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1.
马尾松纸浆材重要经济性状配合力及杂种优势分析   总被引:13,自引:5,他引:13  
报道了马尾松不同种源优良无性系 6× 6全双列交配的 7a生遗传测定林的分析结果。研究发现 ,树高、胸径和材积生长、干物质积累及木材基本密度等纸浆材主要经济性状的一般配合力 (GCA)和特殊配合力 (SCA)效应极为显著 ,但显性基因效应起主导地位 ,加性基因效应次之。基因上位效应则因性状而异 ,仅对木材基本密度作用显著 ,而对树高、胸径、材积生长和干物质积累作用较小或可忽略。马尾松生长和材质材性指标的遗传控制模式不同于玉米、杉木等研究结果 ,这可能与交配亲本来源于不同地理种源及经过一般配合力间接选择有关。马尾松生长性状普遍存在自交衰退现象 ,一般配合力小的亲本自交衰退程度有增加的倾向。马尾松不同交配组合间的杂种优势差异巨大 ,正反交杂种优势在总体上大致相似。研究虽然发现一般配合力较高的亲本间杂交在材积增加和干物质积累等性状上会产生强杂种优势的倾向 ,却无明显的规律可寻。以干物质指数作为主要筛选指标 ,初选出 8个优良杂交组合  相似文献   

2.
杉木生长性状配合力分析   总被引:9,自引:0,他引:9  
报道了杉木6个优树无性系半双列交配设计在两个试验点造林5.5年的试验结果;在遗传控制方式中,杉木生长同时受一般配合力和特殊配合力控制,特殊配合力效应不低于一般配合力效应;树高,胸径和材积3个生长性状家系的广义遗传0.731-0.801,狭义遗传0.228-0.481;杂种优良只有少量组合具有正向优势,其中材积杂种优势最高达26.06%,亲本配合力效应及组合生长在亲本间,组合间和地点间均存在显著差异  相似文献   

3.
为揭示杉木高世代杂交子代生长与材性性状的遗传效应,选择优良的杂交组合,利用设置在浙江省开化县林场的4×5双因素交叉设计的杉木高世代杂交子代测定林,研究8年生杉木的生长性状、木材基本密度和树干碳含量,估算各性状一般配合力(GCA)/特殊配合力(SCA)效应值及相对重要性,分析遗传控制方式及性状间的相关性。结果表明:杉木树高、胸径、单株材积、木材基本密度、树干碳含量在杂交组合间均差异显著(P<0.05),含碳率在组合间差异不显著。父母本配合力分析显示,树高、胸径、单株材积、树干碳含量的母本效应均大于父本效应,C25-3母本效应最大,B109-3父本效应最大;杂交组合各性状均以加性基因效应控制为主,杉木高世代育种工作仍需注重亲本的选配。性状间相关性分析表明,树干碳含量与生长性状呈显著正相关,按10%的入选率,联合选择出3211和3215两个速生高固碳的杂交组合,单株材积较对照(CK)增加30.91%以上,树干碳含量较CK增加26.95%以上,而木材基本密度与生长性状呈弱相关或负相关,筛选出3218和3216两个木材性状优良的杂交组合,木材基本密度较CK增加2.17%以上。  相似文献   

4.
杉木古树种质与现代优良无性系杂交配合力分析与选择   总被引:3,自引:1,他引:2  
以杉木古树无性系和杉木单亲子代测定优良无性系为亲本的杂交子代为研究对象,通过生长差异分析、配合力变量分析探求杉木古树遗传变异规律和价值潜力.结果表明杉木古树种质作父本进行杂交可取得理想结果.一般配合力对生长性状起主要控制作用,特殊配合力的控制作用甚微.一般配合力高的杉木古树亲本不一定能产生优良杂交组合,而一般配合力低的杉木古树亲本一定不能产生优良杂交组合.根据一般配合力相对效应值,选出‘三52'、‘三54'为杉木优良杂交母本,‘闽1'、"王混"为优良父本.再采用指数选择法选择出树高、胸径、材积遗传增益分别为3.12%、3.43%、15.46%的4个优良杂交组合及树高、胸径、材积遗传增益分别为9.09%、15.57%、63.18%的10株优良个体,这些优良杂交组合及个体在提高杉木生产力和丰富高世代育种群体种质资源中能起到重要作用.最后得出杉木古树种质资源有着巨大生产及种质潜力,应加以利用,从而提高现有杉木栽植材料的遗传品质的结论.  相似文献   

5.
利用分别设置在浙江省淳安县姥山林场和福建省邵武市卫闽国有林场的3年生6×6半双列遗传交配设计3代子代测定幼林,对马尾松生长性状的遗传效应及其与环境互作效应进行研究。结果表明:马尾松树高和地径的配合力效应及其配合力与环境互作效应皆达到显著或极显著水平。在遗传效应中,树高在两地点皆以加性基因效应控制为主,显性基因效应次之;而地径在卫闽点主要受加性基因效应控制,在姥山点则主要受显性基因效应控制。在不同环境下,对树高和地径表型影响从大到小依次为环境效应>加性基因效应>显性基因效应与环境互作>显性基因效应>加性基因效应与环境互作。参试性状的一般配合力(GCA)稳定性普遍高于特殊配合力(SCA)稳定性。以树高生长量为选择指标,在2个试验点各初选2个优良亲本和5个优良杂交组合,姥山点和卫闽点优良亲本的遗传增益分别是试验平均的5.61% 8.05%和10.22% 12.98%,是当地优良天然林分子代的45.11% 48.48%和51.84% 55.64%,而优良组合的遗传增益分别是试验平均的3.37% 17.69%和9.35% 25.93%,是当地优良天然林分子代的42.04% 61.72%和50.64% 73.48%。  相似文献   

6.
对22年生柳杉双列杂交子代生长性状的遗传变异规律和相关性进行研究,结果表明:树高、胸径和材积等主要生长性状在杂交组合间的差异随林龄的增大而增大,22年生时达1%极显著水平;生长性状年度间相关性均达5%显著水平或1%极显著水平,相关系数值逐渐增大,林龄大于7年生时,相关系数值大多超过0.50;树高、胸径和材积的一般配合力方差和特殊配合力方差均达5%显著水平或1%极显著水平;加性方差在总方差分量所占比率较大,生长性状主要受加性遗传控制,同时,生长性状受立地条件影响较大,优良杂交组合在比较适合的立地条件更能发挥其速生潜能;选出优良杂交组合9个,22年生树高、胸径和材积的平均值分别为9.54 m、14.62 cm和0.08297 m3,树高、胸径和材积的平均遗传增益分别为3.07%、3.77%和9.22%。所选优良材料可用于柳杉第2代种子园建设。  相似文献   

7.
杉木遗传测定的研究   总被引:13,自引:1,他引:13  
报道了杉木6年生混系测交、测交、半双列遗传设计子代树高、胸径、材积的遗传和变异。结果表明:各生长性状有50%~80%的杂交组合比对照大,各组合间存在着明显的遗传差异。采用多父本授粉会大大提高得到优良组合的机率。一般配合力高的亲本会有较高的特殊配合力,但一般配合力低的亲本与一般配合力高的亲本杂交会产生高的特殊配合力,这在多世代改良中要加以利用。同时具有高的一般配合力和高的特殊配合力的亲本不能整齐传递给F_1代。多数性状的一般配合力方差占总遗传方差的60%~100%,但也有个别性状的特殊配合力方差比一般配合大方差略大。混系测交、半双列设计子代的遗传力高于测交设计,一般在0.3~0.6之间;选出5个一般配合力高的亲本以及23个材积比对照大20%以上的优良组合,可作为高世代育种材料和无性系选育材料。  相似文献   

8.
日本落叶松种内杂交亲本配合力分析   总被引:2,自引:0,他引:2  
对9年生日本落叶松半双列杂交后代生长性状的配合力分析结果表明:树高、胸径的一般配合力方差分别占总遗传方差的83.65%、51.87%,均占优势。说明日本落叶松的生长性状主要受基因的加性效应所控制。树高、胸径的狭义遗传力分别为0.65、0.43。根据一般配合力效应和特殊配合力效应,筛选出优良杂交亲本为:草-13、草-82;优良杂交组合为:草-13×草-6;草-82×503;草-82×永-11。  相似文献   

9.
马尾松测交系杂交子代生长性状遗传分析   总被引:4,自引:1,他引:3  
利用设置在浙江省淳安县2份不同测交系交配设计子代遗传测定林材料,对马尾松生长性状进行遗传分析.结果表明:2份测定材料的树高、胸径和材积等生长性状的一般配合力(GCA)和特殊配合力(SCA)效应都极为显著.在材料Ⅰ(杂交亲本为随机选择)中,生长性状的遗传控制是以加性基因效应为主,显性基因效应次之;而材料Ⅱ(杂交亲本经过生长选择)中正好相反,显性基因效应起主导作用,加性基因效应次之.根据2份材料材积的GCA效应值,各选出4个优良母本和2个优良父本,而基于杂交组合材积配合力总效应值(TCA),2份材料各初选出10个优良杂交组合,其平均材积增益分别是测验群体的32.20%和33.90%,是对照的52.44%和103.69%.2份材料树高、胸径和材积的全同胞家系遗传力值很高,分别为0.881 9、0.917 3和0.920 4,与0.561 4、0.664 3和0.676 9,说明马尾松生长性状受较强的遗传控制.  相似文献   

10.
马尾松生长性状交配效应的遗传分析及杂交组合选择   总被引:6,自引:0,他引:6  
利用2份6×6全双列交配设计子代测定林材料,对马尾松生长性状的配合力、杂种优势和自交效应等进行分析.结果表明:2份测定材料的树高、胸径和材积等生长性状的一般配合力、特殊配合力和正反交效应都极为显著,这些性状的遗传是由加性和非加性基因共同控制,其中非加性效应起主导作用,加性基因效应相对较小,而基因上位效应材料Ⅰ(1992年制种)明显大于材料Ⅱ(1993年制种).马尾松生长性状的特殊配合力效应明显大于一般配合力效应,这可能与亲本来源于不同地理种源和经过一般配合力间接选择有关.马尾松生长性状普遍存在自交衰退现象,2份材料中各亲本树高、胸径和材积的平均自交衰退程度分别为-17.8%~-18.4%、-23.3%~-27.7%和-44.3%~-50.6%,一般配合力小的亲本自交衰退程度呈明显增加趋势.马尾松不同交配组合间的杂种优势差异巨大,正反交杂种优势在总体上大致相似.以材积为评选指标,2份材料各选出10个优良杂交组合,其平均材积增益分别为测验群体的59.41%和41.76%,是对照的100.58%和74.61%.  相似文献   

11.
以湖南省城步2代马尾松种子园人工控制授粉的全同胞家系和全同胞家系的母本与父本的自由授粉半同胞家系种子为试验材料,研究马尾松2代种子园家系苗期的配合力和杂种优势。结果表明:马尾松2代种子园家系间地径、苗高的差异均达极显著,其中地径变幅为0.215 7~0.428 8 cm,苗高变幅为13.425 9~35.568 9 cm。全同胞家系的地径、苗高与其母本的地径、苗高均呈现正相关,其中全同胞家系地径与其母本地径的相关系为0.831,为极显著相关,其它均未达显著水平。在4个杂交组合中,2个一般配合力(GCA)较高的亲本杂交后代81×8的地径均值和特殊配合力效应值均最大,分别为0.428 8 cm和0.024;2个一般配合力较高的亲本杂交后代10×37的苗高均值和特殊配合力效应值并不是最大的,而81×8组合的苗高均值和特殊配合力效应值均是最大的,分别为35.375 0 cm和3.193 4。不同组合间的杂种优势差异很大,其中地径的杂种优的变幅为-16.55%~19.41%,苗高杂种优的变幅为-46.44%~11.84%。  相似文献   

12.
Li B  Howe GT  Wu R 《Tree physiology》1998,18(1):29-36
Juvenile growth and bud set phenology were analyzed to study the biological basis of heterosis (hybrid vigor) in interspecific hybrids of Populus tremuloides Michx. (T) and P. tremula L. (Ta). Growth, measured as seedling volume index, was significantly higher for each of the two reciprocal interspecific crosses, T x Ta and Ta x T, than for the T x T intraspecific cross. Broad-sense heritabilities were 2-6 times larger than narrow-sense heritabilities for growth and shoot components in the T x T intraspecific cross, suggesting an important role for dominance or overdominance in aspen growth. Previous genetic analyses have indicated that hybrid vigor may be the result of overdominance at several key loci each with an allele inherited from each of parental species. Internode length and leaf number contributed substantially to the heterosis of stem volume, but their effects on heterosis differed between the T x Ta and Ta x T hybrids. In T x Ta seedlings, heterosis of stem volume was attributed to a high diameter growth rate, whereas in Ta x T seedlings heterosis of stem volume was probably the result of delayed bud set resulting in a longer duration of height growth. In addition to internode number and length and leaf number, other morphological or physiological components might affect heterosis, for example, extended leaf retention.  相似文献   

13.
[目的]通过尾叶桉与赤桉杂种F1材质性状的遗传参数估算及其分析,为桉树杂交育种材性改良亲本选配和交配设计提供理论依据。[方法]以尾叶桉与赤桉6×6正反析因交配杂种F1测定林为材料,并以相应亲本自由授粉的半同胞子代作对照。9年生时,对各小区的杂种和家系(5株小区,6次重复)选取2株平均木,在胸高1. 3 m处沿南北向钻取木芯,共984个,测定木材基本密度、纤维长、纤维宽和纤维长宽比,利用ASReml-R估算4个材质指标的特殊配合力、杂种优势、父母本单株狭义遗传力、遗传相关和表型相关系数。[结果]表明:尾叶桉与赤桉正反交的杂种木材基本密度优于对照,呈明显的杂种优势;反交组合杂种其木材基本密度优于正交组合杂种,正交组合杂种的纤维特性优于反交组合的;在正交组合杂种中,木材基本密度、纤维长和纤维长宽比的母本效应低于父本效应;而反交组合杂种中,4个材质指标的母本效应均高于父本效应。木材基本密度和纤维特性指标受中至低遗传控制。正反交组合杂种中,除纤维长宽比外,其余3个材质指标的显性效应大于加性效应。对于遗传相关,杂种的木材基本密度与纤维宽呈极显著的负相关,与纤维长宽比呈极显著的正相关,与纤维长呈不显著负相关,纤维长与纤维宽呈显著正相关。对于表型相关,除纤维宽与纤维长宽比呈不显著正相关外,其余性状间均呈极显著正相关。[结论]尾叶桉与赤桉杂种的材质性状遗传差异因亲本和交配方式而异,表明通过种间杂交和正向选择进行材质性状的遗传改良具有潜力。  相似文献   

14.
Five Aigeiros section poplar clones were adopted as parents to produce five full-sib families through cross-breeding. Morphological, ecophysiological, and growth characteristics of the five parents and their 15 superior F1 generations were investigated during 45 days of flooding followed by a 10-day recovery period. Cuttings were subjected to two treatments: watered (control) and flooded to 10 cm above the soil surface. Results showed that flooded cuttings showed significant reduction in growth of height, root-collar diameter and leaf area, and root and total biomass yield. All 20 clones formed hypertrophied lenticels and adventitious roots by day 6–14 of flooding. In flooded cuttings, net photosynthesis, stomatal conductance, transpiration, and chlorophyll fluorescence were decreased significantly compared with the control. After flooding ended, all plants recovered rapidly. Generally, progenies showed higher growth of height, root-collar diameter, root biomass and leaf area than their parents both under flooding and control conditions, showing that heterosis existed in F1 generations, regardless of flooding. However heterosis was lower under flooding conditions than in the control. Under flooding, the highest heterosis of higher-parent in height and root-collar diameter were 68.63 and 20.83%, respectively. Variability of flood tolerance among progenies was clear in growth of height and root-collar diameter. Selection criteria for parents in cross-breeding were different between control and flooding. Relative effect values of the specific combining ability (SCA) and relative effect values of the general combining ability (GCA) of parents were more important than their flood tolerance. Progenies with a higher level of flood tolerance could be obtained, even from parents intolerant to flooding. In terms of breeding, height growth would be most important characteristic to measure in flooding conditions, and root-collar diameter growth was also very useful. Based on all measured values, the tested 20 clones were classified into three groups using hierarchical cluster analysis. Clones Lu, E4, E9, E29, A2, A8, A9, B1, B3, B4, and D8, were flood-tolerant. Clones Lf, Ha, Lm, D1, D7, F9, and F21 were moderately flood-tolerant. Clones Sm and F13 were flood-susceptible.  相似文献   

15.
Two hybrid poplar maternal half-sib families, resulting from controlled crosses of the female parent Populus deltoides 'S9-2' with P. nigra 'Ghoy' and P. trichocarpa 'V24', were grown at three sites: northern Italy, central France and southern England. Juvenile stem growth traits (height, circumference and volume) and sylleptic branchiness (number of branches, density of branches per unit of stem height, percentage of the stem carrying branches and distance of the highest sylleptic branch to the top of the stem) were measured on 1-year-old shoots. Our general objectives were to determine the degree to which the expression of stem growth and syllepsis and the relationships between them are affected by environmental conditions and to evaluate the efficiency of indirect selection for stem growth using branching traits as secondary criteria. The performance of both families differed significantly within and between sites. Pronounced heterosis was observed and highly significant genotype x environment interactions were found for all traits across the sites. Syllepsis showed more marked genetic variation and plasticity than stem growth traits. Relationships between sylleptic branchiness and stem growth depended on environmental conditions. Heritability values at the individual level ranged between 0.09 and 0.59, but genetic gain in stem volume was not significantly improved when selection was based on sylleptic branch characteristics. However, despite strong phenotypic plasticity among sites, genotypic ranking among the sites was relatively stable.  相似文献   

16.
杉木两水平双列杂交子代生长性状配合力分析   总被引:2,自引:1,他引:1  
在福建省洋口国有林场对23年生杉木种源间和种源内两水平双列交配设计的90个杂交组合子代测定林的树高、胸径、材积3个生长性状的配合力进行分析。结果表明:江西×湖南和湖南×福建种源组合在23年生时3个生长性状中的总配合力表现均排在前3位;江西×福建种源组合在23年生时胸径性状的总配合力表现最优;江西(全南12)×湖南(靖县21)家系组合在23年生时3个生长量性状中的总配合力表现均排在第1位。  相似文献   

17.
The variance of general combining ability (GCA) and specific combining ability (SCA) for height and diameter growth were estimated from a 13 years old provenance hybridization study in Norway spruce. The GCA variance component for both height and diameter growth was significant, but there was no significant SCA variance. Hybrid progenies outperformed the progenies from stands, but this superiority was not interpreted as a provenance heterosis effect. Estimated family heritabilities for height and diameter growth were moderately high (0.40 for both traits). A consequence of the low SCA variance for Norway spruce may be that clonal testing should replace progeny testing for estimating GCA.  相似文献   

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