鹅观草属三个种的染色体组分析与同工酶分析

本文通过对鹅观草属的三个种:鹅观草(Roegneria kamoji Ohwi)、纤毛鹅观草(R. ciliaris (Trin.) Nevski)和竖立鹅观草(R. japonensis (Honda)Keng)的染色体组分析和二种同工酶电泳酶谱的分析,研究了这三个种的系统关系。两个种均含有两个相同的染色体组。R. kamoji和R. ciliari、R. japonensis的杂种F_1减数分裂均不正常,不能结实;而R. ciliaris和R. japonensis的正反交杂种F_1减数分裂规则,结实正常,两个种之间无生殖隔离。R. kamoji的酯酶和酸性磷酸酯酶同工酶谱与R. ciliaris和R. japonensis有明显区别,而后二种的上述酶谱无明显差异。上述结果均一致地支持了将R. ciliaris和R. japonensis合并为一种的观点,将R. japonensis处理为R. ciliaris的变种。     

小麦族鹅观草属三种植物的生物系统学研究

本文研究了禾本科小麦族鹅观草属的3个种:缘毛鹅观草(Roegneria pendulina Neuski 2n=4x=28),纤毛鹅观草(R. ciliaris (Trin.) Nevski 2n=4x=28)和鹅观草(R. kamoji Ohwi 2n=6x=42)及其种间杂种的形态变异和染色体配对行为。各杂种F_1的减数分裂染色体配对数较高,但杂种高度不育。在杂种减数分裂中还观察到一定频率的多价体形成。以上结果充分表明该3种植物享有两个共同的基本染色体组,在S和Y染色体组之间发生过染色体相互易位,缘毛鹅观草的染色体组可拟定为S~PY~P。     

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。     

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。     

鹅观草属三个种的形态变异与核型的研究

本文通过对鹅观草属的三个种:鹅观草(Roegneria kamoji Ohwi)、纤毛鹅观草(R. ciliars (Trin.) Nevski)和竖立鹅观草(R. japonensis(Honda)Keng)的形态学比较和核型分析研究了该三个种的系统关系。R. kamoji与R. ciliaris、R. japonensis形态上的差异明显,而后二个种差异甚小,难以进行划分。R. kamoji的核型公式为:2n=6x=42=30m+8sm+4SAT;R. ciliaris为:2n=4x=28=18m+6sm+4SAT;R. japonensis为:2n=4x=28=18m+6sm+4SAT。t-测验的结果表明R. ciliaris与R. japonensis的核型无显著差异。因此笔者认为R. ciliaris和R. japonensis应合并为一种系内的分类群。     

小麦族鹅观草属三个物种的关系研究

通过形态学特征比较、种间杂交、染色体组配对和繁育学资料,探讨鹅观草属拟披碱草组纤毛草系中的三个物种毛叶鹅观草、纤毛鹅观草和竖立鹅观草间的亲缘关系。结果表明毛叶鹅观草与纤毛鹅观草、竖立鹅观草存在一定的生殖障碍,纤毛鹅观草和竖立鹅观草不存在生殖障碍。建议将毛叶鹅观草作为纤毛鹅观草的亚种,而竖立鹅观草作为纤毛鹅观草的变种处理较为适宜。     

鹅观草属——人工合成双二倍体(2n=10x=70)的细胞学及育性的研究

本文对缘毛鹅观草(Roegneria pendulina)、鹅观草(R.tsukushiensis var.transiens)及其人工合成杂种F_1、双二倍体进行了细胞学,育性等的分析和研究。结果表明双亲的减数分裂,花粉育性和结实性均正常,杂种F_1的减数分裂不规则且完全不育;当代双二倍体的染色体数目为70,其减数分裂构型为:6.04 Ⅰ+26.21 Ⅱ+1.52 Ⅲ+1.59 Ⅳ+0.02 Ⅴ:第二代双二倍体的染色体数目为70,个别植株为69,减数分裂构型分别为:4.16 Ⅰ+27.33 Ⅱ+0.50 Ⅲ+2.16 Ⅳ和4.79 Ⅰ26.26 Ⅱ+1.13 Ⅲ+2.13 Ⅳ。与期望染色体配对模式相比,双二倍体中二价体出现的频率有明显增大的趋势。在减数分裂AⅠ和AⅡ分别观察到数目不定的落后单价体,大部份的四分体中出现了微核。双二倍体的育性得到了很大程度的恢复,其花粉可染色性及结实率分别为54.4％和64.0％。     

鹅观草与大鹅观草杂种的细胞遗传学及形态学研究

大鹅观草（ Ｒｏｅｇｎｅｒｉａ ｇｒａｎｄｉｓ Ｋｅｎｇ） 是分布于我国陕西的一种多年生四倍体植物。为了探索大鹅观草与鹅观草（ Ｒｏｅｇｎｅｒｉａ ｋａｍｏｊｉ Ｏｈｗｉ） 间的物种生物学关系, 通过对其进行远缘杂交,幼胚离体培养, 合成了远缘杂种; 并对亲本及杂种Ｆ１ 代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研究。结果表明杂种Ｆ１ 减数分裂染色体配对平均构型为： Ｒ－ ｋａｍｏｊｉ ×Ｒ－ｇｒａｎｄｉｓ１０－２６ Ⅰ＋ １２－３７ Ⅱ（ｃ－ 值＝ ０－７４） , 大鹅观草与鹅观草所含的ＳＹ 染色体组间存在较大的同源性分化; 杂种穗部特征大多数介于双亲之间。     

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.     

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。     

RAPD Study on Inter species Relationships in Roegneria (Poaceae: Triticeae)

To assess the relationships among 26 species in Roegneria C. Koch, 34 random decamer primers were screened for RAPD fragments. 28 primers produced polymorphic RAPD products. Data from 16 primers were used for RAPD assay. By NTSYS-pc program, Jaccard' s genetic similarity coefficients were generated and dendrogram was constructed using UPGMA. It is concluded as follows: (1) Distinct genetic differences and extensive genetic diversity were present among the species. (2) There were some genetic differences between StY and StYH genomes, and StY and StYH had a certain degree of differentiations respectively which were related to geographic regions, the farther the geographic distribution between species, the less the similarity to each other. (3) When different accessions in a species, such as species with similar morphological characters, homologous genomes and similar geographic distribution, were clustered together respectively, it suggusted that they had closer relationships. (4) The awnless species R. alashanica Keng and R. magnicaespes (D. F. Cui) L. B. Cai, in Roegneria, were separated from the other species analysed in this study, indicating that these two species had intensive genetic differences from the others. (5) R. caucasica C. Koch, a species from Western Asia, was quite different from the other species contained StY genomes in Roegneria from Eastern Asia and Central Asia. (6) The results were in consistance with that of the analysis of morphology and chromosome pairing in the taxonomic treatments for R. ciliaris (Trin) Nevski and R. japonensis (Honda) Keng, R. tenuispica J. L. Yang et Y. H. Zhou and R. pendulina Nevski, and R. tsukushiensis (Honda) Ohwi and R. kamoji Ohwi. The present study discussed the usefulness of RAPD markers in the systematic study of Roegneria.     

用RAPD分子标记探讨鹅观草属的种间关系

通过34个10碱基随机引物对鹅观草属(RoegneriaC.Koch)26个物种进行PCR扩增,28个引物能产生多态带。在NTSYS程序中,对16个引物扩增的186条扩增产物,计算Jaccard遗传相似系数,建立UPGMA聚类图。结果表明:(1)物种间遗传差异明显,具有丰富的遗传多样性;(2)StY和StYH基因组的物种存在着一定的遗传差异,并各有一定程度的分化,这种分化是与地理位置相联系的。相距越远,物种相似程度越低;(3)形态差异较小,基因组同源,地理分布一致的物种聚类在一起,表现出较密切的亲缘关系;(4)无芒类群的R.alashanicaKeng和R.magnicaespes(D.F.Cui)L.B.Cai与其余分析的24个Roegneria物种存在着极大的遗传差异;(5)分布于西亚的R.caucasicaC.Koch.与分布于东亚和中亚的物种存在着较大的RAPD变异,亲缘关系较远;(6)在对R.ciliaris(Trin)Nevski和R.japonensis(Honda)Keng、R.tenuispicaJ.L.YangetY.H.Zhou和R.pendulinaNevski、R.tsukushiensis(Honda)Ohwi和R.kamojiOhwi等的分类处理上,基本上与形态学和细胞学的研究结果一致。对RAPD标记在Roegneria系统分类研究中的应用进行了讨论。     

A Biosystematic Study on Hybrids Between Psathyrostachys huashanica and Two Species of Roegneria

Intergeneric crosses were made betweem Psathyrostachys huashanica (2n=14, NN)and two Roegneria species, namely, R. ciliaris (2n=28, SSYY), and R. tsukushiensis (2n=42, SSHHYY). Two combinations of P. huashanica crossed with R. ciliaris and R. tsukushiensis produced adult hybrid plants. Although completely sterile, the hybrid plants developed rather vigorously, and were morphologically intermediate between the two parents.Two spikelets per node in part were observed in hybrids, which evidently came from P. huashanica. The chromosome configurations of R. ciliaris × P. huashanica and R. tsukushiensis × P. huashanica were 20.73 I+0.318 II, 24.80 I+1.578 II+0. 012 III, respectively. Polypolar division was found at anaphase I in meiosis of two hybrids. Abnormal meiosis in two hybrids was observed. The chromosome pairing indicates that there is only a little chromosome homoeology between “N” genome of P. huashanicaand “S”, “Y” or “H” genomes of R. ciliaris and R. tsukushiensis.     

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.     

Biosystematic study ofRoegneria tenuispica, R. ciliaris andR. pendulina (Poaceae:Triticeae)

Morphological and cytological studies of three tetraploidRoegneria species,R. tenuispica, R. pendulina andR. ciliaris, and their artificial hybrids were carried out.Roegneria tenuispica was morphologically similar toR. pendulina. The general appearance of the interspecific hybrids was intermediate between the parents. The hybrids showed comparatively high chromosome pairing at meiosis, but were completely or almost completely sterile. The results indicate that the three independent species share two basic genomes (S_tY) and thatR. tenuispica is more closely related toR. pendulina than toR. ciliaris. The genomes ofR. tenuispica could be designated as S _t ^t Y^t.     

鹅观草属4个种核型与进化的研究

报道了鹅观草属(Roegneria C. Koch)4个种的核型,即中华鹅观草,核型为2n=4x=28=28m(2SAT);裸穗鹅观草,核型为2n=4x=28=24m+4sm(2SAT);缘毛鹅观草,核型为2n=4x=28=22m+6sm(2SAT);缘穗鹅观草,核型为2n=4x=28=24m(2SAT)+4sm。4个种核型的共征和自征反映了形态划分中共属分种的合理性。尤其通过核型不对称性和相对进化程度的分析,表明中华鹅观草最原始,缘穗鹅观草最进化,裸穗鹅观草和缘毛鹅观草演化居中;狭颖草系高级于缘毛草系。核型不对称性所表示的进化程度似乎与系间颖芒的发生,种间花序的增长变粗、外稃芒的延伸相关。     

向普通小麦导入纤毛鹅观草抗黄矮病基因的研究──Ⅰ.F_1和BC_1的产生及其细胞遗传学

为了将纤毛鹅观草Z1010对黄矮病毒株系PAV和RPV的抗性基因转入普通小麦,通过幼胚拯救,获得了纤毛鹅观草Z1010×普通小麦品种莱州953的杂种F1,以及用5个普通小麦品种（系）回交的BC1衍生系。对杂种F1及BC1植株的细胞学分析表明,纤毛鹅观草Z1010不仅对Ph基因具有很强的抑制作用,而且能使杂种F1形成未减数配子,对细胞遗传学资料的进一步分析认为,通过部分同源染色体间的交换将纤毛鹅观草Z1010的抗黄矮病基因转入小麦是可能的。     

鹅观草属五个类群的核型与进化

报道了鹅观草属５个类群的核型,即长芒鹅观草,核型２ｎ＝４ｘ＝２８＝２２ｍ＋６ｓｍ（２ＳＡＴ）;短颖鹅观草,核型２ｎ＝４ｘ＝２８＝２０ｍ（２ＳＡＴ）＋８ｓｍ（２ＳＡＴ）;短柄鹅观草,核型２ｎ＝４ｘ＝２８＝２２ｍ（２ＳＡＴ）＋６ｓｍ;纤毛鹅观草,核型２ｎ＝４ｘ＝２８＝２０ｍ＋８ｓｍ（４ＳＡＴ）;毛盘鹅观草,核型２ｎ＝４ｘ＝２８＝１８ｍ＋６ｓｍ（４ＳＡＴ）＋４ｓｔ。同时,通过核型重要性状的递变分析,揭示了鹅观草属５个类群的相对进化程度以及宏观分类中４个组的系统发育关系,表明鹅观草属的半颖组在系统发育中可能既派生了颖体短小的小颖组,又派生了颖体长大的大颖组和长颖组。