0.7054）,因此对每荚粒数进行直接选择是扁豆高产育种的有效方法;荚宽对小区产量的负向直接作用最大（P＝-0.5299）,因此在育种过程中选择荚宽较小的品种有利于获得高产,但荚宽过小会降低每荚粒数,从而影响产量性状。     

绿豆品种的灰色关联度分析及综合评价

采用灰色关联度分析法对9个绿豆品种的7个农艺性状进行综合评价,结果表明:吉绿6号、辽绿6号、大鹦哥绿935综合表现最好,等权关联度与加权关联度的分析结果基本一致。不同农艺性状对小区产量的关联度不同,6个农艺性状与小区产量的关联度排序为:单株粒重>百粒重>单株荚数>单荚粒数>荚长>株高。     

绿豆品种农艺性状与产量的相关性及灰色关联度分析

采用相关分析和灰色关联度分析相结合的方法,对28个绿豆品种(系)农艺性状与产量的关系进行综合评价,研究绿豆品种农艺性状与产量的关系.结果表明,生育期、株高、主茎节数、单株荚数与产量呈显著正相关;不同农艺性状与产量的关联度依次为单株荚数>荚粒数>百粒重>主茎节数>主茎分枝>荚长>生育期>株高.2种分析方法均表明,单株荚数...     

福建省近年来育成春大豆品种农艺性状的遗传变异、相关性及主成分分析

对福建省11个春大豆品种的10个农艺性状进行了遗传变异分析、相关性分析和主成分分析。结果表明,大豆有效分枝数、主茎节数、单株荚数、单株粒数和单株粒重等变异系数较大;单株粒重与有效分枝数和单株荚数呈显著相关。主成分分析表明,前3个主成分,其累积贡献率为83.78%,分别为荚粒性状因子、产量性状因子和株型性状因子。     

Plant character correlations and path analysis of pod yield in okra (Abelmoschus esculentus)

Summary Genotypic, phenotypic and environmental correlation coefficients were calculated for fifteen characters during two growing seasons. Correlation coefficients varie between seasons. Edible pod weight, edible pod length, edible pod width, number of seeds per plant, weight of 100 seeds, length of mature pods and number of branches per plant showed significant genotypic correlation with pod yield per plant; only number of branches per plant, edible pod length and weight of 100 seeds were phenotypically correlated with pod yield. Environmental correlation coefficients were generally low but edible pod length, final plant height and edible pod weight showed significant environmental correlation with pod yield during the two seasons.The genotypic correlation coefficients of selected eight characters with pod yield were partitioned into direct and indirect causes. In the early seasons, edible pod weight had the largest positive direct effect on pod yield with its largest indirect effect through reduction in edible pod width. Edible pod width which was highly correlated with pod yield had a negative direct effect on pod yield. In the late season, edible pod weight had the largest direct effect on pod yield, with large indirect effects through reduction in number of days to flowering and number of pods per plant. Number of days to flowering had a large direct effect on pod yield with its largest indirect effect through reduction in edible pod weight. The residual factors during the two seasons were negative. The study indicated that only number of branches per plant, edible pod length and weight of 100 seeds would be useful for indirect selection for pod yield. The path analysis indicated that edible pod weight was the most reliable and effective character to select for when high yield is the objective.     

Early Generation Selection for Grain Yield in Narrow-Leaf Lupin (Lupinus angustifolius L.)

Experiments were conducted with early segregating generations of a selected narrow-leaf lupin cross to determine the effectiveness of selection for yield based on alternative criteria. F2 plants were selected on the basis of seed yield and several other yield-related characters to generate separate F3 populations. Randomly selected plants from each population were grown over the summer (off-season) in a glasshouse to generate F4 populations. Analyses of relationships between F2 plant measurements and F3 progeny mean yields revealed significant correlations only for those characters with the highest heritabilities - flowering time, 100 seed weight and harvest index. However, selection for the earliest flowering F2 plants followed by selection within this group of plants with the highest number of pod bearing branches would result in the greatest increase in F3 mean yield. The F2-derived F4 populations with the highest seed yields were those obtained by selection for total plant dry weight, number of pod bearing branches and number of pods per plant. Improvement in commercial crop yield should therefore be obtained through selection in early generations for those characters contributing to the greatest number of pods per unit area. A scheme involving selection for early flowering and high number of pod bearing branches in the F2 combined with replicated yield tests in the F4 is proposed.     

豇豆种质资源农艺性状的相关性、主成分及聚类分析

为给豇豆育种中品种资源的合理利用提供依据,对41份豇豆品种资源15项主要农艺性状进行相关性、主成分和聚类分析。结果表明,枯萎病发生程度的变异系数最大,与豇豆产量关系密切的单荚重和单株嫩荚数2个农艺性状,与株型、嫩荚长、单株花序数和单荚种子粒数都呈现显著正相关,单株嫩荚数与开花期、叶宽和单株分枝数呈现显著负相关。15个主要农艺性状可以归纳为5个主成分,第1主成分包括株型、初花节位、嫩荚长、单荚重、单荚种子粒数、单株花序数、单株嫩荚数和单株分枝数;第2主成分包括开花期、叶长和叶宽;第3主成分包括种皮颜色和嫩荚宽;第4主成分包括嫩荚颜色;第5主成分包括枯萎病发生程度。41份豇豆种质资源在遗传距离为25处分为2大类,在遗传距离为15处分为Ⅰ、Ⅱ、Ⅲ类,其中第Ⅰ类的品种优势明显,具有较好的应用前景。     

亚麻温敏雄性不育系F1、F2的优势分析

通过对以温敏亚麻雄性不育系1S为母本配制的6个杂交组合F1、F2代主要农艺性状和产量性状杂种优势的测定和分析,结果表明：不同杂交组合F1、F2代在株高和工艺长度上的平均优势均表现为负向超父本优势,而各产量性状上的平均优势均表现出很强的正向超父本优势;但与F1代相比,F2代平均优势明显下降。产量性状构成因素平均优势大小顺序为：单株产量＞单株果数＞千粒重＞每果粒数。不同组合间F1、F2代杂种优势表现差异较大,其中1S×黑亚15号组合产量性状的超父本优势最强,F1、F2代均表现出很强的杂种优势。     

Reciprocal cross differences in a 6×6 diallel set of groundnut (Arachis hypogaea L.) in the F1 generation

Summary Reciprocal cross differences were studied in a 6×6 diallel full set comprising of thirty hybrid combinations of groundnut in the F₁ generation.Reciprocal cross differences were observed for growth habit in four pairs of crosses, for leaf colour, flower colour and stem pigmentation in two pairs of crosses each. It was observed that the inheritance of flower colour, stem pigmentation and testa colour which exhibited different shades of purple colour was likely to be governed by pleiotropic gene(s). Among the quantitative characters significantly positive reciprocal effects were observed in different crosses for number of mature pods per plant, weight of pods per plant and shelling percent. Marked reciprocal cross differences were observed for pod and kernel characters like pod filling, pod beak, pod constriction and testa colour.     

与紧凑型小麦品种"莱州3279"正反交F1杂种优势比较

以莱州 32 79为中心亲本 ,与冀东地区 5个基因型不同的冬小麦品种配置正反交组合 ,并对 10个正反交 F1 的产量性状、叶绿素含量及旗叶与茎秆间的夹角进行了对比分析。结果表明 :无论正交还是反交 ,5个产量性状平均中亲杂种优势大小顺序均为 :单株产量 >单株有效穗数 >千粒重 >穗粒数 >每穗结实小穗数。单株产量表现出最强的杂种优势 ,但个别组合优势不明显 ,甚至出现负优势。大部分组合叶绿素含量杂种优势不明显 ,只有 1个组合正反交 F1 叶绿素含量均表现出较强的杂种优势。同一性状的杂种优势某些组合正交高于反交 ,而某些组合反交高于正交。莱州 32 79株型直立紧凑 ,与其他品种配成的正反交 F1 旗叶夹角减小幅度均较大 ,该品种对改良株型有很好的利用价值。杂种优势的表达很复杂 ,不仅与杂种核基因有关 ,核质互作对杂种优势也有很强的影响。     

甘蓝型油菜二系杂交种在不同生态区遗传效应及优势表现

为了探索在不同生态条件下,二系法甘蓝型油菜杂交组合的遗传效应及杂种优势表现。本研究选用6个核背景不同的甘蓝型油菜恢复系作为亲本,根据NCⅡ遗传交配设计配置了36个杂交组合,分别在大荔和张掖两个不同生态区种植,在成熟期对其进行性状调查,采用朱军的ADE模型进行数据分析。结果表明,产量性状不同程度都受到基因的加性、显性、及其与环境互作效应的影响,其中单株角果数和千粒重主要受到加性效应的影响,单株产量和角粒数主要受到显性效应影响;在与环境互作中,单株产量、单株角果数和千粒重的各遗传效应都与环境互作达到了显著性,而角粒数的遗传性相对稳定;农艺性状在基因型与环境互作中有效分枝部位和一次有效分枝数受到环境效应影响较大;在遗传相关性中,单株产量与单株角果数、角粒数和千粒重的表现型相关系数和基因型相关系数均达到了极显著性水平;杂交组合的杂种优势总体表现出F1代优于F2代。此研究结果对二系杂交组合选配有一定的指导意义。     

芝麻杂种优势与配合力效应关系的研究

本文对54个芝麻杂交组合,10个性状的杂种优势与配合力效应关系研究表明:芝麻杂种优势普遍存在,而且超显性优势较强,其优势顺序依次为单株产量>单株蒴数>果轴长>株高,其它性状优势较小.各性状的杂种优势与其特殊配合力效应均呈显著的正相关.杂种优势主要由其特殊配合力效应提供.但某些组合的特殊配合力效应很小,甚至为负值,其杂种优势表现也很明显,这主要是由于亲本一般配合力效应中包括很大部分杂种优势效应.因此,在选配强优组合时,除了考虑组合的特殊配合力效应外,亲本的优势效应也是不可忽视的.     

Analysis of quantitative variability for seed yield and related characters in Lotus corniculatus L. cv. Leo

Summary Quantitative variability for seed yield and six other characters was analysed in Lotus corniculatus L. cv. Leo. The material consisted of 144 polycross progenies and 100 parents.Wide variability existed for all characters. The characters with the greatest variability were seed yield, forage grading and plant height. The polycross progeny test was employed to study the general combining ability of the parents. Highly significant differences existed for all seven characters under study.Parent-offspring genotypic and phenotypic correlations were high and significant for all characters except genotypic correlations for seed yield and seeds per pod. High h² values (broad sense) were obtained for seed size and days to flowering. Traits with moderate to high h² were seed yield (71% in parents, 64% in progenies), plant height, forage grading, and seeds per pod. The character pods per inflorescence had the lowest h².Positive estimates of % MathType!MTEF!2!1!+-% feaafiart1ev1aaatCvAUfeBSjuyZL2yd9gzLbvyNv2CaerbuLwBLn% hiov2DGi1BTfMBaeXatLxBI9gBaerbd9wDYLwzYbItLDharqqtubsr% 4rNCHbGeaGak0dh9WrFfpC0xh9vqqj-hEeeu0xXdbba9frFj0-OqFf% ea0dXdd9vqaq-JfrVkFHe9pgea0dXdar-Jb9hs0dXdbPYxe9vr0-vr% 0-vqpWqaaeaabiGaaiaacaqabeaadaqaaqaaaOqaaiqabo8agaqcaK% aaavaabeqaceaaaeaacaqGYaaabaGaaeiraaaaaaa!3A89!\[{\text{\hat \sigma }}\begin{array}{*{20}c} {\text{2}} \\ {\text{D}} \\ \end{array} \] were obtained only for seed size. The ratio of dominance variance to additive variance indicated partial dominance for this character. Except for seed yield, in all other cases these estimates had very high sampling errors. In all cases except pods per inflorescence and seeds per pod high positive estimates of % MathType!MTEF!2!1!+-% feaafiart1ev1aaatCvAUfeBSjuyZL2yd9gzLbvyNv2CaerbuLwBLn% hiov2DGi1BTfMBaeXatLxBI9gBaerbd9wDYLwzYbItLDharqqtubsr% 4rNCHbGeaGak0dh9WrFfpC0xh9vqqj-hEeeu0xXdbba9frFj0-OqFf% ea0dXdd9vqaq-JfrVkFHe9pgea0dXdar-Jb9hs0dXdbPYxe9vr0-vr% 0-vqpWqaaeaabiGaaiaacaqabeaadaqaaqaaaOqaaiqbeo8aZzaaja% qbaeqabiqaaaqcaauaaiaaikdaaKaaGeaacaqGbbaaaaaa!3B30!\[\hat \sigma \begin{array}{*{20}c} 2 \\ {\text{A}} \\ \end{array} \] were obtained.The data indicated that it may be possible to simultaneously improve seed yield and maintain forage yield. Seed yield had positive and significant associations with seed size, seeds per pod and pods per inflorescence. The associations of days to flowering with forage grading (negative) and with pods per inflorescence (positive) were also significant.     

Heterosis for yield and related characters in pea

Summary To determine the levels of heterosis in F1 hybrids, four current pea (Pisum sativum L.) cultivars from southern Australia were used as female parents and crossed with 18 introduced genotypes. The 22 parents, 72 F1 hybrids and, depending on the environment, either 54 or all 72 F2 families were grown in replicated plots in four environments. Grain yield, total dry matter, harvest index, branches per plant, pods per plant, seeds per pod, hundred seed weight, plant height, onset of flowering and flowering periods were evaluated. For both the F1 and F2 generation, heterosis was determined as the superiority over the mid-parent and also over the better parent. In addition, the superiority over the best commercial cultivar was calculated. Most hybrids were higher yielding than their mid-parent but were less stable in yield across environments. Four F1 hybrids were significantly higher yielding than the best parent, by up to 26%. There were significant correlations between F1 hybrid and mid-parent value for plant height, pods per plant and hundred seed weight but not for yield. Overall, grain yield heterosis was mainly due to more pods per plant in the hybrids. The level of heterosis for yield in a poor yielding environment was higher than that in a high yielding one. Both additive and non-additive gene effects were important in the expression of all studied traits. The average level of heterosis for grain yield and total dry matter in the F2 population was half of that in F1 hybrids. The low level of inbreeding depression from the F1 to the F2 generation suggested that epistatic gene action also contributed to the expression of grain yield. Some F2 populations maintained the high yield levels of the corresponding F1 hybrids.