同域分布垂穗披碱草和达乌力披碱草遗传多样性和遗传结构分析

披碱草属(Elymus L.)是禾本科(Poaceae)小麦族(Triticeae)中的一个多年生属,该属在青藏高原地区有广泛分布,多数物种是草原和草甸的组成成分,许多种类为品质优良的牧草.垂穗披碱草(E.nutans)和达乌力披碱草(E.dahuricus)同为禾本科小麦族披碱草属异源六倍体物种,染色体组组成皆为St...     

新疆披碱草属的新分类群

本文发表了禾本科披碱草属的四个新种及四个新变种:大丛披碱草Elymus magnicaespes D.F.Cui,sp.nov.;新疆披碱草E.sinkiangensis D.F.Cui,sp.nov.;喀什披碱草E.kaschgaricus D.F.Cui,sp.nov.;阿尔泰披碱草E.altaicus D.F.Cui,sp.nov.;短芒光穗披碱草E.glaberrimus (Keng et S.L.Chen)S.L.Chen var.breviaristus S.L.Chen ex D.F.Cui,var.nov.;林缘狭颖披碱草E.mutabilis (Drob.)Tzvel.var.nemoralis S.L.Chen ex D.F.Cui,var.nov.;多花大穗披碱草E.abolinii (Drob.)Tzvel.var.pluriflorus D.F.Cui,vat.nov.;光穗曲芒披碱草E.tschimganicus (Drob.)Tzvel.var.glabrispiculus D.F.Cui,var.nov.     

植物生长季节不同栖息地高原鼠兔的食物选择

本文采用胃内容物镜检分析法,对栖息于青藏高原矮嵩草草甸、垂穗披碱草草甸和杂类草草甸中的高原鼠兔的主要食物组成进行了比较分析,旨在探讨栖息地变化对高原鼠兔食物组成的影响,揭示高原鼠兔对栖息地变化的生存对策和适应性.研究结果表明:在矮嵩草草甸,高原鼠兔主要取食垂穗披碱草、早熟禾、蓝花棘豆和甘肃棘豆;在垂穗披碱草草甸,主要选择垂穗披碱草、甘肃棘豆、蓝花棘豆、矮嵩草和二柱头蔗草;在杂类草草甸,喜食植物种类为垂穗披碱草、蓝花棘豆、甘肃棘豆、早熟禾、弱小火绒草、长茎藁本、兰石草和红花岩生忍冬.在整个植物生长季节,高原鼠兔在3种栖息地共取食27种植物,其中垂穗披碱草、甘肃棘豆和蓝花棘豆在不同栖息地中选择指数较高,为高原鼠兔优先选择的食物;在不同栖息地,高原鼠兔取食植物有差别,垂穗披碱草草甸为16种、矮嵩草草甸为22种,杂类草草甸为24种;喜食食物比例也存在着明显差别,在垂穗披碱草草甸,垂穗披碱草比例高达40.5%,在矮嵩草草甸,甘肃棘豆比例也达到23.7%,而在杂类草草甸,选食比例最高的兰石草仅为14.6%,说明在该草甸高原鼠兔食物选择呈现泛化趋势.相似性指数分析结果也表明,杂类草草甸中高原鼠兔主要食物组成与其它两种栖息地有较大的区别.从而说明当栖息地植物群落种类组成发生变化后,高原鼠兔可以通过改变其食物组成而适应新的栖息地.     

青海仲彬草和黑药仲彬草的生物系统学研究

黑药仲彬草Kengyilia melanthera(Keng)J．L. Yang,Yen et Baum和青海仲彬草K．kokonorica (Keng)J.L．Yang,Yen et Baum是分布于我国西部的两种多年生六倍体植物。将其分别与鹅观草 Roegneria kamoji Ohwi(2n=42,StStHHYY)、糙毛仲彬草K．hirsuta(Keng)J．L. Yang,Yen et Baum (2n=42,PPStStYY)进行了杂交;对亲本及杂种F_l代花粉母细胞减数分裂中期I染色体配对行为进行 了观察。杂种F1减数分裂染色体配对平均构型分别为：R．kamoji×K．melanthera,18.201+11.74 Ⅱ 十0.09Ⅲ十0.01V;K．hirsuta×K．melanthera,1.06Ⅰ十20.47Ⅱ;R．kamoji×K．kokonori- ca,19.36Ⅰ十11.26Ⅱ十0.04Ⅲ;K．hirsuta×K．kokonorica,2.46Ⅰ十19.44Ⅱ 十0.14Ⅲ十0.06 Ⅳ。根据以上结果,并结合形态特征,将黑药仲彬草和青海仲彬草从鹅观草属拟冰草组Roegneria sect．Paragropyron Keng中组合到仲彬草属Kengyilia Yen et Yang更为恰当,而不应划分到披碱草属E-lymus L．或偃麦草属Elytrigia Desv．中。     

氮硅添加对高寒草甸垂穗披碱草叶片全氮含量及净光合速率的影响

该文以青藏高原高寒草甸优势种垂穗披碱草(Elymus nutans)为研究对象, 探究不同水平氮肥与硅肥混合添加后对其叶片全氮含量和净光合速率的影响, 以期对高寒草甸牧场施肥提供一定的理论依据。研究发现: 氮、硅单独添加时, 均可提高垂穗披碱草叶片全氮含量以及净光合速率; 氮、硅配施处理对叶片全氮含量和净光合速率均存在显著的交互作用; 低(N₁)、中(N₂)、高(N₃) 3种不同浓度的氮肥处理下, 低硅(Si₁)添加对垂穗披碱草叶片全氮含量以及净光合速率没有显著的促进作用, 而添加中浓度硅肥(Si₂)可显著提高垂穗披碱草叶片全氮含量; 低、中浓度施氮水平下, 中浓度硅肥可显著促进垂穗披碱草光合作用; 叶片全氮含量和净光合速率最大平均值均出现在中浓度氮、硅肥配施下, 与不施肥相比分别提高了119.99%和85.70%; 就该试验而言, 施加氮肥的同时, 适当添加一些硅肥能够更好地提高垂穗披碱草叶片全氮含量和净光合速率, 且硅的添加量为8 g·m^-2时效果较好。     

植株密度和氮素互作对垂穗披碱草生物量分配的影响

垂穗披碱草（Elymus nutans）是高寒地区建植和改良栽培草地的首选草种。虽然合理植株密度和氮素添加量是垂穗披碱草栽培草地稳产的关键因子,但两者之间是否存在最佳互作组合仍不清楚。采用盆栽试验,通过分析不同植株密度（58、102、146株/m²）和氮素添加量（0、200、400 mg/kg）组合状态下垂穗披碱草株高、单株分蘖数、地上生物量、地下生物量、根系体积和地上地下生物量比,以确定理论上是否存在植株密度和氮素添加量的最佳组合。结果表明：随植株密度增加,垂穗披碱草株高、地上生物量和地上地下生物量比值均先增加后降低,而单株分蘖数逐渐减小,根系体积和地下生物量先增加后保持相对稳定;随氮素添加量增加,垂穗披碱草单株分蘖数、地上生物量和地上地下生物量比值均表现为先增加后降低,地下生物量逐渐降低。植株密度与氮素添加量互作虽然对垂穗披碱草的根系体积和单株分蘖数没有显著影响,但两者互作显著影响了垂穗披碱草株高、地上生物量、地下生物量、地上地下生物量比（P<0.01）,这些指标与植株密度和氮素添加量的关系均表现为一个开口向下的抛物面。当植株密度为102株/m²和氮素添加量为200 mg/kg时,垂穗披碱草栽培草地产量最大,生物量分配最优。垂穗披碱草植株密度和氮素添加互作时理论上存在最佳组合,这为垂穗披碱草栽培草地的田间管理提供了理论依据。     

唐古特大黄药材提取物对小麦和垂穗披碱草种子萌发和幼苗生长的影响

测定了唐古特大黄（Rheum tanguticum Maxim. ex Balf.）药材水提液、蒽醌粗提液和多糖粗提液对小麦(Triticum aestivum Linn.)和垂穗披碱草（Elymus nutans Griseb.）种子萌发及幼苗生长的影响。结果表明：唐古特大黄药材水提液存在明显的化感作用,水提液在高浓度下对小麦种子萌发和芽长及垂穗披碱草种子萌发、根长和芽长均有明显的抑制作用,而在低浓度下对小麦的根长和芽长具有促进作用。蒽醌粗提液仅对垂穗披碱草幼苗生长有抑制作用,其作用随浓度的提高而增强。多糖处理液抑制了小麦、垂穗披碱草根的生长,同时高浓度的处理液延迟了垂穗披碱草种子发芽。     

影响披碱草属植物遗传分化和亲缘关系的地理因素分析

用微卫星标记法对产自中国青藏高原和蒙古高原地区9种披碱草属（Elymus L．）植物的40个居群进行遗传变异和亲缘关系分析,居群问遗传相似系数为0．020～0．957,居群间遗传距离与地理因素关系密切。以垂穗披碱草（Elymus nutctns Griseb．）为例,采用二维和三维Mantel检验,对遗传距离和地理因素间的关系（纬度、经度和海拔）作进一步分析,结果表明,地理位置（纬度和经度）是影响垂穗披碱草居群微卫星遗传差异的最重要因素（R=0．478;P＜0．05）,其次是海拔（R=0．258;P＞0．05）。单一地理位置因素（纬度或经度）与遗传距离的相关性并不明显,但从单一地理位置因素与遗传距离的相关系数、可信度区间来看,纬度对遗传分化的影响程度大于经度。     

青海高原植物生理生态学研究：Ⅱ.高寒草甸植物的光合作用

青海高原高寒草甸植物柔软紫苑和糙毛鹅冠草,在同一海拔高度（３２００ｍ）,由于种的不同,净光合速率和表观光合量子效率（ＡＱＹ＝１／ＡＱＲ）也不同。双子叶植物柔软紫苑较单子叶植物糙毛鹅冠草高一些。同一垂穗披碱草,而在不同海拔高度（２３００ｍ和３２００ｍ）,由于海拔和气压不同,Ｐｎ和ＡＱＹ也不同。在高海拔地区（３２００ｍ）,长期生长的垂穗披碱草的Ｐｎ和ＡＱＹ较低海拔地区（２３００ｍ）同一植物的低,在青海     

垂穗披碱草与达乌里披碱草基因组细胞遗传学比较

采用顺序FISH-GISH技术,12个重复序列探针,包括9个三核苷酸简单重复序列、2个卫星DNA重复序列pSc119.2和pAs1以及5S rDNA,通过重复序列的物理定位对达乌里披碱草和垂穗披碱草基因组中部分重复序列的分布特征进行了比较分析,为进一步研究垂穗披碱草和达乌里披碱草的物种形成及演化提供新的分子细胞遗传学证据。结果表明:(1)所有的序列在这2个物种的染色体上都能产生可检测的杂交信号,且在2个物种中(AAC)_(10)、(ACT)_(10)、(CAT)_(10)都表现为共分布,(AAG)_(10)与(AGG)_(10)表现为近似共分布;2个物种的H基因组除5S rDNA序列外,其他序列都产生强烈且丰富的杂交位点,St与Y基因组不同重复序列探针的荧光位点数目有所差别,表现为5S rDNA、pSc119.2、(AAC)_(10)、(CAT)_(10)、(ACT)_(10)、(CAC)_(10)探针的信号位点较少或无信号,其余的探针信号位点稍多。(2)达乌里披碱草的第2对染色体上具有(AAC)_(10)、(CAT)_(10)、(ACT)_(10)的杂交位点、第6对染色体上具有(CAC)_(10)的杂交位点,而在垂穗披碱草的St基因组中未观察到上述序列杂交位点;达乌里披碱草St基因组仅有第4对染色体的端部具有pSc119.2杂交位点,而在垂穗披碱草St基因组中的pSc119.2杂交位点位于第5对染色体长臂的间隔区;相对于达乌里披碱草,垂穗披碱草St和Y基因组染色体含有更多的重复序列杂交位点。(3)达乌里披碱草的H/Y基因组间易位在不同材料间是稳定存在的,达乌里披碱草基因组相对稳定,不同材料间H基因组重复序列杂交信号多态性高于St和Y基因组;垂穗披碱草基因组的变异较大,不同材料间St和Y基因组重复序列杂交信号多态性高于H基因组。研究认为,垂穗披碱草和达乌里披碱草的H基因组均起源于布顿大麦,St基因组可能起源于不同的拟鹅观草属物种;与达乌里披碱草相比垂穗披碱草St与Y基因组可能具有更高的染色体结构变异性,而垂穗披碱草St与Y基因组变异较大的原因可能是与同区域分布的含StY基因组的物种发生了种间渗透杂交。     

Molecular diversity of the 5S nuclear ribosomal DNA in Campeiostachys with StHY haplome constitution

To detect the genomic constitutions and investigate the evolutionary relationships between Campeiostachys Drobov and Elymus L. species, we have cloned and analyzed 271 5S nuclear ribosomal DNA sequences from 27 accessions of these species, mostly of Chinese origin. We identified Long H1, Short S1, and Long Y1 unit classes in nine Campeiostachys or Elymus species. The identification of the three orthologous unit classes was confirmed by the neighbor‐joining tree of each unit class from PAUP and the phylogeny tree of three unit classes from MrBayes. The results suggested that these Elymus species comprise StYH haplomes and should be included in Campeiostachys. The phylogeny tree showed a clear separation between the S1 unit class and Y1 unit class. However, Y1 unit class sequences formed a sister clade to the S1 unit class, implying that although the St and Y haplomes might have some affinity, they are distinct from one another. The phylogeny tree also indicated that the five species in sect. Turczaninovia (C. dahurica var. cylindrica, C. dahurica var. dahurica, C. dahurica var. tangutorum, E. purpuraristatus, and E. dahuricus Turcz. ex Griseb. var. violeus C. P. Wang & H. L. Yang) might share a more recent common ancestor, whereas the four species in sect. Elymus (C. nutans, E. breviaristatus (Keng) Keng ex Keng f., E. sinosubmuticus (Keng) Keng f., and E. atratus (Nevski) Hand.‐Mazz.) share a close relationship. By identifying only one type of unit class for each haplome, we propose that the 5S nuclear ribosomal DNA sequences of species within Campeiostachys might have undergone haplome‐specific concerted evolution.     

Phylogenetic relationships and the maternal donor of Roegneria (Triticeae: Poaceae) based on three nuclear DNA sequences (ITS,Acc1, and Pgk1) and one chloroplast region (trnL-F)

Roegneria is a polyploid perennial genus in the tribe Triticeae. Some species of Roegneria are morphologically similar to genus Elymus and have been classified in Elymus. To investigate the delimitation and phylogenetic relationships of Roegneria, nuclear (ITS, Acc1, and Pgk1) and chloroplast (trnL–trnF) DNA regions were sequenced for 38 allopolyploid species and 32 diploid species of Triticeae. Phylogenetic analyses of nuclear DNA revealed that all Roegneria species were included in the St and Y genome clades, and that the Y genome was closely related to the V and Xp genomes. The chloroplast DNA dataset showed that Roegneria species were grouped with Pseudoroegneria species. The Pseudoroegneria species from the Middle East (P. libanotica and P. tauri) and Central Asia (P. strigosa) were more closely related to Roegneria species. The results suggested that: (i) the species containing the St and Y genomes should be segregated from Elymus and treated as a distinct genus, Roegneria, based on the genomic constitution; (ii) P. libanotica, P. tauri, and/or P. strigosa potentially served as the maternal donor of the St genome in Roegneria; (iii) The Y genome of Roegneria originated from a diploid Y genome species, and the V and Xp genomes may have contributed to Y genome formation; (iv) among Roegneria species of previously uncertain genomic constitution, R. seriotina was tetraploid and possessed the StY genomes, E. calcicolus was hexaploid with the StYH genomic constitution and should be classified in Campeiostachys, R. glaucifolia possessed the StStY genomes, and R. tschimganica had the genomic constitution St₁St₂Y.     

Endo-allopolyploidy of autopolyploids and recurrent hybridization—A possible mechanism to explain the unresolved Y-genome donor in polyploid Elymus species (Triticeae: Poaceae)

The genus Elymus L. in the tribe Triticeae (Poaceae) includes economically and ecologically important forage grasses. The genus contains the pivotal St genome from Pseudoroegneria in combination with other genomes in the tribe. Many Elymus species are tetraploids containing the StY genomes. It is thought that polyploidization characterizes the speciation of the genus in which the Y is considered as another key genome. Based on data from cytological, genome in situ hybridization, and molecular studies, we hypothesized an endo-allopolyploidy origin of the StY-genome species from the autotetraploid Pseudoroegneria species. To test this hypothesis, we amplified, cloned, and sequenced five single-copy nuclear genes (i.e., alcohol dehydrogenase 1–3, Adh1–Adh3, RNA polymerase II, Rpb2; and Waxy) from Elymus, Pseudoroegneria, and Hordeum species. The phylogenetic trees constructed based on the sequencing analyses of all genes indicated that diploid and autotetraploid Pseudoroegneria species were closely related, although with considerable genetic variation in tetraploids. In addition, the StY-genome Elymus species tended to have a close relationship with the diploid and autotetraploid Pseudoroegneria species, although different phylogenetic relationships among the gene trees were detected. These results indicated that the StY-genome species may have an autotetraploid origin and experienced recurrent hybridization. The complex St genomes in Pseudoroegneria in the polyploid state may gain more opportunities for within-species differentiation and recurrent hybridization. As a result, series modified versions of St genomes evolved into the StY genomes in some Elymus species.     

少花蒺藜草入侵对沙质草地氮库的影响

以我国北方大面积发生的入侵植物少花蒺藜草为对象,研究了其对科尔沁沙质草地土壤氮库和地上植物氮库的影响,并在室内条件下,以自然生境中少花蒺藜草伴生牧草披碱草和扁穗冰草为对照,利用¹⁵N同位素技术分析了少花蒺藜草的生物固氮能力.结果表明:与对照裸地和本地植物鹅观草样地相比,少花蒺藜草入侵地土壤总氮库分别显著增加47.5%和20.8%,土壤铵态氮库分别显著降低25.6%和25.2%.与鹅观草相比,少花蒺藜草地上部分植物氮库显著降低18.7%.少花蒺藜草的¹⁵N原子丰度、¹⁵N原子百分超、¹⁵N原子加权百分超均显著低于披碱草和扁穗冰草.少花蒺藜草和披碱草的氮肥利用率分别为48.5%和47.0%,差异不显著.与披碱草相比,少花蒺藜草生物固氮率为60.2%Ndfa.少花蒺藜草对氮素高效利用的特征,揭示了其适应沙质草地生态系统并蔓延的一种生态适应机制.     

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。     

Genomic constitutions of four Chinese endemic Elymus species: E. brevipes, E. yangii, E. anthosachnoides, and E. altissimus (Triticeae, Poaceae).

The objectives of this study were to determine the genomic constitution and to explore the genomic variation within four Chinese endemic Elymus species, i.e., E. brevipes (Keng) L?ve (2n = 4x = 28) and E. yangii B.R. Lu (2n = 4x = 28), E. anthosachnoides (Keng) L?ve (2n = 4x = 28), and E. altissimus (Keng) L?ve (2n = 4x = 28). Intraspecific crosses between different populations of the four Elymus species, as well as interspecific hybridizations among the four target species, and with six analyzer species containing well-known genomes, i.e., E. caninus (L.) L. (2n = 4x = 28, SH), E. sibiricus L. (2n = 4x = 28, SH), E. semicostatus (Lees ex Steud.) Melderis (2n = 4x = 28, SY), E. parviglumis (Keng) L?ve (2n = 4x = 28, SY), E. tsukushiensis Honda (2n = 6x = 42, SHY), and E. himalayanus (Nevski) Tzvelev (2n = 6x = 42, SHY), were achieved through the aid of embryo rescue. Chromosome pairing behaviors were studied in the parental species and their hybrids. Numerical analysis on chromosome pairing was made on the interspecific hybrids. With one exception, each meiotic configuration at metaphase I in the hybrids involving the target taxa and the analyzer species containing the "SH" genomes fit a 2:1:1 model with x-values ranging between 0.91 and 1.00; chromosome pairing in the hybrids involving analyzer parents with the "SY" genomes match a 2:2 model, with x-values between 0.97 and 0.99. All pentaploid hybrids with a genomic formula "SSYYH," except for two crosses having unexpected low c-values, had pairing patterns fitting the 2:2:1 model with x-values varying between 0.96 and 1.00. It is concluded based on hybridization, fertility, and chromosome pairing data that (i) the four target Elymus species are strictly allotetraploid taxa, (ii) they are closely related species, all comprised of the "SY" genomes, (iii) minor genomic structural rearrangements have occurred within the four Elymus species, and (iv) meiotic pairing regulator(s) exists in some of the Elymus taxa studied.     

Morphological Identification of Elymus sibiricus,E. nutans,and E. burchan-buddae,and Their Genomic Relationships

In order to investigate morphological variations of Elymus sibiricus L., E. nutans Griseb., and E. burchan-buddae (Nevski) Tzvelev ［=Roegneria nutans (Keng) Keng］, and to explore their systematic relationships, six morphological characters were measured and compared between the Elymus species. Interspecific hybridizations between E. nutans and E. sibiricus, and E. burchan-buddae were carried out with the aid of embryo rescue. Chromosome pairing behaviour was also analysed at metaphase- I of meiosis in pollen mother cells of F₁ hybrids. Morphologic characters, such as length of spikes and length of glumes varied considerably between different individuals of each species, whereas length and width of paleas were quite stable and different between species. The interspecific hybrids were completely sterile and their meioses were irregular. Meiotic configuration of E. nutans × E. burchan-buddae was 7.70I +13.40Ⅱ+0.06Ⅲ+0.08 IV, whereas that of E. sibircus×E. nutans was 11.98I+9.61Ⅱ+0.64Ⅲ+0.39Ⅳ+0.01V. It is concluded from the morphological and cytological study that (1) it is possible to identify the three Elymus species using the palea character, in addition to other traditionally applied characters; (2) Elymus nutans and E. burchan-buddae have a comparatively high genomie relationship, while E. nutans and E. sibircus have a relatively low genomic affinity to one another; and (3) a certain chromosome pairing regulator was presented in the hybrid between E. burchan-buddae andE. nutans.     

Genome constitution of Elymus tangutorum (Poaceae: Triticeae) inferred from meiotic pairing behavior and genomic in situ hybridization

Elymus tangutorum (Nevski) Hand.-Mazz (2n = 6x = 42) is a perennial species in the tribe Triticeae, which distributes in Nepal and north and northwest China. However, the genome constitution of E. tangutorum is controversial and its taxonomic status is not clear. Hybridizations of E. tangutorum were carried out with E. wawawaiensis J. R. Carlson & Barkworth (StH), Roegneria grandis Keng (StY), and E. dahuricus Turcz. ex Griseb. (StYH). Meiotic pairing in the hybrids E. tangutorum × E. wawawaiensis (StH), E. tangutorum × R. grandis (StY), and E. tangutorum × E. dahuricus (StYH) averaged 10.48, 11.12, and 20.92 bivalents per cell, respectively. The results suggested that E. tangutorum is an allohexaploid and contains the StYH genomes. Results of genomic in situ hybridization analysis strongly supported the chromosome pairing data. Therefore, E. tangutorum should be treated as Campeiostachys dahurica var. tangutorum (Nevski) B. R. Baum, J. L. Yang & C. Yen. Intergenomic rearrangements of E. tangutorum may be affected by environmental factors.     

Elymus sibiricus, E. nutans 和 E. burchan-buddae 的形态学鉴定及其染色体组亲缘关系的研究

为了进一步研究Elymus sibiricus L.、E．nutans Griseb．和E．burchan-buddae(Neuski)Tzelev [＝Roegneria nutans(Keng)Keng]的外部形态差异及其系统学关系,本文对这三种植物的6个穗部形 态性状进行了观测和比较,并对这三个Elymus种进行了种间杂交及杂种F1的减数分裂染色体配对行 为的分析研究。结果表明：这三个Elymus种的穗长及颖长等性状均变异很大,而内稃的长、宽则变异 不大并具有明显的种间差异。E. nutans×E．barchan-buddae及E.nutans×E．sibiricus的杂种F1均完 全不育,减数分裂不规则。E．nutans×E．burchan-buddae杂种F1的减数分裂构型为：7.70I+13.40 Ⅱ+0.06Ⅲ+O.08 Ⅳ,而E．sibiricus×E．nutans杂种F1的构型为11.98 Ⅰ+9.61Ⅱ+O.64Ⅲ+0.39 Ⅳ+0.01V。由本实验的形态学和细胞学的研究结果得出以下结论：1．利用内稃形态性状结合穗部 其它性状的差异能对这三个物种进行较准确的鉴定;2．E．nutans与E.burchan-buddae的亲缘关系较 近,而E．nutans与E．sibiricus的亲缘关系则较远;3. E,burchan-buddae×E．nutans的杂种Fl中存在着染色体配对控制因子。