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。     

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.     

中国西部高山8种龙胆属植物的染色体数目

本文报道了我国西部高山上的８种龙胆属植物的染色体数目。其中宽筒龙胆的染色体数目为２ｎ＝４８,提钟龙胆的染色体数目为２ｎ＝２６,小齿龙胆和四数龙胆的染色体数目为２ｎ＝２４,南山龙胆的染色体数目为２ｎ＝１８,上述５种植物的染色体数目为首次报道,其余蓝玉簪龙胆的染色体数目为２ｎ＝２４,线叶龙胆的染色体数目为２ｎ＝４８,钻叶龙胆的染色体数目为２ｎ＝１８。     

四种云杉的核型分析

首次报道了中国珍稀濒危保护植物长叶云杉 ( P. smithiana ( Wall.) Boiss.)和康定云杉 ( P. likian-gensis( Franch.) Pritz.var.montigena( Mast.) Cheng ex Chen)及我国特产的青海云杉 ( P.crassif oliaKom.)和林芝云杉 ( P.likiangensis( Franch.) Pritz.var.linzhiensis Cheng et L.K.Fu)的核型。它们的核型公式都是 K( 2 n) =2 4 =2 2 m+2 sm (林芝云杉有 1条 B染色体 ) ,染色体相对长度组成分别为 2 n=1 4 M2 +8M1 +2 S,2 L+1 2 M2 +6M1 +4S,2 L +1 0 M2 +1 0 M1 +2 S,和 2 L+1 2 M2 +6M1 +4S.均为 2 A (除青海云杉 1 A外 )核型类型。     

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. _ .     

湖南的新记录植物(六)

报道了湖南植物分布新记录, 其中新记录属2 个, 即假木豆属(Dendrolobium(Wight etArn.)Benth.)和排钱树属(Phyllodium Desv.);新记录种20 个, 即鹰爪花(Artabotrys hexapetalus(Linn.f.)Bhandari)、岩生碎米荠(Cardamine calcicola W.W.Smith.)、山芥碎米荠(Cardamine griffithii Hook.f.et Thons.)、白花碎米荠(Cardamine leucantha (Tausch)O.E.Schulz)、紫彩绣球(Hydrangea sargentiana Rehd.)、狭叶黄檀(Dalbergia stenophylla Prain)、假木豆(Dendrolobium triangulare(Retz.)Schindl.)、排钱树(Phyllodium pulchellum (L.)Desv.)、华野豌豆(Vicia chinensis Franch.)、绿萼凤仙花(Impatiens chlorosepala Hand.-Mazz.)、岩谷杜鹃(Rhododendron rupivalleculatum Tam.)、革叶铁榄(Sinosideroxylon wightianum (Hook.et Arn.)Aubr.)、宁波木犀(Osmanthus cooperi Hemsl.)、天人草(Comanthosphace japonica (Miq.)S.Moore)、华南野靛棵(Mananthes austrosinensis (H.S.Lo)C.Y.Wu et C.C.Hu)、东亚磨芋(Amorphophallus kiusianus (Makino)Makino)、齿唇兰(Anoectochilus lanceolatus Lindl.)、圆叶石豆兰(Bulbophyllum drymoglossum Maxim.ex Okubo)、毛杓兰(Cypripedium franchetii E.H.Wilson)、绿花斑叶兰(Goodyyera viridiflora (Bl.)Bl.);新记录变种1 个, 即异果崖豆藤(Millettia dielsiana Harms var.heterocarpa (Chun ex T.Chen)Z.Wei)。     

紫苏属植物染色体数目和核型分析

通过对26份紫苏属材料进行染色体数目的观察,并对其1种(包括紫苏和白苏)及2变种材料各一份进行核型分析.结果显示,紫苏属植物染色体数均为2n=40,其核型公式分别为紫苏[P.frutescens(L.)Britton var.frutescens(zi-su)]2n=40=20m(2SAT) 10sm 10st;野生紫苏[P.frutescens var.purpurascens(Hayata)H.W.Li]2n=40=18m 14sm(2SAT) 8st;回回苏[P.frutescens var.crispa(Benth.)Deane ex Bailey]2n=40=10m(2SAT) 14sm 16st;白苏[P.frutescens(L.)Britton var.frutescens(bai-su)]2n=40-24m 12sm(2SAT) 4st.结果表明,紫苏属不同原(变)种植物的染色体数日相同,但在核型上存在一定的差异,其染色体核型为首次报道.     

New Taxa of Lespedeza (Leguminosae) from China

Lespedeza fasciculiflora Franch. var. hengduanshanensis C. J. Chen and L. davurica (Laxm.) Schindl. Subsp. huangheensis C. J. Chen are described from the Hengduan Mountains of SW China and from the Yellow Rivervalley respectively.     

四川省都江堰龙池地区苔藓植物染色体的研究

报道了四川省都江堰市龙池地区６种苔藓植物配子体的以体研究结果,５种材料均取其生长点或茎尖,观察和计数了细胞有丝分裂中期的染色体数,１．中华扁萼苔（Ｒａｄｕｌｌａｃｈｉｎｅｎｓｉｓ Ｓｔｅｐｈ．ｖａｒ．ｒｏｐｔｕｄｉｓｔｉｐａ）ｎ＝８;２．蛇苔（Ｃｏｎｏｃｅｐｈａｌｕｍ ｃｏｎｉｃｕｍ（Ｌ．）Ｄｕｎ．）＝９;３．长齿匍灯藓（Ｐｌａｇｉｏｍｎｉｕｍ ｄｒｕｍｍｏｎｄｉｉ （Ｂｒｕｃｈ．＆ Ｓｃｈｉｍｐ     

无患子科三个单种属植物的染色体计数

报道无患子科（Sapindaceae）3个单种属植物的染色体数目,其中掌叶木属和茶条木属为首次报道。掌叶木属（Handeliodendron Rehd．）、茶条木属（Delayaya Franch．）、伞花木属（Eurycorymbus Hand．-Mazz．）植物的染色体数目分别为2n=40,28和26,且它们的染色体皆为小染色体。     

青海南部三种紫菀属植物的核型研究

报道了青海南部三种紫苑属植物的核型,染色体间期和前期 色体分别为复杂型和中间型,染色体数目均为２ｎ＝１８,基数为ｘ＝９,中期染色体主要由中部与亚中着丝点染色体组成。     

草芍药,野牡丹和黄牡丹的核型研究

本文报道了国产芍药属(Paeonia L.)植物草芍药、野牡丹和黄牡丹的染色体数目及核型,均为2n=10=6m 2sm 2st,它们分别具2、3和4对次缢痕,所具次缢痕的数目和位置可以作三种核型的区别特征。     

七种木蓝属植物的染色体研究

本文采用根尖压片法对豆科（Leguminosae）木蓝属（IndigoferaL.）植物的7个种：多花木蓝（Indigofera amblyantha Craib）、河北木蓝（I.bungeana Walp.）、滇木蓝（I.delavayi Franch.）、腺毛木蓝（I.scabrida Dunn）、四川木蓝（I.szechuensis Craib）、刺序木蓝（I.silvestrii Pamp.）、尖叶木蓝（I.zollingeriana Miq.）的染色体数目和核型进行了研究。结果表明：除了尖叶木蓝染色体数目为2n=4x=32（四倍体）外,其余6种木蓝的染色体数目均为2n=2x=16（二倍体）。尖叶木蓝和刺序木蓝核型分类为2A型,其余5种木蓝的核型均为1A型。种间核型差异很小。供试种主要包含中部着丝点区染色体。滇木蓝、腺毛木蓝、刺序木蓝、四川木蓝和尖叶木蓝的核型分析为首次报道。     

四川菊科植物新记录

报道四川菊科植物分布新记录15种,即白山蒿、韦谷草白背变种、百能葳、小一点红、异羽千里光、无毛蟹甲草、黑紫橐吾、蒜叶婆罗门参、华北鸦葱、毛柄蒲儿根、三尖千里光、华麻花头、棉头风毛菊、灰白风毛菊、丽江蓟。列出这些种的标本引证、地理分布和近缘种的区别等。     

Report on Karyotypes of Smilacina tatsienensis and Ophiopogon japonicus

In the present paper the karyotypes of Smilacina tatsienensis (Franch.) Wang et Tang and Ophiopogon japonicus (L. f.) Ker.- Gawl. in Sichuan were analysed. The karyotypes of the two species are reported for the first time. The results are shown as follows. Smilacina tatsienensis (Franch.) Wang et Tang is a dipoiid. Its karyotype formula is 2n=2x=36=16m+10sm+10st(4SAT) (Plate 1: Fig. 1, 3). The karyotype is bimodal with ten large and eight small chromosome pairs and the length ratio of the tenth pair to the eleventh being 1.33. The length ratio of the largest chromosome and the smallest one is 4.33. Ophiopogon japonicus (L.f.) Ker.-Gawl. is a mixoploid, with diploid, triploid and tetraploid cells in a single plant. The karyotype formula of the diploid is 2n=2x=36=18m (4SAT)+18sm(Plate 1: Fig. 2, 4). The species is of a bimodal karyotype with eight large and ten small chromosome pairs and the length ratio to the eighth pair and the ninth being 1.10.There are nine metacentric pairs (two pairs of sat-chromosomes) and nine submetacentric pairs.     

Cypripedium wumengense and Its Allies

In addition to describing a new species, Cypripedium wumengense, as well as a new variety, C. bardolphianum var. zhongdianense, nomenclatural and taxonomic notes are made on its allies and the division to which they belong. They are ltrge]y found in the Hengduan Mountains in southwestern China, characterized by the absence of bract, havirg lip more or less covered with small wart-like outgrowths, and that as the capsule matures the scape becomes much elongated. Six species of this group have hitherto been reported, of which, however, C. ebracteatum and C. nutans are regarded here as conspecific with C. fargesii and C. bardolphianum respectively. Thus, including the new taxa described here, it composes five species and one variety: C. bardolphianum W. W. Sm. et Farrer (var. bardolphianum and var. zhongdianense S. C. Chen), C. micranthum Franch., C. fargesii Franch., C. margaritaceum Franch. and C. wumengense S. C. Chen. They are all grouped here into the same section, Sect. Trigonopedium (Franch.) Pfitz., the oldest legitimate name of this group in the rank of section.     

Typification of the Boissier names in Anthriscus Pers. (Apiaceae)

Boissier described several taxa in Anthriscus , summarized in his Flora orientalis account. The names include A. lamprocarpa, A. kotschyi, A. ruprechtii, A. tenerrima, A. t. var. leiocarpa, A. anatolica, A. macrocarpa, A. nemorosa var. mollis, A. n. var. glabra; the hst four are still recognized as separate species. These names are typified in this paper, based on the material in Boissier herbarium at G.     

Cytological Studies on Some Plants of Sichuan and Neighbouring Regions (I)

From standpoint of floristic division, Sichuan is located in the middle part of Eastern Asiatic Region (Takhtajan 1978) or is the area where Sino-Himalayan Forest Subkingdom and Sino-Japan Forest Subkingdom meet (wu 1979). Here exist many socalled Arcto-Tertiary elements and newly originated species or races. In order to bring the light the origin and differentiation of Eastern Asiatic elements, cytological investigation on plants of this region are very significant. The materials of the following 5 species were collected on Mt. Emei in Sichuan Province. Voucher specimens are kept in CDBI. 1. Toricellia angulata Oliver var. intermedia (Harms) Hu PMC meiotic examination revealed n = 12 at diakinesis (Pl. I fig. 9) Toricellia, consisting of 2 spp., is endemic to Eastern Asiatic Region. Based on our result along with the report of Toricellia tiliifolia (Wall.) DC. (2n=24) by Kurosawa (1977), we argue that the basic chromosome number of Toricellia is 12. Many authors, such as Airy-Shaw (1973), Dahlgren (1975, 1977), Takhtajan (1969, 1980), Thorne (1983), have adopted Hu’s (1934) treatment erecting it as a monotypic family Toricelliaceae. Its systematic position, whether closer to Cornaceae than to Araliaceae or vice versa, has been in dispute. Cytologically it seems closer to Araliaceae, as shown anatomically (Lodriguez 1971), because the basic chromosome number of Cornaceae s. 1. is x=11, 9, 8 (Kurosawa 1977), whereas that of Araliaceae is 12 (Raven 1975). 2. Cardiocrinum giganteum (Wall.) Makino Somatic chromosome number, 2n=24 was determined from root-tip cells (Ph. I. fig. 8). Cardiocrinum (Endl.) Lindl., consisting of 3 spp., is endemic to Eastern Asiatic Region. C. giganteum (Wall.) Makino is distributed from Himalayan region to S. W. China. The present report is in accord with the number reported by Kurosawa (1966) who got the material from Darjeeling of India. However the karyotype of the present plant is slightly different from that given by Kurosawa. In the present material, the satellites of the 1st. pair of chromosomes and the short arms of llst. pair of chromosomes are visibly longer than those of Kurosawa’s drawing (fig. 1, 2) The plants from Yunnan, Sichuan and Hubei Provinces, named as C. giganteum var. yunnanense (Leitchtlin ex Elwes) Stearn, differ slightly from those of Himalayan region also in outer morphological characters. The taxon needs both cytological and taxonomical further studies. 3. Disporum cantoniense (Lour.) Merr. PMC meiotic examination revealed n=8 at diakinesis (Pl. I. fig. 6) This species is widely distributed from Himalayan region through Indo-China to our Taiwan Province and Indonesia. Three cytotypes (2n=14, 16, 30) were reported for the taxon including its variety, var. parviflorum (Wall) Hara, by various authors (Hasegawa 1932, Mehra and Pathamia 1960, Kurosawa 1966, 1971 Mehra and Sachdeva 1976a). Some authors consider D. pullum Salisb. and D. calcaratum D. Don as synonyms of D. cantoniense. So D. cantoniense may be a species aggregate with different extreme races. Sen (1973a, b.) reports that the somatic chromosome numbers of D. pullum and D. calcaratum from Eastern Himalayan region are 14, 16, 28, 30, 32. He also discovered that chromosome alterations in species of Disporum involve not only the number but the structure as well. He found that in species of Liliaceae where the reproduction is mainly vegetative, polysomaty often occurs. In China we have not only D. cantoniense and D. calcaratum but also D. brachystomon Wang et Tang which is similar to D. cantoniense var. parviflorum (Wall.) Hara. These taxa need further critical studies. 4. Paris fargesii Franch. PMC meiotic examination revealed n=5+2B (Voucher no. 112) or n=5 (Voucher no. 62) at MI and AI (Pl. I. fig. 1. 4. 5.). This is the first report for the species. A bridge and a fragment were also observed at AI. Paris polyphylla Smith is extraordinarily polymorphic species. Hara (1969) regards all chinese extreme forms, such as P. fargesii Franch., P. violacea Lévl., P. pubescens (Hand. -Mzt.) Wang et Tang, etc. as infraspecific taxa of P. polyphylla. Needless to say, the various races of P. polyphylla Smith in China need further critical studies and are good material for further study to understand the speciation. 5. Reineckia carnea(Andr.) Kunth Reineckia is a monotypic genus endemic to Eastern Asiatic Region. In the present material somatic chromosome number in root-tip cells is determined as 2n=38 (Pl. I. fig. 7). According to the terminology defined by Levan et al., the karyotype formula is 2n=28 m+10 sm. The length of chromosomes varies from 14.28 μ to 5.5 μ. The idiogram given here (fig. 3) is nearly the same as that presented by Hsu et Li (1984). The same number has been previously reported by several authors, Noguchi (1936), Satô (1942), Therman (1956). The karyotype is relatively symmetrical (2B, accorling to the classi-fication of stebbins 1971) in accord with the opinion of Therman (1956).     

五种高山植物的个体生长在融雪梯度上的变化

在青藏高原东部的一个天然高山雪床,沿着融雪从早到晚的顺序设置3个融雪梯度部位,并对每个梯度部位的环境因子和5种典型植物的个体生长特征进行测量和比较.结果表明:3个梯度部位间的融雪时间、土壤含水量和地表温度日较差有显著不同,而土壤营养成分(总N、总P、总K、可溶性的N、P)及pH无明显变化.根据个体生长在融雪梯度上的变化趋势,5种植物可分为3种类型:第1类包括黑褐穗苔草(Carex atrofusca subsp. minor (Boott) T. Koyama)和西北黄芪(Astragalus fenzelianus Pet.-Stib.),其株高、单株叶数、单叶面积和地上生物量随融雪的推迟而增加;第2类包括斑唇马先蒿(Pedicularis longiflora Rudolph var. tubiformis (Klotz.) Tsoong)和川西小黄菊(Pyrethrum tatsienense (Bur. et Franch.) Ling ex Shih.),其个体生长随融雪的推迟而下降;第3类包括长叶火绒草(Leontopodium longifolium Ling),其个体生长特征基本不随融雪时间而改变.