大鹅观草与阿拉善鹅观草杂种的形态学和细胞学研究

为探讨阿拉善鹅观草 ( R.alashanica( Keng) S.L.Chen)的染色体组组成 ,进行了大鹅观草 ( R.grandisKeng( 2 n=2 4 ,St St YY) )和阿拉善鹅观草种间杂交 ,对这两个种及其杂种 F1的形态学、繁育学和减数分裂染色体配对行为进行了研究。结果表明 :杂种 F1的形态特征介于父母本之间 ,其花粉母细胞减数分裂染色体平均构型为 :2 0 .4 0 +3.6 9 +0 .0 9 +0 .0 4 。表明阿拉善鹅观草含有一个修饰的 St基因组 ,即 Sta。     

鹅观草与大麦属间杂种的形态和细胞遗传学研究

用活体/离体幼胚培养法成功地获得了鹅观草(Roegneria kamooji,2n=12,SSHHYY)与大麦(Hordeum vulgare,2n=14,11)间的属间杂种。杂交结实率为31.4％,胚培成苗率60.9％。杂种表现一年生,具有很强的生活力,形态上偏向鹅观草。F_1自交不孕,用大麦回交亦不结实。杂种具有预期的2n=28(SHYI)条染色体,花粉母细胞减数分裂中期Ⅰ平均形成26.38个单价体,0.67个棒状二价体,0.12个环状二价体和0.02个三价体。本文对双亲染色体组间的同源性以及在大麦育种中利用鹅观草种质的可能性进行了讨论。     

鹅观草和簇毛麦属间杂种的形态学和细胞遗传学研究

通过幼胚离体拯救培养,成功地获得鹅观草Roegneria kamoji Ohwi(2n=6x=42,StStHHYY)和 簇毛麦Dasypyrum villosum(L．)Candargy(2n=2x=14,VV)属间杂种,对这两个种及其杂种F_l的形 态学、繁育学和减数分裂配对行为进行了研究。结果表明：(1)鹅观草和簇毛麦形态差异极大,杂种F1 的形态特征介于父母本之间;(2)杂交结实率低,为11．63％;经幼胚组织培养,获2株杂种苗;杂种F_l高 度不育,表明亲本间存在极强的生殖隔离,是独立的生物学种;(3)杂种F_l体细胞染色体数目为稳定的 28条,减数分裂中期I染色体配对很低,其构型为：26．72Ⅰ+0．62Ⅱ+0．02Ⅲ。表明鹅观草的St、H、Y染色体组与簇毛麦的V染色体组部分同源性很低,它们的亲缘关系较远。     

大鹅观草与蛇河披碱草属间杂种的细胞遗传学研究

为探讨大鹅观草(Roegneria grandis,2n=4x=28)的染色体组组成,为其正确的分类处理提供细胞学依据。该研究通过人工远缘杂交,成功获得3株大鹅观草与蛇河披碱草(Elymus wawawaiensis,2n=4x=28)属间杂种F1植株。杂种植株形态介于两亲本之间,不育。亲本及杂种经I2-IK溶液染色后进行花粉育性检测,结果显示Roegneria grandis和Elymus wawawaiensis的花粉可育,育性高达94.6%和90.5%;杂种F1不育。花粉母细胞减数分裂中期I染色体配对结果显示,亲本花粉母细胞配对正常,均形成14个二价体,以环状二价体为主,Roegneria grandis有频率很低(0.04/细胞)的单价体出现;杂种F1平均每个花粉母细胞形成6.46个二价体,变化范围为5~8;在观察的83个花粉母细胞中,有35.2%的花粉母细胞形成了7个二价体,形成6个二价体的细胞占42.59%,较少细胞形成8个二价体;平均每个细胞形成14.66个单价体,变化范围为10~18;平均每细胞观察到0.14个三价体;杂种花粉母细胞染色体构型为14.66 I+6.46 II+0.14 III;平均每细胞交叉数为9.83,C值为0.35。结果表明:(1)R.grandis与Elymus wawawaiensis有一组染色体组同源的St染色体组,另外一组染色体组不是St或者H染色体组,Roegneria grandis的染色体组组成不是St Stg;(2)较低频率的三价体(平均0.14个/细胞),可能是由于R.grandis的St和Y染色体组间具有一定的同源性,也可能是染色体易位等原因导致,对于Y染色体组的起源还需深入地研究;(3)在不同地理来源的披碱草属和鹅观草属物种中St染色体组同源性不同,R.grandis与来自于北美的Elymus lanceolatus与E.wawawaiensis的St染色体组较与分布于亚洲的E.sibiricus和E.caninus的St染色体组同源性反而更高,其原因还需要进一步地研究。     

纤毛鹅观草同阿拉善鹅观草、大丛鹅观草间杂种细胞学研究

为了探索阿拉善鹅观草RoegneriaalashanicaKeng、大丛鹅观草RoegneriamagnicaespesD .F .Cui与纤毛鹅观草Roegneriaciliaris (Trin .)Nevski间的相互关系 ,将其进行了远缘杂交 ,通过幼胚离体培养 ,两个组合均成功合成了杂种。对亲本及杂种F1 花粉母细胞减数分裂中期Ⅰ染色体配对行为及形态学进行了统计分析。结果表明 ,上述物种的种间杂交较难进行 ,杂种F1 减数分裂染色体平均构型分别为 :R ciliaris×R alashanica 10 6 2Ⅰ 8 17Ⅱ 0 32Ⅲ 0 0 2Ⅳ (c -值 =0 4 4 ) ,R ciliaris×R magnicaespes 18 0 0Ⅰ 4 76Ⅱ 0 16Ⅲ (c -值 =0 2 1) ;杂种穗部特征多数介于双亲之间。阿拉善鹅观草、大丛鹅观草与纤毛鹅观草间至少有一个基因组具有较高的同源性 ,即为S基因组 ,本文对它们在分类中的地位也进行了讨论。     

7个鹅观草居群的形态学和细胞遗传学研究

鹅观草广泛分布于我国各地及日本和朝鲜等地,具有丰富的遗传变异,种内变异类型丰富,一些居群间存在明显的生殖隔离。本研究利用人工杂交、形态学、繁育学及染色体组分析方法对来自四川雅安、四川宜宾新文、四川宜宾翠屏山、青海、新疆、浙江及山东的7个鹅观草居群进行了遗传分化研究。结果显示:(1)不同居群在株高、穗长、外稃长等表型性状存在差异,各居群间杂种F1表型性状普遍优于两亲本居群,但是颖宽个别性状劣于亲本。(2)各居群间杂种F1染色体配对水平总体较高,但也存在差异;二价体数目变异范围为19.77~20.91,单价体数目变异范围为0.18~2.46,还有低频率的三价体、四价体出现。(3)杂种F1的育性为78.9%~89.67%,自然结实率43.05%~77.98%,其中浙江与四川宜宾翠屏山居群的杂种F1的自然结实率最低(43.05%)。以上结果表明,7个鹅观草居群间存在一定程度的分化,且与各居群的地理分布呈正相关;四川宜宾与浙江居群之间存在一定的生殖隔离,遗传变异较大。     

鹅观草x黑麦杂种F，的形态及细胞遗传学研究

以鹅观草作母本,黑麦作父本进行杂交,采用杂种幼胚培养技术,首次成功地获得了F,杂种。杂种 穗形呈双亲的中间类型,完全雄性不育。花粉母细胞减数分裂中期I平均染色体配对构型为：27.011+ 0.4711＋0.01111,后期I形成大量的落后染色体以及发生不均等的两极分裂和多极分裂,进而形成多 分体。花粉粒发育过程中出现不同数目的微核。     

分布于日本和中国的鹅观草及其杂种的形态学和细胞学研究

本文对分布于日本的Agropyron tsukushiense(Honda)Ohwi var. transiense(Hack.)Ohwi(2n＝6X＝42）和分布于中国的Roegneria kamoji Ohwi(2n＝6X＝42）及其杂种F1(2n＝6x＝42）进行了形态学及细胞学的研究,并同时探讨了亲本种的亲缘关系。总体来看,亲本材料之间在形态上虽有差异但并不十分显著。杂种F1的形态特征介于其父、母本之间。在减数分裂过程中,亲本种和杂种F1的染色体配对行为均十分正常。但在检查了大量的成熟花粉和穗状花序之后,发现杂种F1有部份不育现象。上述研究结果表明A.tsuku-shiense var.transiens的三个染色体组与R.kamoji的三个染色体组同源。结合形态学和育性等方面的研究资料,作者认为上述两个材料仍应属于同一分类等级。但必须指出,由于长期的地理隔离,他们之间产生了一定的形态变异和生殖障碍。按照国际植物命名法规（ICBN）上述两个材料应组合:Roegneria tsukushiensis(Honda)B．R．Lu,Yen et J.L.Yang 及其变种var.transiens(Hack.)B．R．Lu,Yen et J.L.Yang comb.nov．     

分布于日本和中国的鹅观草及其杂种的形态学和细胞学研究

本文对分布于日本的Agropyron tsukushiense (Honda) Ohwi var. transiense (Hack.) Ohwi (2n=6x=42)和分布于中国的Roegneria kamoji Ohwi (2n=6x=42)及其杂种F_1(2n=6x=42)进行了形态学及细胞学的研究,并同时探讨了亲本种的亲缘关系。总体来看,亲本材料之间在形态上虽有差异但并不十分显著。杂种F_1的形态特征介于其父、母本之间。在减数分裂过程中,亲本种和杂种F_1的染色体配对行为均十分正常。但在检查了大量的成熟花粉和穗状花序之后,发现杂种F_1有部份不育现象。上述研究结果表明A. tsukushiense var. transiens的三个染色体组与R. kamoji的三个染色体组同源。结合形态学和育性等方面的研究资料,作者认为上述两个材料仍应属于同一分类等级。但必须指出,由于长期的地理隔离,他们之间产生了一定的形态变异和生殖障碍。按照国际植物命名法规(ICBN)上述两个材料应组合为:Roegneria tsukushiensis (Honda) B. R. Lu, Yen et J. L. Yang及其变种var. transiens (Hack.) B. R. Lu, Yen et J. L. Yang comb. nov.     

Morphology,fertility and cytogenetics of intergeneric hybrid between Roegneria kamoji Ohwi and Dasypyrum villosum (L.) Candargy (Poaceae: Triticeae)

The intergeneric hybrids between Roegneria kamoji Ohwi and Dasypyrum villosum (L.)Candargy were successfully obtained by means of embryo culture in vitro. Studies on morphology, fertility and chromosome pairing behavior in meiosis of the parents and their hybrid F_l were carried out in the present work. The results showed that: (1) there were ob vious morphological differences between R. kamoji and D. villosum, and spikes of F_l plants were morphologically intermediate between the two parental species; (2) the seed set of the cross was 11.63%; the hybrid plant was infertile, which indicated that strong repro ductive isolation existed between the parents and R. kamoji and D. villosum were inde pendent biological species; (3) The somatic chromosome number in root-tips of F_l hybrids was 28. Chromosome pairing at MI of PMCs in F_l hybrids was quite low. The meiotic con figuration was 26.72 Ⅰ + 0.62 Ⅱ + 0.02 Ⅲ, which indicated that very low homoeology was detected between the St, H, Y genomes of R. kamoji and the V genome of D. villo- sum, and the relationship between the parental species was remote.     

Hystrix patula与Pseudoroegneria libanotica属间杂种的细胞学研究

为研究猬草Hystrixpatula的染色体组组成,进行了H.patula与Pseudoroegnerialibanotica的人工杂交,获得杂种F1,观察了亲本和杂种F1花粉母细胞减数分裂染色体配对行为。杂种F1染色体配对较高,84%的细胞形成7个或7个以上二价体,其构型为6.08Ⅰ+7.48Ⅱ,C-值为0.69。结果表明,H.patula含有St染色体组。     

鹅观草种质资源醇溶蛋白遗传多样性研究

以8个地理类群的90份鹅观草野生种质材料为研究对象,采用A-PAGE(酸性聚丙烯酰胺)凝胶电泳技术进行蛋白质水平遗传多样性检测.研究结果表明,来源于不同居群的鹅观草共分离出26条谱带,每个材料可以分离出5～26条迁移率不同的谱带, 平均谱带数为16.39条,其中平均多态性谱带为12.65条,多态性比例为77.22%;基于供试材料醇溶蛋白每个位点谱带出现的频率,分别计算了地理类群内多样性指数(0.345)和总多样性指数(0.471),类群间的遗传分化系数为26.8%,表明鹅观草变异的73.2% 来源于类群内;90份供试材料醇溶蛋白的Jaccard遗传相似系数变异范围为0.133 3～1.000,平均遗传相似系数为0.395 7;利用种子醇溶蛋白可将90份材料分为12类,鹅观草种质资源之间的亲缘关系呈现出一定的地域性规律;不同地理类群间的遗传多样性指数从高到低的排列顺序依次为云南＞四川＞内蒙古＞新疆＞山西＞甘肃＞宁夏＞河北.因此在进行鹅观草种质资源收集和原地保护时,建议对云南和四川地区的鹅观草种质资源应给予极大关注.     

Morphological,cytological, and molecular evidences for natural hybridization between Roegneria stricta and Roegneria turczaninovii (Triticeae: Poaceae)

Some plants with low fertility are morphologically intermediate between Roegneria stricta and Roegneria turczaninovii, and were suspected to be natural hybrids between these species. In this study, karyotype analysis showed that natural hybrids and their putative parents were tetraploids (2n = 4x = 28). Meiotic pairing in natural hybrids is more irregular than its putative parents. Results of genomic in situ hybridization and fluorescence in situ hybridization indicate that natural hybrids contain the same genome as their putative parents. The nuclear gene DNA meiotic recombinase 1 (DMC1) and the chloroplast gene rps16 of natural hybrids and their putative parents were analyzed for evidence of hybridization. The results from molecular data supported by morphology and cytology demonstrated that the plants represent natural hybrids between R. stricta and R. turczaninovii. The study is important for understanding species evolution in the genus since it demonstrates for the first time the existence of populations of natural homoploid hybrids in Roegneria. The study also reports for the first time that the composition of the genomic formula of R. turczaninovii is StY, confirming that the current taxonomic status is correct.     

Stripe Rust Resistance in Roegneria kamoji (Poaceae: Triticeae) and its Genetic Analysis

The Roegneria kamoji accession ZY 1007 was resistant to the mixed predominant races of Puccinia striiformis f.sp. tritici (Pst) in China based on field tests at adult‐plant stage. The seedling resistance evaluation of ZY 1007 showed that it was resistant to stripe rust physiological strains CYR29, CYR33 and PST‐V26, which were the predominant races of Pst in China. The female parent R. kamoji cv. Gansi No.1 (susceptible to Pst) was crossed with ZY 1007 (resistant to Pst). Parents, F₁ and F₂ populations were tested in a field inoculated with the mixed urediniospores. ZY 1007 and all the observed 11 F₁ hybrid plants were resistant, while plants of Gansi No.1 were susceptible. Among the 221 F₂ plants, 168 plants were resistant and 53 were susceptible, and the segregation of resistant and susceptible plants fits 3R:1S ratio (χ² = 0.074, P > 0.75). It confirmed that the resistance of stripe rust in ZY 1007 was controlled by a single dominant gene and temporarily designated as YrK1007.     

Cytological Studies of Hybrids of Roegneria ciliaris with R.alashanica and R.magnicaespes(Poaceae:Triticeae)

In order to investigate the relationships between Roegneria.ciliaris(Trin.)Nevski and R.alashanica Keng,and between R.ciliaris and R.magnicaespes D.F.Cui.R.ciliaris(Trin.)Nevski was crossed with the other two species,through the aid of embryo rescue. Hybrids were obtained from these two combinations.Chromosome pairing behavior of parents an dhybrids was observed at metaphase I of pollen mother cells. Meiotic configuratons were 10.62Ⅰ＋8.17Ⅱ＋0.32Ⅲ＋0.02Ⅳ for R.ciliaris×R.magnicaespes and 18.00Ⅰ＋4.76Ⅱ＋0.16Ⅲ for R.ciliaris ×R.magnicaespes;c-value of the two hybrids were 0.44 and 0.21,respectively.     

鹅观草居群表型多样性研究

应用居群生物学的原理和方法,对分布于中国7个地区、40个鹅观草(Roegneria kamojiOhwi)居群的表型多样性进行了分析。结果显示:鹅观草15个表型性状的总遗传多样性指数为1.825,表明鹅观草具有丰富的遗传多样性;居群内多样性指数为1.453,居群间为0.372,表型分化系数为28.38%,表明居群内的遗传变异是引起鹅观草变异的主要因素;在7个不同分布区,鹅观草的多样性存在较明显的差异,多样性指数从大到小的顺序为四川(1.583)>云南(1.392)>新疆(1.372)>甘肃(1.351)>内蒙古(1.284)>宁夏(1.235)>山西(0.890)。因此在进行鹅观草种质资源收集时,建议对四川和云南地区的鹅观草种质资源应给予较大关注。