我国原生植物假泽兰(菊科)的细胞学研究

该文研究了我国原生植物假泽兰(Mikania cordata)台湾花莲居群、苗栗居群、宜兰居群以及台北居群的染色体数目和染色体形态。结果表明:所有居群的染色体数目为2n=36,第一对染色体为近中部着丝粒染色体,其长臂中部具有次缢痕,显著大于其余染色体。各居群的核型公式皆为2n=18m+18sm,核型均为2B型,染色体内不对称性指数(A_1)的变化范围为0.38~0.39,染色体之间不对称性指数(A_2)的变化范围为0.30~0.32。此为我国假泽兰居群染色体数目的唯一报道,也是对该种核型的首次报道。结合前人对假泽兰染色体数目的研究结果,认为假泽兰存在种内非整倍性现象,但在中国台湾的居群中目前仅发现基于x=18的二倍体(2n=36)。假泽兰的第一对染色体的长臂中部具次缢痕,与假泽兰属已报道的核型相似,这一次缢痕可作为假泽兰属的细胞学标记。核型资料、野外观察以及ISSR数据显示薇甘菊(M.micrantha)在我国的成功入侵与入侵种和本土种之间的杂交渐渗无关。根据标本记录和野外考察结果,我国假泽兰现在的分布区与过去相比有了很大的缩减,推测生境的破坏和薇甘菊的侵入可能是导致假泽兰在中国台湾地区逐渐消失的主要原因。     

国产13种鸢尾属植物的核型研究

对中国产13种鸢尾属Iris植物进行了核型研究。其中中甸鸢尾I.subdichotoma、长葶鸢尾I.delavayi、大锐果鸢尾I.cuniculiformis为中国特有。大锐果鸢尾的染色体数目及核型为首次报道,核型公式为2n=22=4m 6sm 12st(2SAT)。长管鸢尾I.dolichosiphon的核型为首次报道,核型公式为2n=22=4m 12sm 6st。中甸鸢尾的染色体数目为新报道,核型公式为2n=42=20m 22sm。矮紫苞鸢尾I.ruthenicavar.nana的染色体数目为新报道,3个居群的染色体数目均为2n=42,核型公式分别为中甸居群2n=42=30m 12sm(2SAT),丽江甘海子居群2n=42=28m 14sm(2SAT),中甸尼西居群2n=42=36m 6sm(4SAT)。结合以往的细胞学研究结果,显示尼泊尔鸢尾亚属subgen.Nepalensis是一个染色体数目变化较大的类群,其中的中甸鸢尾可能是联系野鸢尾属Pardanthopsis与尼泊尔鸢尾亚属的重要类群。已报道的紫苞鸢尾I.ruthenica染色体数目为2n=84,与我们所研究的变种矮紫苞鸢尾(2n=42)呈倍性关系,通过与相邻类群的分析比较,认为紫苞鸢尾应是由二倍体类群演化而来。还对鸢尾属内染色体数目的变化和核型进化的趋势进行了探讨。     

三种紫金牛属植物的核型研究

对紫金牛属三种植物进行了核型分析,其中朱砂根染色体数目2n=46、核型2n=46=42m+2sm+2st和紫金牛核型2n=92=58m+24sm+10st为首次报道;虎舌红核型公式为2n=44=40m+2sm+2st。核型分析结果显示,紫金牛属植物存在染色体数目非整倍体变异及多倍化的进化方式。     

雅江点地梅（报春花科）3个居群的核型和倍性变化

首次报道了雅江点地梅（Androsace yargongensis)3个居群的染色体数目和核型,对倍性也进行研究。3个居群的染色体数目（2n),核型公式（KF）,染色体相长度组成（C．RL）,核型不对4称系数（As,K%)和核型类型（KT）分别为：野牛沟居群2n=40,KF=36m(1SAT) 2SM 2ST b,C,RL=2L 14M2 22M1 2S 2bS,As.K=54.75%,KT=2A;巴颜喀拉山居群2n=40,KF=36m 2sm 2st 1b,C.RL=4L 16M2 18M1 2S 1bS,As.K=56.31%,KT=2B;达坂山居群2n=60,KF=40m 14sm 6st,C.RL=4L 24M2 26M1 6S,As.K=59.56%,KT=2B。根据3个居群的染色体和核型不对称性与居群所在地的地理位置,认为雅江点地梅核型和倍性的演化与高海拔生态环境和寒冷、干旱的气候加剧有密切关系。     

大戟科野桐属4种6个居群的核型研究

采用常规压片法对大戟科野桐属4种(含变种)6个居群进行了体细胞染色体数目和核型研究。研究结果显示其染色体数目为2n=22或2n=44,核型均为1A。核型公式分别为:绒毛野桐2n=4x=44m;白背叶2n=20m 2sm或2n=2x=22m或2n=20m(2sat) 2sm;广西白背叶2n=2x=22m;毛桐2n=2x=22m。其中白背叶[Mallotus apelta(Lour.)Muell.-Arg.]、广西白背叶[M.apelta(Lour.)Muell.-Arg.var.kwangsiensisMetic.]和毛桐[M.barbatus(Wall.)Muell.-Arg.]的染色体数目和核型均为首次报道。根据野桐属细胞分类学资料推测,多倍化和异基数变异是野桐属属内物种形成的重要方式。     

国产6种点地梅属植物的核型及其系统学意义

报道了点地梅属6种12个居群的染色体数目和核型。它们的染色体数目(2n)、核型公式(KF)、染色体相对长度组成(CRL)、核型不对称性系数(A．sK%)和核型类型(KT)分别为：点地梅在南京的2个居群都是2n=2x=20,KF=18m 2sm,CRL=2L 6M2 10M1 2S,核型KT属于1A型,但核型不对称性系数As．K%分别是55.04％和56．71％;北点地梅在内蒙古锡林郭勒和白音锡勒居群的2n=2x=20,KF分别为16m 2sm 2st 1b和16m 2sm 2st 4b,染色体相对长度组成分别是14M2 4M1 2S 1b和12M2 6M1 2S 4b,核型不对称性系数As．K％分别是57．65％和58．86％,属2A型和2B型;高原点地梅在青海玛沁县昌马河居群和兴海县温泉居群都是2n=2x=20,KF=10m 8sm 2st。但相对长度组成分别为12M2 8M1和4L 6M2 6M1 4S,As．K％分别是60．35％和62．57％,属2A型和2B型;雅江点地梅在青海玛多县巴颜喀拉山居群和大通县达坂山居群分别为2n=4x=40和2n=6x=60,KF=36m 2sm 2st和KF=46m 10sm 4st 2b,CRL=2L 20M2 14M1 4S和CRL=6L 30M2 16M1 8S 2b,As．K％分别为55．62％和58．31％,核型均属于2B;巴颜喀拉山北坡的鳞叶点地梅2n=40、60、80。西藏点地梅青海湖居群中有2种细胞型：①2n=2x=24,KF=12m 6sm 6st 4b,CRL=6L 6M2 8M1 4S 4b,As．K％=65．74％,核型属2B;②2n=2x=22,KF=14m 4sm(2SAT) 4st,CRL=4L 6M2 8M1(2sAT) 4S,As．K％=63．40％,核型也属于2B。西宁西山湾居群也有2种细胞型：①2n=3x=36,KF=36m,CRL=4L 12M2 20M1,As．K％=54．82％,核型属1A;②2n=3x=33,KF=33m,CRL=3L 12M2 18M1,As．K％=52．11％,核型属1A。点地梅属的染色体原始基数可能是x=10,在种间或种内观察到有3种核型变化：染色体非整倍性变化、多倍化和核型不对称性变化。将2倍体居群的核型和不对称性进行比较,可以看出点地梅是较对称的核型。因此,在研究的种中应是比较原始的类群。北点地梅的核型不对称性和进化程度高于点地梅而低于高原点地梅和西藏点地梅。染色体多倍化的雅江点地梅、鳞叶点地梅和西藏点地梅等在核型上也许是最进化的类群。     

青藏高原六种棘豆属植物的染色体数目及核型报道

对6种棘豆属植物（Oxytropis）的13个居群样进行细胞学研究,其中黄花棘豆（O．ochrocephala）、绢毛棘豆（O．tatarica）、甘肃棘豆（O．kansuensis）和铺地棘豆（0．humifusa）为首次报道染色体数目（2n=16）和核型;在胀果棘豆（O．stracheyana）中（2n=48）首次发现B染色体。现有的细胞学资料表明：棘豆属植物中多倍体占总报道数的58％,这说明多倍化在本属植物的进化过程中起着非常重要的作用,但青藏高原仅有一种植物发现多倍体,多倍化并不占主导地位,而主要表现为二倍体水平上的结构变异,即核型不对称性的变化。     

中国葱属根茎组植物15种25居群的核型研究

采用常规压片法,对15种25居群葱属根茎组植物进行核型研究,首次报道荒漠韭Allium tekesicola、蓝花韭A.beesianum的染色体数目和核型,并增补了一些根茎组植物的细胞学资料。结果表明：供试类群为二倍体或四倍体,核型类型为1A、2A或2B;高山韭A.sikkimense壤塘居群和荒漠韭具短臂随体,宽苞韭A.platyspathum的和布克赛尔居群、奇台居群具居间随体;野黄韭A.rude雅江居群和荒漠韭中各存在1条B染色体。结合前人研究结果,我们讨论了中国根茎组植物的染色体基数、随体染色体的多型性、B染色体的进化意义和该组植物的进化方式,探讨了天蓝韭A.cyaneum、齿丝山韭A.nutans的地理分布成因,得到了如下推论：（1）中国根茎组植物的染色体基数x=8;（2）中国根茎组植物的核型进化趋势为：1A→2A→2B→2C;（3）中国根茎组植物的随体染色体具多型性;（4）多倍化和结构变异是中国根茎组植物进化的两种重要方式;（5）天蓝韭和齿丝山韭以多倍化和无性生殖来克服扩大新的生存空间遇到的困难。     

六个石蒜居群的核型及四倍体石蒜的发现

染色体与核型的变化是植物系统发育和进化的一个重要方面。石蒜属Lycoris植物特别是石蒜L.radiata在染色体数目和核型上存在较大的变异。通过对不同居群的石蒜核型研究,可以为石蒜和石蒜属植物的核型演化及演化机制提供一些重要的基础资料。本文对分布于中国安徽省和浙江省的6个石蒜居群进行了细胞学研究。结果表明,6个石蒜居群的染色体数目和核型分别为：霍山居群2n=44=28st＋8t＋8T,2n=22=6st＋12t＋4T;黄山居群2n=22=22t,2n=22=18st＋4t,2n=21=12st＋7t＋2T;滁州居群2n=33=33t;马鞍山居群2n=33=18st＋15T,2n=25=1m＋20st＋2t＋2T;宣城居群2n=22=20st＋2T,2n=21=1m＋20st;杭州居群2n=22=12st＋4t＋6T,2n=21=18st＋3t。其中,部分居群的核型类型为首次报道;并首次发现了四倍体的石蒜居群。此外,对石蒜的核型进化和多倍体起源进行了初步探讨。     

沙鞭不同居群染色体数目及核型分析

该研究采用常规压片法对分布于内蒙古高原的6个沙鞭居群的染色体核型进行研究,探讨沙鞭不同居群的核型特征及其进化关系。结果表明：(1)沙鞭6个居群的染色体数目恒定,均为2n = 2x = 46。(2)染色体有正中部着丝粒(M)、中部着丝粒(m)、亚中部着丝粒(sm)和亚端部着丝粒(st)4种类型,且中部着丝粒类型数量最多。(3)沙鞭不同居群核型公式存在差异。(4)核型类型有1A、2A、1B和2B型4种,染色体平均臂比介于1.29 ~ 1.62,长度比为1.73 ~ 2.68。(5)核型不对称系数处于55.96% ~ 59.95%,核型对称性较高,进化程度较为原始,其中37居群的核型不对称系数最大,进化程度较高,34居群的核型不对称系数最小,进化程度较低。(6)沙鞭6个居群聚为两类,37居群单独聚为一类,其他所有居群聚为一类,表明37居群与其他居群具有相对较远的亲缘关系。该研究首次报道了沙鞭不同居群的染色体核型特征及其进化关系,为以后沙鞭的系统进化和优良种质资源筛选奠定了细胞学证据。     

Chromosome Numbers and Karyotypes of Six Oxytropis Species (Fabaceae) from the Qinghai Tibetan Plateau,China

Chromosome numbers and karyotypes of 13 populations of six Oxytropis species (Fabaceae) from the Qinghai Tibetan Plateau, China, were presented. The chromosome numbers and karyotypes in O.ochrocephala, O.tatarica, O.kansuensis and O.humifusa (2n=16) were reported for the first time. B chromosomes were found from O.stracheyana (2n=48). The basic chromosome number of x=8 is confirmed for the genus. The available chromosomal data indicate that polyploidy may have played an important role in the evolution of the genus, with the incidence of polyploidy in the genus reaching 58%. However, our results indicated that among the populations here examined only one was a hexaploid with 2n=48. Such a chromosomal pattern indicates that the karyotypic repatterning at the diploid level seems to be the predominant feature of chromosomal evolution in the Oxytropis species from the Qinghai Tibetan Plateau, and that sympatric speciation via hybridization and polyploidization has played a minor role in the species diversification of the genus from this area.     

Chromosome Studies of 10 Chinese Species of Adenophora Fisch.

This paper is a cytological part of biosystematic studies on Adenophora Fisch. in Heilongjiang, China. Chromosomal numbers and karyotypes of 10 spp. and 1 var. are reported. The results are summarized in Table 1. The chromosomal numbers and karyotypes of 6 spp. and 1 var. are first reported, including tetraploid species (2n=68) (A. pereskiifolia var. alternifolia, A. amurica and A. gmelinii). The basic number of chromosomes in the genus is mainly 17 (x=17), but that of A. trachelioides and A. remotiflora (2n=36) is 18 (x=18), an unique one in the genus. The karyotypes of all the species examined are relatively uniform, which means that they are derived from a common ancestral type. The chromosomes are smaller, varying between 2-4 μm. The majority of chromosomes are m and sm ones. And a pair of sat-chromosomes and a pair of st chromosomes are always present. The centromeric terminalization value of chromosomes is 57.5-61.9%, showing higher symmetry of karyotypes in the genus. The karyotype of A. tetraphylla (2n=34) is the most symmetrical among these species. Based on its morphological characters and distribution, the species may be considered as a relatively primitive member of the genus. The results show two revolutionary trends in karyotypes of the genus: number variation (including polyploidy and aneuploidy) and structural variation. The polyploidy is one of the principal patterns of speciation in the genus. Combined with the other characters, these species are taxonomically discussed, and two new taxa (A. amurica Fu et Liu and A. pereskiifolia ssp. alternifolia (Fuh ex Y. Z. Zhao) Fu et Liu) are confirmed. A. trachelioides and A. remotiflora (both 2n=36) with obvious petioles seems more advanced than the other species (2n 34).     

Karyomorphology of four species in Ancylostemon,Briggsiopsis and Lysionotus (Gesneriaceae)

Reported in the present paper are chromosome numbers and karyotypes of three genera of the Gesneriaceae, i.e. Ancylostemon Craib. , Briggsiopsis (Franch.) K. Y. Pan and Lysionotus D. Don. The former two genera are endemic to China. The karyotype of Ancylostemon aureus (Franch.) Burtt is formulated as 2n = 34 = 20m(1sat) + 14sm, with the same chromosome number as its allied species A. convexus Craib. This species is characterized by the interphase nucleus of complex chromocenter type and the proximal type of chromosomes in the mitotic prophase. The chromosome number of the monospecific genus Briggsiopsis is 2n = 34, the same as the lowest chromosome number reported in Briggsia. The karyotype of Briggsiopsis, which is formulated as 2n = 25m + 6sm + 3st, also seems to be primitive among the species of the two genera. Briggsiopsis is characterized by the interphase nucleus of simple-complex chromocenter type and the interstitial-gradient type of chromosomes in the mitotic prophase. The chromosome number of Lysionotus carnosus Hemsl. is the lowest reported in this genus. Its karyotype is formulated as 2n= 30 = 21m + 5sm + 3st + lt. Lysionotus serratus var. pterocaulis, with the karyotype being formulated as 2n= 32 = 2lm + 10sm + lt, has the same chromosome number as var. serratus. These two species show a remarkable differentiation of karyotypes and are characterized by the interphase nuclei of simple-complex chromocenter type and the gradient type of chromosomes in the mitotic prophase. _ .     

中国木兰属部分种的核型分析

对我国木兰属（Ｍａｇｎｏｌｉａ）１２个种的核型进行了分析,ｘ＝１９,厚朴、凹叶厚朴、红花山玉兰、山玉兰、天目木兰、夜合为二倍体,２ｎ＝２ｘ＝３８;紫玉兰、玉兰、玉堂春为四倍体,２ｎ＝４ｘ＝７６;乐东木兰、荷花玉兰、狭叶荷花玉兰为六倍体,２ｎ＝６ｘ＝１１４,该属具有属内多倍体（次生多倍化）。核型分析结果表明：木兰属种间核型差异较小,大部分为中部着丝粒染色体（ｍ）,少数为具近中部着丝粒染色体（ｓｍ）,二倍体种中只有一对具近端部着丝粒染色体（ｓｔ）,其核型均为２Ｂ型。     

中国4种蝙蝠的G-带和C-带

首次报道了中国4种蝙蝠的G-带和C-带核型。大长舌果蝠(Eonycteris spelaea)二倍染色体数目(2n)为36,常染色体臂数(FN)为56;马来假吸血蝠(Megaderma spasma)2n=38,FN=70;黑髯墓蝠(Taphozous melanopogon)2n=42,FN=64;皱唇蝠(Chaerephon plicata)2n=48,FN=54。通过C-带显示,除着丝粒异染色质外,在皱唇蝠的许多染色体臂内和马来假吸血蝠染色体的端粒处也有较多的插入异染色质,大长舌果蝠的基因组中既有臂内异染色质也有端粒异染色质。     

Evidence for chromosome number reduction and chromosomal homosequentiality in the 24-chromosome Korean frog Rana dybowskii and related species

The karyotype of the Korean frog Rana dybowskii with its pattern of C-band heterochromatin distribution was numerically analyzed. There are 2n = 24 chromosomes in the karyotype representing a reduction in number from the typical 2n = 26 chromosome karyotype of Rana. The karyotype shows other evidence of reorganization relative to 26-chromosome species. The chromosomes grade smoothly in size from largest to smallest without the two size classes that are characteristic for 26-chromosome species. In contrast to many 26-chromosome species, there are few centromeric C-bands but many interstitial ones. C-bands for each homologous chromosome pair are distinctive. A prominent secondary constriction is located on one of the smallest chromosomes, chromosome 11, in a position similar to that seen in most 26-chromosome species. The karyotype of R. dybowskii is compared to those of other species of Rana known to have 2n = 24 chromosomes; it is most similar to that of R. chensinensis, less so that of R. ornativentris and less still to that of R. arvalis in terms of the positions of centromeres and secondary constrictions. C-bands as well as secondary constrictions in the karyotypes of these frogs show evidence of chromosomal homosequentiality. The process and possible consequences of chromosome number reduction from an ancestral 26-chromosome karyotype is also evident in the karyotypes of these closely allied palearctic frogs. Pericentric inversions followed by fusion of two small elements apparently produced a new chromosome, chromosome 6, occurring originally among northeast Asian populations.     

A Cytological Study of Six Populations of Disporum cantoniense (Liliaceae)

Disporum cantoniense (Lour.) Merr. is widely distributed in the area from the Himalayas to Indonesia, via south China, Indo-China and Taiwan, especially in the various parts of Yunnan Province. In this paper, the karyotype variation of six populations of the apecies from southeastern, middle and northwestern part of Yunnan are studied. The result shows that the chromosome number of all the populations are 2n= 14. The species was reported to have 2n= 16, 30 (Hasegawa 1932, Mehra and Pathamia 1960, Kurosawa 1966, 1971, Tang et al. 1984) and 2n= 14 (Kurosawa 1971, Mehra and Sachdeva 1976a). 2n= 14, 2n= 16 and 2n=32 were observed in the material from Taiwan (Chuang, et al. 1962, Chao, 1963, Hsu, 1971, 1972, Chang, 1974). Based on the cytological study of D. megalanthum Wang et Tang and seven other species in this genus reported by other authors, Hong and Zhu (1990) consider that the basic number of this genus is x= 8, because species with 2n= 16 was more than those with 2n= 14, despite some number variation of chromosomes in this genus. Based on the results of the present paper, we consider that x= 7 might be one of the basic numbers of this genus. In the karyotypes studied here, the relative chromosome lengths and the ratio of the longest/the shortest chromosomes of the six populations are rather approximate. Moreover, all the karyotypes belong to Stebbins’3B type. However, karyotype variation was detected in these populations. The homologues of the 2nd, 3rd and 6th pair of chromosomes are different from each other, the numbers and popsition of satellites are found very different, among the populations except for the Lijiang population, the 1st, 2nd, 3rd or 4th pair of all the populations exhibited heterozygosity. Although all the karyotypes belong to Stebbins ‘3B type, the homologues were more regular in the Lijiang population than in the other populations, and the most irregular in the Wenshan population, because it hadfour pairs of heterozygous chromosomes.     

伞形科3个种5个居群的核型分析

对伞形科前胡属(PeucedanumL.)2个种以及羌活属(NotopterygiumH.Boiss.)1个种3个居群的染色体数目和核型进行了研究。研究表明,它们的染色体数目均为2n=22,核型公式可分别表示为长前胡:2n=2x=22=22 m(1 SAT),属1A型;松潘前胡:2n=2x=22=20 m 2 sm,属2A型;宽叶羌活的3个居群分别是:马边大风顶居群1为2n=2x=22=6 m 12 sm 4 st,属2A型;马边大风顶居群2为2n=2x=22=12 m 4 sm 6 st,属2B型;屏山老君山居群为2n=2x=22=4 m 14 sm 4 st,属2A型。其中长前胡和松潘前胡的染色体数目和核型为首次报道。