中国芋属植物染色体数目及5个种的核型报道

对中国 8种 (包括 1变种 )芋属 (ColocasiaSchott)植物的体细胞染色体数目和其中 5个种的核型进行了报道。结果分别为 :异色芋C heterochromaH .LietZ .X .Wei,2n =2x =2 8=1 8m 1 0sm ;龚氏芋C gongiiC .L .LongetH .Li,2n =2x =2 8=1 8m (4SAT ) 1 0sm(4SAT) ;贡山芋C gaoligongensisH .LietC .L .Long ,2n =2x =2 8=2 4m 4sm ;李氏香芋C lihengiaeC .L .LongetK .M .Liu ,2n =2x =2 8=1 8m (1SAT ) 6sm 4st;花叶芋C bicolorC .L .LongetL .M .Cao 2n =2 8;紫杆芋C lihengiaeC .L .LongetK .M .Liuvar.nigraC .L .Long 2n =3x =4 2 ;大野芋C gigantea (Bmume)Hookf.,2n =2x =2 8=2 2m 4sm 2st;山芋C konishiiHayata 2n =2 8。除李氏香芋、龚氏芋、大野芋和山芋外 ,其余染色体数目均为首次报道。在核型方面 ,异色芋、龚氏芋、李氏香芋、贡山芋的核型均为首次报道     

上海地区若干种栽培植物的染色体数目

本文报道了上海地区栽培的11属12种植物的染色体数目,并就有关的细胞学和分类学问题略作了讨论。凭证标本藏于复旦大学生物系植物标本室。     

Chromosome Numbers of 10 Species and 3 Varieties in Actinidia Lindl.

Somatic chromosome numbers of 10 species and 3 varieties in Actinidia Lindl. are reported for the first time, except A. polygama (Sieb. et Zucc.) Maxim. Two ploidy levels, diploid and tetraploid, are found both in A. polygama and A. kolomikta (Maxim. et Rupr.) Maxim. Chromosome numbers are listed as follows: A. kolomikta (Maxim. et Rupr.) Maxim. 2n=58, 116, A. polygama (Sieb. et Zucc. Maxim. 2n=58, 116, A. macrosperma Liang 2n=116, A. callosa var. henryi Maxim. 2n=116, A. callosa var. discoler Liang 2n =116, A. cylindrica Liang 2n=58, A. chrysantha Liang 2n=116, A. sabiaefolia Dunn 2n= 58, A. melliana Hand.-Mazz. 2n=58, A. hemsleyana Dunn 2n=58, A. fulvicoma var. lanata (Hemsl.) Liang 2n=58, A. latifolia (Gardn. et Champ.) Merr. 2n=58, and A. lanceolata Dunn 2n=58.     

Chromosome Observations of Eight Species Endemic to China

A report of chromosome numbers for eight species endemic to China is made in the paper, including first counts for 4 genera and 4 species and first karyotypic analyses of two species. Sinojohnstonia chekiangensis (Migo) W. T. Wang (Boraginaceae) 2n=24*; Coptis chinenis Franch (Ranunculaceae) 2n=18**; Dichocarpum dalzielii (Drumm. et Hutch.) W. T. Wang et Hsiao (Ranunculaceae) 2n=24*; Eomecon chionantha Hance (Papaveraceae) 2n=18; Camptotheca acuminata Dcne. (Nyssaceae) 2n=44; Calycanthus chinensis Cheng et S. Y. Chang (Calycanthaceae) 2n=22**; Eucommia ulmoides Oliv. (Eucommiaceae) n=17; Pinellia pedatisecta Schott (Araceae) 2n=26; The previous reports of chromosome numbers of the same groups are compared with our own (See Table 1). The vouchers for the present study are preserved in the Herbarium of Futan University.     

Cytology of ten species in Anemone,one in Anemoclema and six in Clematis (Trib. Anemoneae,Ranunculaceae) from China

The somatic chromosome number and detailed chromosome morphology have been studied in ten species of Anemone, one species of Anemoclema, and six species of Clematis, all from China, namely Anemone davidii Franch. (2n=4x= 32), A. stolonifera Maxim. (2n=2x=16), A. flaccida Fr. Schmidt (2n=2x= 14), A. rivularis Buch.-Ham. (2n=2x= 16), A. begoniifiolia lévl. et Vant. (2n=2x= 16), A. hupehensis Lem. f. alba W. T. Wang (2n =2x = 16), A. tomentosa (Maxim.) Péi (2n=2x= 16), A. rupestris Hook. f. et Thoms. (2n=2x= 14), A. trullifolia var. colestina (Franch.) Finet et Gagnep. (2n = 2x = 14), A. trullifolia var. holophylla Diels (2n=2x= 14), A. demissa Hook. f. et Thoms. (2n=2x= 14), Anemoclema glaucifolium (Franch.) W. T. Wang (2n= 2x= 16), Clematis kockiana Schneid. (2n= 2x=16), C. rehderiana Craib. (2n = 2x = 16), C. ranunculoides Franch. (2n = 2x = 16), C. puberula var. ganpiniana(Lévl. et Vant. ) W. T. Wang (2n = 2x = 16), C. brevicaudata DC. (2n= 2x= 16), C. chrysocoma Franch. (2n = 2x = 16). The species of x = 8 in Anemone, and those in Anemoclema and Clematis have very similar karyotypes which consist of five pairs of large median-centromeric (rarely one pair of which are submedian-centromeric) and three pairs of subterminalor terminal-centromeric chromosomes.     

国产毛茛科银莲花族十七种植物的细胞学研究

研究了国产毛茛科银莲花族Trib．Anemoneae 17种植物的染色体数目和核型。10种银莲花属 Anemone L．植物中,1种(西南银莲花A．davidii)为x=8的四倍体(2n=4x=32),5种(匍枝银莲花A． stolonifera、草玉梅 A．rivularis、卵叶银莲花A ．begoniifolia、水棉花A．hupehensis f. alba、大火草A．tomen- tosa)为x=8的二倍体(2n=2x=16),4种(鹅掌草A．flaccida、湿地银莲花A．rupestris、蓝匙叶银莲花 A．trullifolia var．colestina、拟条叶银莲花A．trullifolia var．holophylla、展毛银莲花A．demissa)为x=7的 二倍体(2n=2x=14)。罂粟莲花Anemoclema glaucifolium 为x=8的二倍体。6种铁线莲属Clematis L.植 物(滇川铁线莲C．kockiana、长花铁线莲C．rehderiana、毛茛铁线莲C．ranunculoides、扬子铁线莲C． puberula var．ganpiniana、短尾铁线莲C．brevicaudata、金毛铁线莲A．chrysocoma)均为x=8的二倍体。银 莲花属中x=7的种类的核型彼此十分相似,均由6对大型具中部着丝点的染色体和1对具端部着丝点 的染色体组成;x=8的二倍体种类的核型与罂粟莲花属和铁线莲属植物的核型十分相似,均由5对大型 具中部着丝点和3对具端部或近端部着丝点的染色体组成。     

蜘蛛抱蛋属的细胞分类学研究Ⅱ

文章报道了13种蜘蛛抱蛋属植物的染色体核型,并对属内核型进化规律作了总结。作者认为随体染色体和第1对染色体可以作为本属核型的特征染色体。染色体数目变异与花部式样密切相关。本属植物原始的染色体基数为x=19。此外,对非整倍性变异的主要机制也进行了讨论。     

A Cytological Study of Fifteen Species in Six Genera of Liliaceae from Yunnan

Fifteen species in six genera of the family Liliaceae were karyomorphologically studied. They share the complex chromocenter type of the resting nuclei and the interstitial type of the prophase chromosomes in somatic cells except that Clintonia udensis Trautv. et Mey is of the densely diffuse type and gradient type respectively. Their karyotype formulas are listed as follows: Clintonia udensis Trautv. et Mey, 2n= 14=8m+4sm+2st (2SAT), belongs to 2A type; Smilacina henryi (Baker) Wang et Tang, 2n=36=12m+16sm+6st+2t (2SAT), 2C type; Smilacina fusca Wall., 2n = 36= 14m (2SAT) + 12sm+ 10st(2SAT), 2B type; Smilacinata tsienensis (Franch.) Wang et Tang, 2n= 36=22m +2sm+ 2st(2SAT), 2C type; Smilacina atropurpurea ( Franch.) Wang et Tang, 2n=36=18m+6sm(2SAT) +12st, 2C type: Polygonatum kingianum Coll, et Hesml., 2n=30= 12m(2SAT) +6sm+ lst+2t, 2C type; Polygonatum cirrhifolium (Wall.) Royal, 2n=30= 10m+4sm+ 12st+4t, 3C type; Polygonatum curvistylum Hua, 2n=78=24m (2SAT)+ 14sm (6SAT)+40st, 3C type; Polygonatum cathcartii Baker, 2n = 32 = 12m + 6sm + 10st+ 2t + 2Bs, 2C type; Lilium henricii Franch., 2n = 24 = 2m(2SAT) + 2sm + 10st+ 10t, 3A type; Lilium bakerianum Coll. et Hesml. var. rubrum Stearn, 2n=24=4m ( 2SAT) +10st+ 10t (2SAT), 3A type; Nomocharis bilouensis Liang, 2n= 24= 2m (2SAT) +2sm+ 12st+ 8t, 3A type; Nomocharis pardanthina Franch., 2n= 24=4m (2SAT)+12st (2SAT)+ 8t, 3A type; Nomocharis sauluensis Balf. f., 2n=24=4m(2SAT) +10st (2SAT) + 10t, 3B type; Notholirion campanulatum Cotton et Stearn 2n = 24 = 2m (2SAT) + 2sm + 14st(2SAT ) + 6t, 3A type.     

国产七种和一变种兰属植物的核型研究

对国产7种和1变种兰属植物,即邱北冬蕙兰Cymbidium qiubeiense、春兰C. goeringii、春剑 C．longibracteatum、线叶春兰C．serratum、蕙兰C.faberi、送春C.fabri var．szechuanicum、寒兰C．kanran、莎 叶兰C．cyperifolium 的核型进行了研究。具体结果如下：邱北冬蕙兰为2n=40=24m+12sm+4st;蕙兰为2n=40=30m+8sm+2st;送春为2n=40=26m+l0sm+4st;寒兰为2n=40=26m+12sm+2st;莎叶兰为2n=40=24m+12sm+4st;春兰为2n=40=24m+l0sm+4st+2t;春剑为2n=40=24m+l0sm+6st。线叶春兰为2n=40=28m+l0sm+2st。线叶春兰中偶尔发现染色体数有2n=41,43,60,80。     

四种牛首科吸虫染色体的观察

作者对四种牛首科吸早的染色体进行了观察和相对长度的测量。结果显示,假扇盘吸虫的染色体组型为ｎ＝４ｍ＋１ｓｔ＋２ｔ＝６,吴氏似牛首吸虫的染色体组型为ｎ＝４ｍ＋２ｓｍ＋１ｔ＝７,湖北似牛首吸虫的染色体组型为ｎ＝７ｍ＝７,范尼道 佛吸虫的染色体组型为ｎ＝６ｍ＋１ｓｍ＝７。其中,假扇盘吸虫、吴氏似牛首吸虫和湖北似牛首吸虫的染色体数目和组型为首次报道。     

The Studies on the Karyotypes and Cytogeography of Taxodium Rich.(Taxodiaceae)

The present paper deals with the karyotypic analysis of Taxodium ascendens Brongn. The somatic chromosomes in root-tip cells of the plant are found to be 2n =22, all with median and submedian constrictions. A character of the karyotype is that the chromosome 10 has a long kinetochore region (Plate 1:1). According to the terminology defined by Levan et al.^[18], the karyotype formula is k(2n)=22=20m+2sm, which is different to Huang et Hsu’s^[8] K(2n)=24=22m+2B(m). The karyotype belongs to “lA” of Stebbins’^[24] karyotypic symmetry and is generally regarded as a relatively primitive one. The species’ chromosome complement is 2n=22=2L+8M₂+12M₁ according to I.R.L.difined by Kuo et al.^[15] based on relative length. The lengths, arm ratios and types of chromosomes of the species are given in Table 1-I. The morphology of the chromosomes and the karyotype, are given in Plate 1:1. In the light of the works of Schlarbaum et al.^[21] and Mehra et al.^[17], K(2n)=22=20m (2SAT)+2sm and 2n=22=2L+6M₂+14M₁ are for T. distichum (L.) Rich. (see Table 1-II), K(2n)=20m+2sm and 2n=22=4L+4M₂+12M₁+2S for T. mucronatum Tenore (see Table 1-III, Plate 1:2), which belong to “lA” and “2A” respectively. The differences between three species in the ratio of the longest to the shortest chromosome, I.R.L. and the proportion of chromosomes with arm ratio >2 show that the karyotype of T. mucronatum is the most advanced and that of T. distichum the most primitive. The present author suggests that the sequence of evolutionary advance be T. distichum, T. ascendens, T. mucronatum. Based on the evidence from the karyotype analyses, ecology and geographical distribution (including fossil), the secondary center of genetic diversity (Fig. 1) and the probable evolu-tionary pattern (Fig. 2) of Taxodium are discussed.     

7种绢蒿属植物染色体数目和核型研究

首次报道了中国绢蒿属[Seriphidium (Bess.) Poljak.]7种植物的染色体数目和核型,其核型公式分别为:西北绢蒿[S.nitrosum (Web.ex Stechm.) Poljak.]2n=2x=18=6m(2SAT)+8sm +2st+2T;沙漠绢蒿[S.santolinum (Schrenk) Poljak.]2n=2x=18=14m+4sm;博洛塔绢蒿[S.borotalense (Poljak.) Ling et Y.R.Ling]2n=2x=18=2M+14m+2sm;新疆绢蒿[S.kaschgaricum (Krasch.) Poljak.]2n=2x=18=8m(2SAT)+10sm(2SAT);纤细绢蒿[S.gracilescens (Krasch.et Iljin) Poljak.]2n=2x=18=4m+14sm(2SAT);三裂叶绢蒿[S.junceum (Kar.et Kir.) Poljak.]2n=2x=18=10m+4sm+4st;民勤绢蒿[S.minchünensa Y.R.Ling]2n=2x=18=12m+6sm.结果表明,7种绢蒿植物中,博洛塔绢蒿最原始,西北绢蒿最进化.     

Karyotypes of the Genus Fritillaria from South Anhui

This paper reports chromosome numbers and karyotypes of five species of the genus Fritillaria from south Anhui. The origin of the material used in this work is provided in Table 1, micrographs of mitotic metaphase in Plate 1,2, and the parameters of chromosomes in Table 2. Except F. thunbergii Miq., the karyotypes and chromosome numbers of all the species in this paper were studied for the first time. The results are shown as follows: 1. Fritillaria qimenensis D. C. Zhang et J. Z. Shao Collected from Qimen, Anhui, it has the karyotype formula 2n = 24+4Bs = 3m+lsm+8st (2sc)+12t (2sc)+4Bs (Plate 1:1, 2). The chromosomes range in length 8.72-19.13μm, with the ratio of the longest to the shortest 2.19. Therefore, the karyotype belongs to Stebbins’ (1971) 3B. The secondary constrictions are found on the long arms of 7th and 10th pairs. All the five B-chromosomes are of terminal centromeres. The two chromosomes of the second pair show heteromorphy (Fig. 1, E) with arm ratios 1.86 and 1.56 respectively. 2. Fritillaria monantha Miq. var. tonglingensis S. C. Chen et S. F. Yin Collected from Tongling, Anhui, this species is shown to have three chromosome numbers, 2n =24+5Bs, 2n=24+2Bs and 2n=24. This paper reports 2 cytotypes: Type I: 2n = 24+5Bs = 4m+8st (2sc) +12t (2sc) +5Bs (Plate 1: 3, 4). The chromosomes range in length from 10.40 to 22.19μm, with the ratio of the longest to the shortest 2.13. It belongs to 3B of stebbins’(1971) karyotypic symmetry. The secondary constrictions are found on the short arms of 7th and the long arms of 9th chromosome pairs. The metacentric B-chromosomes and the small satellites located on the short arms are major characters of this cytotype. Type II: 2n=24=2m+2sm+8st(2sc)+12t(2sc) (Plate 1:5, 6). The chromosomes range in length from 13.84 to 29.81μm, with the ratio of the longest to the shortest 2.15. The karyotype belongs to Stebbins’3B. The secondary constrictions are found on the long arms of 5th and 10th pairs. No B-chromosomes are found. 3. Fritillaria xiaobeimu Y. K. Yang, J. Z. Shao et M. M. Fang Collected from Ningguo, Anhui, it has karyotype formula 2n = 24 = 2m+2sm+10st (4sc) + 10t (Plate 2:7, 8). The chromosomes range in length from 13.86 to 26.27μm, with the ratio of the longest to the shortest 1.89. The karyotype belongs to stebbins’3A. The secondary constrictions are found on the long arms of 7th and 9th pairs. 4. Fritillaria ningguoensis S. C. Chen et S. F. Yin Collected from Ningguo, Anhui, it is of karyotype formula 2n = 24 = 2m+2sm+8st (2sc) +12t (Plate 2: 9, 10). The chromosomes range in length from 9.11 to 23.23μm, with the ratio of the longest to the shortest 2.55. The karyotype belongs to Stebbins’3B. The secondary constrictions are only found on the long arms of the 10 th pair. 5. Fritillaria thunbergii Miq. Collected from Ningguo, Anhui, it is of karyotype formula 2n = 24 = 2m+2sm+8st(2sc) +12t(2sc)(Plate 2:11, 12). The chromosomes range in length from 8.83 to 19.85μm, with the ratio of the longest to the shortest 2.25. The karyotype belongs to stebbins’3B. There are secondary constrictions on the long arms of 5th and 7th pairs. The karyotype of the Ningguo material is similar to that of the Huoqiu (Anhui) material reported by Xu Jin-lin et al. (1987), but it is obviously different from 2n=2m(sc)+2sm+4st(2sc)+16t (2sc) reported byZhai et al. (1985) for the material from Xingjiang, Northwest China.     

夏蜡梅核型的研究

本文首次报道我国特有重点保护植物夏蜡梅的核型为K(2n)=2x=22=18m+2m(SAT)+2sm,属Stebbins的“1A”类型,在演化上处于相当原始的地位。它的核型似比北美的光叶红对称和原始,因此至少夏蜡梅属可能起源于中国。     

Chromosome Number and Development of Gametophytes in Euptelea pleiospermum (Eupteleaceae)

Euptelea Sieb. et Zucc. is a genus of 2 species, endemic to East Asia and disjunctly distributed in China and Japan. The present paper deals with cytology and embryology of the Chinese species E.pleiospermum Hook. f. et Thoms., providing materials for discussing the classificatory rank and relationships of the genus. This work reports the chromosome number, n = 14 and 2n = 28 (Plate 1: 1, 2), for E.pleiospermum, which is consistent with that of the Japanese species, E. plyandra Sieb. et Zucc.,reported by Sugiure (1931) and Whitaker (1933). This number is different from those of the related genera, i. e. n=20 or 2n=40 in Trochodendron and 2n = 48(46)in Tetracentron (Cronquist, 1981), and, therefore, the cytological evidence supports the treatmemt of the genus as a separate family by Smith (1945, 1946), Chrlotte and Bailey (1946), Cronquist(1981), Thorne (1983), Dahlgren(1983), Wang (1984). The ovule of E. pleiospermum is anatropous, bitegminous and crassinucellate (Plate 1: 10), the characters which have been already reported by Davis (1966). In addition, the present work shows that in E. pleiospermum the tapetum is glandular, consisting of 2-or 4-nucleate tapetal cells; cytokinesus at meiosis of pollen mother cells is simultaneous; microspore tetrads are mainly tetrahedral; pollen grains are 2-celled (Plate 1: 4, 5, 6, 9), the third megaspore from the micropyle is functional and develops into the Polygonum type of embryo sac, and synergids are of a wide-openly dichotomous filiform apparatus (Plate 2: 14, 18;Fig. 1:4,6). These are the characters reported here for the first time. Due to the lack of embryological da-ta for the related families, it is impossible to make a systematic comparison of embryology.     

从细胞学资料看金松属的系统位置

本文比较了金松(属)和杉科其他各属植物的核型,它的染色体数目(2n=20)和基数(x=10)较低,其核型最为对称。细胞学资料支持金松属从杉科分出另立金松科SciadopityaceaeHayata,它的系统位置则很可能比杉科来得原始。这也得到古植物学的支持。     

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.     

湖北贝母的染色体核型分析

本文报道了我国特有植物湖北贝母(Fritillaria hupehensis Hsiao et K.C.Hsia,百合科)的体细胞染色体数目和核型(2n=24=2m+2sin+4st+14t+2st~(sat).)     

三种食肉目动物的核型分析

本文报道了产于我国华北地区的艾鼬、貉和果子狸的核型。其中艾鼬2n=36。组型由20条双臂染色体、14条单臂染色体和一对性染色体组成。貉2n=65,它与wuster等报道过的貉的2n=42的核型表现出同种动物核型间的多态现象。果子狸2n=44,其c带带型中具有一对带有较大异染色质的中部着丝点染色体。