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1.
粳型光敏核不育系主要农艺性状的配合力及杂种优势 总被引:3,自引:0,他引:3
用4个不同来源的粳型光敏核不育系和8个恢复系组成4×8不完全双列杂交,分析了抽穗期、株高、穗长、每穗总粒数、单株有效穗数、每穗实粒数、结实率和千粒重等9个主要农艺性状的一般配合力和特殊配合力效应以及F1优势表现。结果表明,杂种性状主要受亲本一般配合力的作用,用亲本的一般配合力可预测杂种优势。一般配合力较强的不育系是91-32s,恢复系是C8420、9022和92016等,单株产量特殊配合力好的组合是91-32S/C8420和91-32S/92016分别比生产上大面积应用冀梗8号增产56.57%和51.81%。 相似文献
2.
用9个冬小麦亲本按NCII交配设计配成20个杂交组合,分析了F2-F5世代8个产量性状的配合力在世代和年份间的稳定性。结果表明:克草粒数(籽粒数/茎秆草重)、千粒篝,收获指数、每穗粒重和每穗粒数的一般配合力在不同世代和年份间表现基本一致,早代测定的可靠性高。单株粒重和生物产量的一般配合力在F2、F3世代间相关性低,F4代以后明显增高,说明宜晚代测定配合力。在F4、F5世代间所有性状的特殊配合力均显 相似文献
3.
冬小麦水旱品种间杂交主要性状的遗传分析 总被引:7,自引:0,他引:7
利用水地和旱地两种生态型的品种 ,采用 4× 4不完全双列杂交试验 ,对水旱品种间杂交主要性状的配合力和遗传表现进行了研究。结果表明 ,水地亲本的一般配合力效应对杂种后代主要性状的影响 ,除千粒重外 ,均达到显著或极显著水平 ;旱地亲本的一般配合力效应主要对株高、穗下节长、单株穗数、收获指数等与抗旱性有关的性状影响明显 ,且除株高和收获指数外 ,其余性状P1的方差均大于P2 的方差。说明水地亲本对杂种后代产量性状影响大 ,旱地亲本主要影响抗旱性状 ,水旱两种生态型杂交 ,实现了抗旱与丰产的有机结合。株高、穗下节长、穗粒数、单株产量、单株生物产量和收获指数以加性效应为主 ,而显性基因对单株穗数、千粒重、单穗重的影响较大。旱地小麦产量性状遗传力均较低 ,而株高、穗下节长、收获指数等与抗旱性有关的性状遗传力较高 相似文献
4.
水稻广亲和品种农艺性状的配合力分析 总被引:12,自引:1,他引:12
用9个水稻不育系与3个广亲和品种进行不完全双列杂交,对其杂交组合10个性状的配合力效应分析结果表明,就杂种F1主要农艺性状而言,亲本的一般配合力效应比组合特殊配合力效应更为重要;株高、单株有效穗数、穗长、每穗实粒数、结实率、单株粒重、千粒重等性状,以一般配合力作用为主,而每穗总粒数、生育期、着粒密度等性状虽以一般配合力作用为主,但特殊配合力的作用也不可忽视;株高、单株有效穗数、穗长、每穗实粒数。结实率、单株粒重等性状以广亲和品种的一般配合力作用为主;生育期、每穗总粒数、千粒重、着粒密度等性状以不育系的一般配合力作用为主。 相似文献
5.
矮秆超大穗小麦亲本与多抗丰产小麦主要农艺性状的配合力评价及遗传分析 总被引:1,自引:1,他引:0
为了进一步挖掘矮秆超大穗小麦亲本在遗传育种中的应用潜力,为小麦高产、超高产育种选择优良亲本和最优杂交组合提供理论依据,选用5个矮秆超大穗小麦品种(系)作为父本,8个多抗丰产小麦品种(系)作为母本,按NCII遗传交配设计,采用8×5不完全双列杂交法,配制了40个杂交组合,对小麦亲本及杂种F1的株高、主穗长、单株穗数、结实小穗数、主穗粒数、主穗产量、单株产量、千粒重8个性状进行了考察,并在基因型方差分析显著的基础上进行了配合力评价及遗传力分析。结果表明:父本中A1、A3、A4是综合性状优良的亲本,其多数性状的一般配合力均较高,特别是穗长、主穗粒数、结实小穗数、主穗产量、单株产量的一般配合力高,而株高的一般配合力效应值较低,是很理想的矮秆超大穗多粒亲本材料。母本中B5、B6单株穗数一般配合力较高,株高的一般配合力效应值较低,可作小麦高产杂交育种的矮秆多穗型亲本使用。结合特殊配合力效应分析:组合B5×A3单株穗数、主穗产量、单株产量、千粒重特殊配合力效应最高,株高特殊配合力效应较低,可作为的矮秆、多穗、粒重高且高产的重点杂交组合。B2×A4主穗长、单株产量、单株穗数特殊配合力效应都较高,而株高特殊配合力效应低,可作为矮秆大穗高产的重点杂交组合。遗传力分析表明:单株产量、千粒重、主穗长、主穗产量皆在70%以上,表明这4个性状的广义遗传力较大,受环境影响较小,而狭义遗传力的分析除主穗长、主穗粒数、主穗产量、株高大于50%,其余4个性状均低于50%,说明受环境影响大,不宜早期选择,应该适当推迟选择的代数。 相似文献
6.
通过对聚合螟虫和稻瘟病抗性基因水稻恢复系的农艺性状配合力进行分析,为杂交水稻聚合恢复系的选育提供了一定的理论基础。按不完全双列杂交5×8 (NCII),以抗螟虫抗稻瘟聚合恢复系5个为父本和不育系8个母本设计并配制了40个组合,对穗长,株高,有效穗数,总粒数,实粒数,空瘪粒数和结实率进行了研究、千粒重与单株产量等9项农艺性状配合力与遗传参数分析。一般配合力(GCA)分析表明昌恢891TJH、长田A、圳20A、华盛A、晶泰A、广8A配合力较高,特殊配合力(SCA)分析表明晶泰A/昌恢891TJH、华盛A/昌恢891TJH、圳20A/R205TJH特殊配合力较高。千粒重、总粒数、有效穗主要受到基因非加性效应影响,穗长主要受到基因加性效应影响。穗长、实粒数、空瘪粒数、总粒数的遗传效应主要依赖不育系母本,单株产量的遗传效应取决于聚合恢复系父本,而株高、有效穗、结实率、千粒重遗传效应由双亲共同影响。 相似文献
7.
分析比较了4个籼粳遗传分化程度不同的品系与8个常规籼稻品种配组杂交9个农艺性状的配合力效应。结果表明,一般配合力效应及特殊配合力效应与亲本的籼粳遗传分化程度没有明显的关系,4个不同遗传分化品系在9个性状上的一般配合力表现各异,总体上以偏籼品系G2417-1及偏粳品系G3005-4-1表现较好。122/G2417-1、4480/G2615、IR70/G3005-4-1、双桂35/G2615和明恢63/G2123等组合具有较高的单株产量特殊配合力。从2种配合力对杂种性状的影响程度看,在每穗实粒数、结实率、千粒重和单株产量等性状上,杂种主要受特殊配合力的作用,在抽穗期、株高、单株有效穗数、穗长、每穗总粒数等性状上,杂种主要受一般配合力的作用,但特殊配合力的作用亦不容忽视。抽穗期、单株有效穗数、每穗实粒数、结实率、单株产量等性状的超亲优势与两种配合力显著正相关,而多数性状的一般配合力与亲本表型效应值无显著的相关关系。 相似文献
8.
干旱胁迫对小麦农艺性状的影响 总被引:11,自引:0,他引:11
为了研究干旱胁迫对小麦主要性状的影响及其机理,选用8个抗旱性不同的小麦品种,在干旱胁迫和正常灌溉两种水分环境下,进行随机区组试验,用方差分析、t测验、和通径分析等方法分析试验结果。结果表明:干旱胁迫导致小麦株高降低,单株产量和千粒重下降,单株穗数、总小穗数和穗粒数减少,穗长缩短,不育小穗数增多;各性状对干旱胁迫敏感程度都存在显著的品种间差异;除千粒重外,各性状的环境间差异均达到极显著水平;千粒重和单株产量的品种与环境互作达显著或极显著水平;各品种的抗旱指数差异显著;通径分析表明,各性状对单株产量的直接影响:穗粒数〉单株穗数〉千粒重〉穗长〉不育小穗数〉总小穗数〉株高。干旱胁迫对小麦主要性状的影响显著,晋麦47、新旱1号和洛旱3号对干旱胁迫的抗耐性较好。 相似文献
9.
用不完全双列杂交方法,对新选不育系F4A,356A及目前生产上常用的3个不育系9个恢复系进行了配合力及遗传效应的分析,株高,穗长,穗茎粗,开花期,穗重,穗粒重,穗粒数和千粒重等8个性状的分析结果表明,所有亲本各性状配合力方差均达到极显著水准,在全部被研究性状的遗传控制中,加性基因效应占主导地位,5个不育系中,A2F4A在全部8个性状上的一般配合力效应值最高,恢复系8643变在株高,穗重,穗粒重和开 相似文献
10.
旨在研究玉米自交系单株产量等性状的配合力、遗传力及反交效应,为玉米自交系的选育和杂交种的组配提供依据。以11份玉米自交系为试材,按Griffing Ⅲ完全双列杂交法组配110个组合,观测杂交种的单株产量、株高、穗位高、雄穗分支数、雄穗主轴长、抽丝期和开花期等7个性状的表型数据,并对上述性状的一般配合力、特殊配合力、广义遗传力、狭义遗传力和反交效应进行估算。供试材料除雄穗主轴长的特殊配合力差异不显著外,其余性状的一般配合力和特殊配合力差异均达到极显著水平。JZ3和JZ6两个自交系单株产量的一般配合力为极显著正值,两对组合JZ9×JZ2和JZ2×JZ9、JZ6×JZ3和JZ3×JZ6的单株产量具有最大的正向SCA效应值,分别为40.68 g和35.24 g。单株产量的反交效应差异极显著,部分自交系的反交效应方差较大。7个性状的广义遗传力从大到小依次为,雄穗分支数、株高、开花期、穗位高、抽丝期、单株产量和雄穗主轴长;狭义遗传力从大到小依次为,雄穗分支数、株高、穗位高、开花期、雄穗主轴长、抽丝期和单株产量。试验结果表明单株产量性状的显性遗传方差占比最大,狭义遗传力最小,易受环境条件的影响,对该性状的选择适宜在晚代进行;单株产量性状具有显著的反交效应,故部分自交系需严格控制正反交方式。 相似文献
11.
Genetic variation and interrelationships of agronomic characters in landraces of bread wheat from southeastern Iran 总被引:7,自引:0,他引:7
There is renewed interest in wheat landraces as important sources of genetic variation for agronomic characters. Fifty-three
pure lines of bread wheat (Triticum aestivum L.) derived from seven landraces collected from southeastern Iran were used to
estimate genetic variation and heritability for 13 developmental and quantitative characters. Path-analysis was used to partition
the genetic correlations between grain yield and six grain yield-related traits. Mean values of landraces were also compared
with three improved cultivars from California and Iran. Genotypic differences among the landraces and among the pure lines
collected from the landraces were highly significant for all characters considered. Compared with the modern cultivars, the
landrace genotypes were, on average, later in days to heading and taller than the cultivars but had lower values for number
of grains per spike, 1000-grain weight, grain yield and harvest index. Some landrace genotypes were similar to the modern
cultivars for grain yield. Moderate to high genetic variation was displayed by number of grains per spike, number of spikes
per plant, 1000-grain weight, and harvest index. The heritability estimates ranged from 59% for grain yield to 99% for days
to anthesis. Expected genetic advance (as % of the mean) was ≈34% for number of spikes per plant, number of grains per spike,
and 1000-grain weight. Days to heading and to anthesis correlated positively with number of spikes per plant, shoot biomass,
and straw biomass but negatively with number of grains per spike and harvest index. The strong direct effect of number of
spikes per plant on grain yield was completely counterbalanced by its indirect negative effects via number of grains per spike
and 1000-grain weight. Number of grains per spike and 1000-grain weight were positively correlated with grain yield, and they
had large direct effects. These two characters, however, were negatively correlated and exhibited a substantial counterbalance
effect via one another and via number of spikes per plant. The landraces could be improved by intercrossing the promising
genotypes identified in this study, with simultaneous selection for earliness, fewer number of spikes per plant, greater number
of grains per spike and heavier grains. For further improvement, crossing programs between the landraces and introduced germplasm
may be necessary.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
12.
不同年份小麦产量与主要农艺性状通径分析 总被引:3,自引:1,他引:2
为了研究小麦产量的影响因素,本文对小麦产量的直接和间接影响因子进行分析。利用2005-2008年陕西省长武县中科院长武农业生态站小麦品种‘长武89134’为试验对象,分析其主要农艺性状之间对小麦产量的影响,对农艺性状和产量的关系进行相关分析和通径分析。各种农艺性状中每穗结实小穗数、千粒重和株高与小麦产量之间存在显著正相关关系,每穗粒数与产量之间达到显著的负相关关系,而地上部分总干重、籽粒干重和每穗小穗数与小麦产量的相关关系不显著。通径分析结果表明自变量每穗结实小穗数和株高对小麦产量的存在正向直接作用(r每穗结实小穗数=0.712**,r株高=0.848**,P<0.05),而地上部总干重和每穗粒数则对产量存在着负向直接作用(r地上部分总干重=-0.792**,r每穗粒数=-0.784**,P<0.05)。‘长武89134’产量受到每穗结实小穗数、株高的正向作用和地上部总干重、每穗粒数的负向作用,因此需要主要针对这四种农艺性状进行筛选,在此基础上再并且协调好与其他农艺性状之间的关系,才能获得相对较高的产量。 相似文献
13.
不同矮秆基因对冬小麦农艺性状的影响 总被引:4,自引:0,他引:4
利用以冬麦品种MarisHuntsman为背景的含有不同矮杆基因Rht1,Rht2和Rht3及其不同结合形式的6个近等基因系,研究了不同矮秆基因对小麦农艺性状的作用,结果表明,Rht1半矮秆基因显著提高了单株穗数,粒数和粒重,地下部生物产量,经济系数和倒二叶面积,Rht2半矮秆基因显著提高了单株(或单穗)粒数和粒重,经济系数和倒二叶面积,显著降低了千粒重,Rht3矮秆基因对单株粒数,地上部生物产量 相似文献
14.
Summary Fourteen lines of linseed (Linum usitatissimum L.) were evaluated for general and specific combining ability through line × tester cross analysis using five diverse testers in two different environments. Seventy F1's and nineteen parental genotypes were raised in completely randomized block design with two replications with respect to yield and yield related traits. Considerable genetic variation was observed for all the traits studied. The additive as well as non-additive gene effects played significant role in the inheritance of yield and related traits with preponderance of non-additive gene effects for all the traits studied. Higher proportion of general combining ability × environment interaction variance as compared to specific combining ability × environment estimates was recorded. Additive genetic variances were more sensitive than non-additive genetic variances to the changing environment. Low estimates of heritability (narrow sense) for primary branches per plant, capsules per plant, seeds per capsule, seed yield per plant, harvest index and oil content and medium heritability for days to 50% flowering, days to maturity, plant height and 1000-seed weight was observed. Among the female parents LCK-9816, Parvati, Himalini, KL-168 were good general combiners for yield and related traits along with oil content, whereas among male parents, Surbhi and KL-224 were good general combiners for yield related traits and oil content but KL-221 was good general combiner for seed yield and related traits. 相似文献
15.
旨在为小麦育种和生产上预防倒伏、提高稳产能力提供参考。以来源于野生二粒小麦远缘杂交组合的82个高代系为试材,在西北农林科技大学试验站测定并分析抗倒性影响因子和产量性状的相关性。结果表明,(1)株高与抗倒性呈负相关关系,成熟期茎壁厚与抗倒性呈正相关关系,各个性状的抗倒性排序为株高>成熟期茎壁厚度>单穗重>单株重;(2)粒宽、穗粒数和单穗重呈极显著正相关关系(0.413**、0.767**);(3)倒伏引起千粒重、单穗重下降,导致减产;(4)小穗数、小穗粒数及穗粒数等产量因子及抗倒影响因子的杂种分离世代都出现小于低亲值的遗传特点,分离子代产量接近高亲值的单株占1.5988%,杂交育种中分离世代最低群体需在120株左右。选择茎壁厚、植株高度适中、增加粒宽(饱满大粒)和穗粒数(大穗、多花结实性好),有望筛选出高产抗倒品种。 相似文献
16.
按Hayman方法对8×8完全双列杂交F_1的6个性状进行基因效应分析与模型检验,株高、穗长、实粒数符合加性-显性模型.株高、实粒数为部分显性,加性方差和显性方差均显著,基因的加性效应比显性效应更重要;穗长为超显性,显性基因效应比加性基因效应更重要.对杂交F_1、F_2进行配合力效应值分析表明,一般配合力方差和特殊配合力方差对所研究性状均重要,多数性状为加性基因效应占主导.亲本85G63、81-18、82-14为最佳配合者,其主要经济性状一般配合力好.杂交F_1各性状均有明显杂种优势,组合间和性状间的优势具有显著差异,以单株籽粒产量优势最强,其余依次为实粒数、穗长、株高、小穗粒数和千粒重. 相似文献
17.
30余年来北部冬麦区小麦品种产量改良遗传进展 总被引:15,自引:0,他引:15
采用1965年以来北部冬麦区育成的10个主栽品种,在水、肥供应充足、病、虫、倒伏得到有效控制条件下,连续两年共进行4个点次试验;同时对1B/1R易位系和矮秆基因进行分子鉴定。结果表明,品种产量年遗传进展为64.63 kg hm-2 或1.20%,其较大幅度的提高出现在1980年丰抗号品种育成时期。丰抗2号和丰抗8号是该地区最早育成的含有1B/1R染色体和Rht-D1b矮秆基因的品种。主要农艺性状演变的总趋势是抽穗期提前、株高显著降低、生物学产量基本保持稳定、单位面积穗数减少、每穗粒数有所增加、千粒重和收获指数大幅度提高,其年遗传进展分别为-0.1%、-0.70%、0.35%、-0.50%、0.63%、1.12%和0.79%。通过减少不孕小穗和小花数来增加每穗粒数,通过提高灌浆速率来提高千粒重,再把高穗粒重与较多的单位面积穗数结合在一起,是北部冬麦区进一步提高产量的重要途径。 相似文献
18.
Evaluation of grain yield and its components in wheat cultivars and landraces under near optimal and drought conditions 总被引:3,自引:0,他引:3
In a 2-years experiment, 30 wheat cultivars and 21 landraces from different countries were tested under near optimum and drought
stress conditions. Plant height, number of sterile spikelets per spike, spikelets per spike, number of kernels per spike,
kernel weight per spike, 1000 kernel weight and grain yield were evaluated. The number of kernels per spike, 1000 kernel weight
and especially yield were more sensitive to drought stress in the cultivars than plant height and number of spikelets per
spike, while in the landraces these traits did not differ under drought stress compared to near optimum conditions. The average
yield of cultivars was significantly better than the average yield of landraces under near optimum as well as drought stress
conditions. Path coefficient analysis showed that for cultivars under near optimum conditions there was no significant direct
association of any of the analysed characters with yield, while under drought stress conditions, number of kernels per spike
had a significant positive direct effect. Under drought stress conditions, the number of sterile spikelets displayed a negative
direct effect, while kernel weight per spike had a positive direct effect on yield. Hierarchical cluster analysis was used
as a tool to classify cultivars and landraces according to their yield ability under near optimum and drought stress conditions.
Among the cultivars, two groups out of five and among one of three in the landraces were characterised by high yields in both
near optimum as well as under drought stress conditions. These genotypes may serve as sources of germplasm for breeding for
drought tolerance.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献