鹅观草属的系统发育分析

根据分支系统学的原理和方法, 对禾本科鹅观草属进行了系统发育分析。鹅观草属传统分类上的18 个系被确定为终端类群, 来自形态学、解剖学、细胞学和孢粉学的23 个性状被选作建立矩阵的依据;雀麦族中的短柄草属作为外类群被用于外部性状的极性识别, 过去分析过的性状资料被用于微观特征的极性判断;采用PAUP 程序对矩阵进行运算, 共获得6 个同等简约的谱系分支图, 其中具最低f-比值的图被选作分支分析的基础。结果表明, 分支图上显示的组、系划分与传统分类的基本一致, 各类群间的演化关系与过去凭借单一证据所作的零散推断也基本吻合。所不同的是半颖组各支类群不是共祖起源, 可能具有复杂的内部组成;在个别系间, 分支图展现的类群位置与宏观分析的存在差异。     

Isozyme Analysis of F 5 and BC 1F 4 from Cultivated Barley (Hordeum vulgare)× Roegneria ciliaris

栽培大麦,纤毛鹅观草,属间杂种,酯酶,过氧化物酶 ISOZYME ANALYSIS OF F5 AND BCiF4 FROM CULTIVATED BARLEY ( HORDEUM VULGARE ) ~ ROEGNERIA CILIARIS LI Wan-Ji LI Yi-Ping L1U Fang Abstract Esterase and peroxidase isozymes were analysed in the variants including 4 types, 16 lines of Fs, BC1F4 and the parents derived from cultivated barley ( Hordeum vulgare cv. Arupo) x Roegneria ciliaris (Trin.) Nevski in young roots, shoots, spikes and seeds. The zymogram patterns of esterase and peroxidase demonstrated that the 16 lines of F5 and BC1F4 had all or most bands of the cultivated barley parent cv. "Arupo", 1 to 3 bands from the male R. ciliaris, and new hybrid isozyme bands in various amount. Some bands of parent "Arupo" were lost. It suggested that the genetic substances come from R. ciliaris were stably inherited to the progenies of selfing and backcrossing, and there were some variations among the lines. There was certain relationship between isozyme variance and plant characters. Thus, in identifying the translocation lines by isozyme analysis, it would be preferable to study the various organ-specific isozymes or to trace one type of isozyme pattern in consequence.     

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.     

小麦-鹅观草第一部分同源群染色体渗入系鉴定与基因组归属分析

鹅观草（Roegneria kamoji,2n=42,SSHHYY）是小麦异源六倍体野生近缘种,对小麦赤霉病具有良好抗性,是改良小麦赤霉病抗性的重要遗传资源。通过远缘杂交,将鹅观草第一部分同源群染色体上的抗赤霉病基因Fhb6导入普通小麦。由于第一部分同源群染色体包含1S、1H和1Y三条染色体,为研究这些同源染色体对小麦赤霉病抗性的影响,筛选出4个鹅观草第一部分同源群染色体特异分子标记,通过PCR扩增鹅观草属不同野生种的基因组DNA,明确了抗赤霉病Fhb6基因位于鹅观草1Y#1染色体。进一步利用分子细胞遗传学技术从中国春与鹅观草的后代中选育出5份涉及鹅观草1Y#2和1S#2染色体的渗入系材料。其中：21RK?1为二体异代换系DS1Y#2(1A),21RK?2为二体异代换系DS1S#2（1D）,21RK?3为二体异附加系DA1S#2,21RK?4为1S#2和TW·1S#2S的双单体附加系,21RK?5为纯合TW·1S#2S易位系。这些新种质为小麦抗赤霉病基因的发掘及遗传改良奠定了基础。     

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。     

新疆、青海和四川等地区小麦族植物的细胞学观察

本文对采集于新疆、青海和四川等地的小麦族(Triticeae Dumortier)10属、52种、370份种子材料进行了细胞学观察。该地区小麦族各属种的染色体数目变化范围是从2n=14到2n=84,前者主要存在于大麦属(Hordeum)、新麦草属(Psathyrostachys)和黑麦属(Secale),而后者全部集中于赖草属(Leymus)。其中染色体数目为2n=28和2n=42的类型出现的频率很高,大多存在于鹅观草属(Roegneria)和披碱草属(Elymus)。除个别种内存在不同倍性的细胞型外,绝大多数种的染色体数目非常稳定。在所有的样本中均没有观察到具非整倍体和B-染色体的材料。     

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。     

鹅观草属4个种的核型与进化

报道了4个种鹅观草属（Roegneria C. Koch）植物的核型,其核型公式如下：芒颖鹅观草(R. aristiglumis Keng et S. L. Chen), 2n=4x=28=22m+6sm（2SAT）;短颖鹅观草(R. breviglumis Keng), 2n=4x=28=20m（2SAT）+8sm;红原鹅观草(R. hongyuanensis L. B. Cai), 2n=4x=28=22m+6sm（2SAT）;山东鹅观草(R. shandongensis（B. Salomon）J. L. Yang, Y. H. Zhou et Yen), 2n=4x=28=24m（2SAT）+4sm。同时对染色体主要特征的演变规律进行了分析,揭示了鹅观草属4个种的相对进化程度以及宏观分类中2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派生了颖体短小的小颖组。