河南夏大豆产量相关性状的遗传分析

以10个河南夏大豆主栽品种为材料,对与株粒重有关的10个农艺性状进行了遗传相关、遗传参数和通径分析。试验结果表明：株高、每节粒重、株有效荚数、粒茎比和株粒重呈高度正相关,与环境相关较小;株高与粒茎比的遗传力较大,每荚粒数与每节粒重的遗传力较小;各性状对株粒重的重要贡献的大小依次为每节粒重、株有效荚数与粒茎比。因此,大力提高节粒重、株有效荚数与粒茎比是河南夏大豆高产育种的方向。     

菜用大豆感官品质性状遗传变异及品质育种目标性状分析

以全国菜用大豆主产区154个品种为试验材料,考察感官品质性状综合位、6个一级、5个二级感官性状及7个有关理化性状的遗传变异,分析它们间的相关,从而概括出品质育种目标的主要性状。结果表明：感官性状综合品质位、6个一级、5个三级感官性状均存在牟它的遗传变异,其中二级感官性状的遗传变异度均大于一级感官性状。有关理化性状中,百英鲜直、百粗鲜直、可容性糖的遗传变异系数较大,遗传力较高,选择潜力较大;英长、英厚、英宽的遗传变异系数、遗传力中等,单英粒数的遗传变异系数、遗传力偏低。相关、偏相关和通径分材结果,粒英外观、熟食口味、生食口感对感官品质综合评定值直接效应显并较大;其中英厚、英长、百英鲜直对粒英外观的直接效应显,甜味及可溶性糖为影响蒸食品味的主要图素,硬度对生食口感直接负效应显。菜用大豆品质育种中,感官品质鉴定应在蒸食口味、生食口感、粒英外观、粒色、生样可剥性、熟食香味六个一级性状基础上综合评价,注重前三项性状的选择,它们可以结合用百英鲜重、英长、英厚、可溶性糖含量、鲜味、豆醒味、粘性、硬度等性状进行辅助选择。     

水稻产量库相关穗部性状的遗传分析

收人李源于珍汕97/明恢63的重组系群体中与产量库容有关的10个穗部性状的表现型数据。总体上,每穗颖花数与每穗二次枝梗数、每个二次枝梗上的颖花数、颖花密度有更大的相关性。对所研究的10个性状,两年间共检测到53个QTLs。约43.4%的QTLs能在两年同时检测到。5个染色体区域（第1染色体上G359-RG532和C567-C86-RG236,第2染色体上R712-RM29,第6染色体上P-RG424,第10染色体上C148-RM258）分别对多个穗部性状表现出效应。结果显示相关性状的QTLs大致定位在相似的染色体区域,这表明基因的多效性或紧密连锁是穗部性状间相关的遗传基因。在检测到的大量2位点互作对中,约18.2%在两年都能被检测到。不同性状的共同互作对的比例为8.7%～32.6%。在两年都能检测到2位点组合中,约26.7%的组合同时影响着多个性状,表现出多效效应。结果表明每个性状都由数个QTL、基因型与环境互作、大量的上位性互作所控制。     

菜用大豆种子活力与激素关系的初步研究

菜用大豆(Glycine max)品种“六月拔”种子在不同条件下贮藏6个月后分别成为高活力种子(4℃,硅胶干燥贮藏)、中活力种子(自然干燥种子,聚乙烯袋密封贮藏)、低活力种子(自然条件下布袋贮藏)及无活力种子(30℃,90％RH),发芽率分别为90％、50％、30％以上及0。发芽试验方法:取30粒种子置于铺有2层滤纸的15cm培养皿中,在25℃暗中进行发芽,重复3次,2 d计算发芽势,3 d计算发芽率。外     

花期追施氮肥对菜用大豆AC10生理指标及产量影响的研究

选用激光诱变育成的菜用大豆品种AC10,通过在开花初期追施不同的氮素水平,研究其对主要生理指标及产量和产量构成因素的影响。结果表明：花期追施适量氮肥,能明显提高菜用大豆品种AC10植株花后叶面积指数、叶绿素含量、光合速率和荚果可溶性糖含量,从而提高鲜豆荚产量,其中以每公顷追施75．0kg-112．5kg尿素,单株鲜豆荚产量达到92．15g～90．37g,比对照增产8．0％～7．1％;但过量追施氮肥,影响植株生长．造成减产,当每公顷追施尿素达150kg时,单株鲜豆荚产量为81．19g,比对照减产5．1％。     

不同来源菜用大豆的品质研究

对43个菜用大豆品种的外观品质、营养品质、食用品质进行测定,以发掘品质优良的菜用大豆资源,筛选出适合河北省种植的优良菜用大豆品种。研究表明,在外观品质中所有品种的荚长、荚宽、荚厚都能达到规定标准,其外观品质的主要限制因素是百粒鲜重、百荚鲜重和二粒荚百分比;营养品质中仅有蛋白质和脂肪含量能达到标准,维生素C、氨基酸、钙的含量在各品种间差别较大;在食用品质中只有少数品种的淀粉与可溶性糖的含量达到了要求。综合评价筛选出绿75、矮脚白毛、天禾早生65、札幌绿4个适于河北省种植的品质优良的菜用大豆品种。     

菜用大豆田害虫天敌资源调查初报

根据田间系统调查,共发现菜用大豆田害虫天敌83种,隶属于2个纲8个目34个科69属;另发现2种病原微生物。其中索非亚恩蚜小蜂、银纹夜蛾多胚跳小蜂等是主要的寄生性天敌;青翅蚁形隐翅甲、龟纹瓢虫、草间小黑蛛、齿螯额角蛛和八斑鞘腹蛛等是主要的捕食性天敌。     

甜瓜远缘群体果实糖含量相关性状遗传分析

以栽培甜瓜0246为母本,野生甜瓜Y101为父本,构建了P1、P2、F1、F2、B1、B26个世代,运用植物数量性状主基因+多基因混合遗传模型进行多世代联合分析,探讨了甜瓜果实糖含量相关性状的遗传特性。结果表明:果糖含量、葡萄糖含量和总糖含量遗传均受两对加性-显性-上位性主基因+加性-显性-上位性多基因模型控制(E-0),主基因在F2中的遗传率分别达到90.32%、82.42%和94.66%。蔗糖含量受一对加性主基因+加性-显性多基因模型控制(D-2),主基因在F2中的遗传率达到83.76%。甜瓜果实糖含量相关性状遗传体系中主基因具有重要作用且环境方差所占比例较小,适宜早代选择。     

预选菜用大豆主要生化物质积累特性初步研究

以20个大豆品种为材料,在鼓粒期至青荚期分期取样,对豆粒的蛋白质、游离氨基酸、脂肪、淀粉和可溶性糖及维生素C含量等生化物质进行测定.研究表明,随着豆粒的充实,各种生化物质不断增加,但达到最大峰值的时间不同.脂肪、蛋白质和氨基酸含量于鼓粒中后期达到峰值,淀粉和可溶性糖含量于鼓粒中前期达到峰值,维生素C积累主要集中在鼓粒前期.所以在菜用大豆鼓粒中期或后期即开花后18～25d采收可保证较高水平的生化物质含量,最终保证菜用大豆的品质.经过综合评价20个大豆品种的农艺性状、营养品质及外观品质,初步筛选出适合河北省种植的菜用大豆品种有绿75、黑大粒、冀黄104、日本A、D103、中黄13.     

大豆遗传图谱的构建和分析

分子标记连锁图的构建为植物基因组的结构和功能分析提供了有力的工具。较高密度的遗传图谱在数量性状基因定位、图位克隆重要农艺性状基因等研究中发挥了巨大作用。应用栽培大豆长农４和半野生大豆新民６杂交得到的Ｆ８代重组自交系,构建了一张较高密度的遗传图谱。该图谱共有２４０个标记,其中包括２个形态标记、１００个ＲＦＬＰ标记、３３个ＳＳＲ标记、４２个ＡＦＬＰ标记、６２个ＲＡＰＤ标记和１个ＳＣＡＲ标记,分布在２２     

谷子产量和品质相关性状的杂种优势及遗传特性分析

为了解谷子(Setaria italica)两系杂交后代的产量和品质相关性状的杂种优势,以3个高度雄性不育系为母本(A1、A2和A3),6个抗除草剂恢复系为父本(R1、R2、R3、R4、R5和R6),采用不完全双列杂交(NCⅡ)设计配制了18个组合,分析组合的株高、粒重和蛋白含量等11个性状的配合力和杂种优势特性.结果...     

玉米抗寒生理指标的遗传效应分析

以6个不同的玉米自交系为亲本,按6×6Griffing I完全双列杂交设计组配36个组合,测定低温处理后亲子代可溶性蛋白质、可溶性糖、丙二醛（MDA）和脯氨酸（Pro）含量以及过氧化物酶（POD）活性。结果表明,除可溶性糖外,其他生理指标中的平均中亲优势均表现为正向优势。杂种F1与亲本的相应性状的中亲值关系比较密切,可利用双亲平均值预测F1表现。玉米抗寒性受细胞质影响较小,主要是核遗传。POD活性和脯氨酸含量主要受加性效应的影响,可溶性蛋白质和MDA含量主要受非加性效应的影响,可溶性糖含量受加性与非加性效应的共同作用。5个生理指标的广义遗传力均远远大于狭义遗传力。     

Genetic Analysis of Agricultural Traits in Rice Related to Phosphorus Efficiency

Relative tillering ability, available spike, biomass, and grain yield of P₁, P₂, F₁ and F_2,3 were used to study the genetic development of rice related to phosphorus efficiency with a quantitative genetic model. The results indicated that under a low-P condition, the relative tillering ability and the relative available spike were apt to the additivity-dominance-epistasis model with two couples of major genes, between which additive, dominant and epistatic effects existed, and with multi-gene modifications. Their maximum major gene effect mostly indicated additivity, but sub-maximum major gene effect mostly indicated dominance. Relative biomass and grain yield were apt to the additivity-dominance-epistasis and multi-genes model. The heritabilities of the major genes were 60.08% and 37.70%, and those of the multi-genes were 32.15% and 58.9%, respectively. This meant that the heritabilities of the relative tillering ability, the relative available spike, and the relative biomass were high, so they were ideal indexes for rice breeding tolerating to low-P stress; whereas, the heritability of the relative grain yield was low, which meant that the grain yield was easily affected by the environment.     

水稻磷效率相关性状的遗传特性

利用数量遗传模型对P1、P2、F1、F2．3等4个世代的相对分蘖率、有效穗、生物产量及经济产量等性状进行了遗传分析。混合遗传模型分析表明：低磷胁迫条件下,相对分蘖率和相对有效穗两个指标适合两对主基因的加性．显性．上位性的模型,两对主基因之间存在着广泛的加性、显性和上位性效应,也存在多基因修饰;相对分蘖率和相对有效穗的最大效应主基因以加性效应为主,次大主基因以显性效应为主,而相对生物量与相对经济产量两个指标符合两对加性．显性．上位性主基因＋多基因的模型,主基因遗传力分别达到60．08％和37．70％,多基因遗传力分别达到32．15％和58．9％。表明相对分蘖率、有效穗和生物量的主基因遗传力均较高,可以作为水稻耐低磷遗传育种的指标。而相对经济产量的主基因遗传力相对较低,说明经济产量受气候等环境因素影响较大。     

Soybean Yield as Related to Rates of 1,3-Dichloropropene Applied at Planting for Management of Root-Knot Disease

1,3-Dichloropropene (1,3-D) at rates of 17.2 to 51.6 liters/ha applied 3 days preplant or at planting significantly (P < 0.05) reduced the amount of galling on roots of soybean grown in sites infested with Meloidogyne incognita or M. arenaria. Populations of M. incognita second-stage juveniles at harvest were significantly (P < 0.05) reduced by all treatments. Only the 51.6-liters/ ha treatments and a 3-day preplant 34.4-liters/ha application significantly reduced at-harvest juvenile infestations of M. arenaria. Equations (P < 0.001) relating soybean yield and 1,3-D dosage indicated soybean phytotoxicity at the upper range of the nematicide rates. The maximum yield response was predicted at 40 liters/ha applied 3 days preplant at both infestation sites. Maximum yield response was predicted with 30 liters/ha applied at planting to M. incognita-infested soil and from 25 liters/ha applied at planting to M. arenaria-infested soil. Application of economic factors suggested that management of M. incognita may be cost effective with at-plant treatments of low rates of 1,3-D. Yield responses of M. arenaria-infected soybean exposed to similar treatments were insufficient to justify their use at prevailing prices.     

河南大豆遗传多样性的ISSR分析

用ISSR标记技术对10个大豆品种进行遗传多样性分析.从44条随机引物中筛选出8个多态性引物,共扩增出89条带,其中有55条为多态性条带,多态性比率为61.8%,条带大小为220~1 500 bp,平均每个引物可扩增出11条带.Shannon多样性指数评价结果表明,平均多样性指数为0.286 5,观察等位基因数和有效等位基因数分别为1.618和1.300 8;统计分析结果表明,10个品种间的相似系数为0.60~0.75,平均相似系数为0.69;聚类分析结果表明,10个大豆品种可聚成2组:第一组包括豫豆15、豫豆11、豫豆24、周豆12和周豆11;第二组包括豫豆22、周豆13、豫豆6、中作98-3和豫豆26;主成分分析结果支持聚类分析结果.本研究为大豆品种鉴定和种质资源利用奠定了基础.     

Phosphorus and Nitrogen Interactions in Field-Grown Soybean as Related to Genetic Attributes of Root Morphological and Nodular Traits

Two field experiments with different soybean (Glycine max L.) materials were conducted to investigate the interactions between phosphorus (P) and nitrogen (N) as related to the genetic attributes of root morphological and nodular traits. In experiment one, 13 cultivated soybean varieties were grown in a field with relatively low soil P and N availability. P application with 160 kg P/hm2 as triple superphosphate produced a significant simultaneous increase in the content of both P and N in shoot, demonstrating positive P and N interactions. The addition of P also increased root dry weight, root nodule number, nodule mass, nodule size, and nodulation index, but decreased root length and root surface area, indicating that P may affect N nutrition in soybean through a number of root morphological and nodular traits. Interestingly,like P content, N content appeared to be more correlated with root morphological traits (root weight, root length, and root surface area) than with root nodular traits (nodule number, nodule size, nodule mass, and nodulation index) at both P levels, implying that N taken up by the roots may contribute more to the plant N status than biological N2 fixation under the present experimental conditions. In experiment two, 57 soybean lines of a recombinant inbred line (RIL) population derived from a cross between a cultivated variety and a wild genotype were grown on another field site with moderately sufficient P and N levels to further characterize the genetic attributes of root morphological and nodular traits and their relationships with P and N interactions. The results indicated that all morphological and nodular traits measured continually segregated in the RIL population with a normal distribution of the phenotypic values, indicating that these traits are possibly controlled by quantitative trait loci (QTLs). Genetic analysis revealed that all these root traits had relatively low heritabilities (h2b=74.12, 70.65, 73.76, 56.34, 52.59, and 52.24 for root weight, root length,root surface area, nodule number, nodule mass, and nodule size, respectively), suggesting that root morphology and nodule formation are influenced greatly by environmental factors. Correlation analysis of the RILs showed that shoot N content was significantly correlated with P content, confirming positive P×N interactions. Similar to experiment one, shoot N content was only significantly correlated with root morpho logical traits, but not with root nodular traits, again denoting the fact that the N status in soybean could be attributed more to N uptake from the soil than to biological N2 fixation under the present experimental conditions.     

大豆灰斑病抗性遗传的三点测交分析

本实验利用三点测交分析的方法, 对3个组合在人工接种大豆灰斑病菌的条件下的抗性表现进行基因效应分析,各组合均存在加性,组合1存在显性,组合2、3存在上位性。 Abstract:In this paper,Triple Test Cross Design was used in studing the resistance of soybean to 10 physiological race of Cercospora Sojina Haraby inoculation.Results o analysis of gene effects of resistance indicated that additive effect is significant in all the three crosses,dominant effect exsists only in the cross 1 and epistatic effect remains in the cross 2 and cross 3.