重楼属和延龄草核型的一致性

本文报道的重楼属3个种和变种与延龄草的核型基本一致,表明它们之间的亲缘关系很近,其核型简式为:延龄草(T. tschonoskii)2n=10=4m 2m(SAT) 2st(SAT) 2t(SAT) 1B;五指莲(Paris axialis)2n=10=6m 2t 2t(SAT) 2B;狭叶重楼(P. polyphylla var. stenophylla)2n=10=2m(SAT) 4m 2st 2t;小重楼(P.polyphylla var.minora)2n=10=4m 2sm 4t.     

几种重楼的染色体核型研究

作者对重楼属(Paris)的几个种:球药隔重楼(P.fargesii),毛重楼(P.mairei),花叶重搂(P.marmorata),黑籽重楼(P.thibetica),海南重楼(P.dunniana),巴山重搂(P.bashanensis),以及多叶重楼(P.polyphylla)的两个变种狭叶重楼(var.stenophylla)和华重楼(var.chinensis)的染色体核型进行了研究,发现种间及种内不同居群(population)间的核型都存在不同程度的差别。核型简式为:球药隔重楼K(2n)=2x=10=6m+2t(SAT)+2t+3bs,毛重楼K(2n)=2x=10=6m+4t+1bs,花叶重楼K(2n)=2x=10=6m+4t,黑籽重楼K(2n)=2x=10=2m+4m(SAT)+4t,海南重楼K(2n)=2X=10=6m+2t(SAT)+2t,巴山重楼K(2n)=2x=10=6m+4st,狭叶重楼K(2n)=2x=10=6m+1st+3t,华重楼K(2n)=2x=10=6m+4t。     

重楼属的细胞分类研究

本文报道5种重楼植物的核型:凌云重楼(P. cronquistii);南重楼(P. vietnamensis);金线重楼(P. delavayi);长柱重楼(P. forrestii);和平伐重楼(P. vaniotii)。讨论了重楼属植物的核型结构和倍性的变异,以及杂合性、多态性、B染色体等染色体的结构变异。并将重楼属植物的核型归纳成三个主要的基本类型。1. 4t型,基本核型为2n=2x=10=6m+4t,分布于南部热带亚热带的多叶重楼P. polyphylla等13种的核型属于这一类型;2.2st型,基本核型为2n=2x=10=6m+2st+2t,分布于北温带的P. verticilata等5种属于这一类型;3.4st型,核型为2n=2x=10=6m+4st,仅有巴山重楼P. bashanensis的核型属这一类型。每个类型中各个种之间在染色体的结构上又表现出一定的差异。根据植物的染色体核型的演化规律,对三个类型核型的演变作了探讨。     

风毛菊属5种植物的核型分析

采用常规压片法,对风毛菊属(Saussurea)5种植物的染色体数目和核型类型进行分析。结果表明:大耳叶风毛菊(S.macrota)核型公式为2n=2x=26=10m+12sm+4st,属2A型;长梗风毛菊(S.dolichopoda)核型公式为2n=2x=26=14m+8sm+4st,属2A型;川陕风毛菊(S.licentiana)核型公式为2n=2x=28=12m+16sm,属2B型;杨叶风毛菊(S.populifolia)核型公式为2n=2x=28=6m+18sm+4st,属2B型;尾叶风毛菊(S.caudata)核型公式为2n=2x=30=14m+14sm+2st,属2A型。这5种风毛菊属植物中,除大耳叶风毛菊染色体数目和核型类型与前人报道的一致外,其余4种植物的染色体数目和核型类型均为首次报道,并在川陕风毛菊中发现1对B染色体。     

黄精属5种植物的核型研究

本文报道了安徽省黄精属Polygonatum Mill．5种植物的染色体数目和核型。玉竹P. odoratum (Mill.)Druce黄山材料2n=16=10m(3sc)+6sm,滁县琅琊山材料2n=18=10m(1sc) +2sm+6st(2sc),二者均属2B核型． 长梗黄精P．filipes Mirr. 黄山材料2n=22=8m+8sm(2sc)+6st,属3B核型,安徽繁昌材料2n=14=10m+4sm和2n=16=8m +4sm+4st,二者均属2B核型。多花黄精(P.cyrtonema Hua)安徽黄山材料2n=20=8m+6sm+6st和2n=22=6m+8sm +4st+4t,二者均属3B核型,安徽滁县琅琊山材料2n=18=8m(2sc)+6sm+4st,属2B核型。长苞黄精(P．desoulayi kom．) 2n=22=10m(2sc)+6sm(1sc)+6st,属3B核型;轮叶黄精(P．verticillatum(L．)All．)2n=18=2m+2sm+10st+2t+2T和2n=24=6m+4sm+12st+2T,二者均属3B核型。其中玉竹2n=16,长梗黄精2n=14和2n=22,长苞黄精2n=22,轮叶黄精2n=18的染色体数目和核型均为首次报道。     

桤木属7种植物的核型分析

利用改良去壁低渗法对分布于欧美地区的桦木科(Betulaceae)桤木属(Alnus Mill.)7种植物进行染色体数目与核型分析。结果显示:所有材料染色体形态比较一致,多为由中部(m)及近中部(sm)着丝点染色体组成。意大利桤木(A.cordata)为六倍体,体细胞染色体数为2n=6x=42,核型公式为2n=6x=42=36m+6sm;绿桤木(A.viridis)为八倍体,体细胞染色体数为2n=8x=56,核型公式为2n=8x=56=46m+10sm(SAT);薄叶桤木(A.tenuifolia)、灰桤木(A.incana)、欧洲桤木(A.glutinosa)、裂叶桤木(A.sinuata)和红桤木(A.rubra)均为四倍体,体细胞染色体数均为2n=4x=28,其核型公式分别为2n=4x=28=16m(1SAT)+12sm、2n=4x=28=22m+6sm、2n=4x=28=24m+4sm、2n=4x=28=24m+4sm、2n=4x=28=26m+2sm。其中红桤木(A.rubra)的核型属于1B型,其余均为2B型。     

风毛菊属6种植物的核型分析

采用常规压片技术对分布于横断山区菊科(Compositae)风毛菊属(Saussurea DC.)的6种植物进行染色体数目和核型分析。结果表明:尖苞雪莲（S.polycolea var.acutisquama）核型公式为:2n=2x=32=20m+12sm,属2B型;球花雪莲核（S.globosa）型公式为:2n=2x=34=16m+18sm,属2B型;重齿风毛菊(S.katochaete)核型公式为:2n=2x=32=8m+18sm+6st,属3B型;柱茎风毛菊(S.columnaris)核型公式为:2n=2x=32=24m+8sm,属2B型;禾叶风毛菊(S.graminea)核型公式为:2n=2x=28=8m+18sm+2st,属3B型;长毛风毛菊(S.hieracioides)核型公式为:2n=2x=32=12m+16sm+4st,属2B型。6个种染色体中均未发现随体。其中尖苞雪莲和柱茎风毛菊染色体为首次报道。     

横断山及邻近地区八种菊科植物的染色体数目及核型

对横断山及邻近地区风毛菊属(Saussurea)、帚菊属(Pertya)和针苞菊属(Tricholepis)的8种菊科植物进行细胞学研究,其中异叶帚菊(Pertya berberidoides)(2n=2x=32=28m+4sm)、针苞菊(Trichole-pis furcata)(2n=2x=32=16m+ 16sm)、中甸风毛菊(Saussurea dschungdienensis)(2n=2x=30=30m+Bs)、丽江风毛菊(S.likiangensis)(2n 2x=32=26m+6sm)、倒齿风毛菊(S.retroserrata)(2n=2x=32=14m+18sm)和显梗风毛菊(S.peduncularis)(2n=2x=36=26m+ 10sm)为首次报道染色体数目和核型,长毛风毛菊(S.hieracioides)和三角叶风毛菊(S.deltoidea)的核型公式分别为:2n=4x=64=30m+34sm和2n=2x=34=22m+ 12sm,与前人报道的一致.8种植物中,除中甸风毛菊和异叶帚菊的核型不对称性为1B型外,其余6种的核型不对称性均属于2B型;在中甸风毛菊中首次发现B染色体.结合现有的细胞学资料分析表明,风毛菊属和帚菊木族的染色体数目存在变异,并且存在明显的非整倍性;此外,分布于横断山区的风毛菊属植物仪有两种倍性(二倍体和四倍体),而且多倍化并不占主导地位.     

兜兰亚属12种植物的核型分析

对兜兰亚属(Paphiopedilum subgenus Paphiopedilum)12种植物的染色体数目和核型进行了研究。结果表明：这12种植物的染色体数目和核型存在差异,其中菲律宾兜兰(P. philippinense)的核型公式为2n=2x=26=16m+10sm, 长瓣兜兰(P. dithanum)为2n=2x=26=20m+6sm, 密毛兜兰(P. densissimum)为2n=2x=26=22m+4sm, 飘带兜兰(P. parishii)和带叶兜兰(P. hirsutissimum)为2n=2x=26=24m+2sm, 亨利兜兰(P. henryanum)、虎斑兜兰(P. markianum)和根茎兜兰(P. rhizomatosum)为2n=2x=26=26m, 而胼胝兜兰(P. callosum)为2n=2x=32=2M+24m+6sm, 布玲兜兰(P. microchilum)为2n=2x=38=28m+10sm, 卷萼兜兰(P. appletonianum)和海南兜兰(P. hainanensis)为2n=2x=38=30m+8sm。兜兰亚属的染色体主要为中部着丝粒染色体, 未见随体;最长染色体与最短染色体之比为2.07~3.44, 臂比大于2的染色体比率为0~0.231,核不对称系数为53.50%~58.95%。长瓣兜兰、飘带兜兰、亨利兜兰、密毛兜兰、虎斑兜兰、带叶兜兰和根茎兜兰等6种的核型类型为1B型,其余6种为2B型。     

伞形花科5种主要蔬菜作物的核型分析

采用卡宝染色压片法对伞形花科5种主要蔬菜作物进行了核型分析和比较.结果表明:芹菜的核型公式为K(2n)=2x=22=6m+2sm+8st+6t,染色体核型为"3B"型;芫荽的核型公式为K(2n)=2x=22=2m+2sm+18st,染色体核型为"3A"型;茴香的核型公式为K(2n)=2x=22=14m+6sm+2st,染色体核型为"2B"型;水芹的核型公式为K(2n)=2x=22=6m+6sm+10st,染色体核型为"3A"型;胡萝卜的核型公式为K(2n)=2x=18=6m+10sm+2st,染色体核型为"2A"型.并对他们的亲缘关系、遗传多样性进行了探讨.     

安徽黄精属的细胞分类学研究

本文首次报道黄精属ＰｏｌｙｇｏｎａｔｕｍＭｉｌｌ我国三种特有植物的染色体数目和核型,结果如下：安徽黄精Ｐ．ａｎｈｕｉｅｎｓｅ发现两个细胞型：（１）２ｎ＝２４＝４ｍ＋６ｓｍ＋１４ｓｔ;（２）２ｎ＝２０＝４ｍ十６ｓｍ＋１０ｓｔ;　　黄精Ｐ．ｌａｎｇｙａｅｎｓｙ２ｎ＝１８＝６ｍ＋８ｓｍ＋４ｔ;距药黄精Ｐ．ｆｒａｎｃｈｅｔｉｉ有三个细胞型：（１）２ｎ＝２２＝８ｍ＋８ｓｍ（２ｓｃ）＋６ｓｔ;（２）２ｎ＝２０＝２ｍ＋１４ｓｍ＋４ｓｔ;（３）２ｎ＝１８＝４ｍ＋８ｓｍ＋４ｓｔ＋２Ｔ,全部属３Ｂ核型。黄精属植物安徽共有１０种,本文对９种黄精的染色体数目、核型进行了比较研究,发现它们可划分成三个类群,与中国植物志（第十五卷）的形态分类基本相符。     

Studies on the Karyotype of 5 Samples of Allium Sect. Bromatorrhiza Ekberg

The karyotypes of 5 samples in Allium Sect. Bromatorrhiza Ekberg were analysed in this paper. In Allium wallichii Kunth, the first sample is a diploid, with genome formula is AA and karyotype formula is K(2n)=2x=14=2m(SAT)+2m+10sm. The second is an autotetraploid, with genome formula AAAA, karyotype formul K(2n)=4x=28=2m(SAT)+6m+20sm. These two karyotypes belong to “3A”. The two karyotypes of A. wallichii Kunth are similar in morphology, though different in ploidy. In Allium hookeri Thwaites, the first sample is a dibasic autoallotriploid. Its genome formula is AAB₁; the basic number of the genome A is 7 and that of the genome B₁ is 8. The karyotype formula is K(2n)=2x+x'=22=(12sm+2t)+(1m+4sm+1st+2t). The second is also an autoallotriploid. The genomes in pairs are similar to those in the first sample in size and morphology of chromosomes. However, the unpaired genome differs from the first one apparently. Therefore, its genome formula is AAB₂, and karyotype formula is K(2n)=2x+ x'=22=(12sm+2t)+(3m+1sm+2st+2t). The third is doubling of the first karyotype. It is an autoallohexaploid, with genome formula AAAAB₁ B₁ and karyotype formula K(2n)=4x+2x'= 44= (24sm+4t) + (2m+8sm+2st+4t). These three karyotypes belong to “3A”.     

五种云杉的核型分析

作者分析了我国产的5种云杉的核型,结果如下:红皮云杉,2n=24=20m(4sc)+4sm;白扦2n=24=22m(6sc)+2sm+2B;青扦,2n=24=16m(6sc)+8sm+2B;雪岭杉2n=24=20m(6sc)+4sm;鱼鳞云杉,2n=24=22m(4sc)+2sm+1B。     

杨属派间核型比较研究

对杨属五派代表种的核型进行了分析,各代表种核型公式如下:欧洲山杨(白杨派)2n=2x=38=21m(2SAT)+4sm+13st(1SAT);小叶杨(青杨派)2n=2x=38=1M+26m(1SAT)+8sm(1SAT)+1st+2t(1SAT);大叶杨(大叶杨派)2n=2x=38=2M+22m+8sm+6st;胡杨(胡杨派)2n=2x=38=2M+23m+3sm+10st(2SAT);箭杆杨(黑杨派)2n=2x=38=3M+29m(2SAT)+5sm+1st。杨属派间核型差异主要表现在中部与次中部着丝点(M,m)和近端部与端部着丝点(st,t)染色体数目上。白杨派和胡杨派具较多的st、t染色体,核型不对称系数比其它派高。按Stebbins理论白杨派和胡杨派属进化类型。     

四种风毛菊属植物的核型研究

本文首次报道产于我国华北地区风毛菊属（ＳａｕｓｓｕｒｅａＤＣ．）４种植物的染色体数目和核型。四个种的染色体数目均是２ｎ＝２６,都是２倍体。它们的核型是：糠风毛菊（Ｓ．Ｐａｌｅａｔａ）Ｚｎ＝２ｘ＝２６＝１８ｍ＋６ｓｍ＋２ｓｔ,属２Ｂ型,华北风毛菊（Ｓ．ｍｏｎｇｏｌｉｃａ）Ｚｎ＝２ｘ＝２６＝１４ｍ＋４ｓｍ＋８ｓｔ,属２Ｂ型;狭苞凤毛菊（Ｓ．ｄｉｅｌｓｉａｎａ）Ｚｎ＝２ｘ＝２６＝８ｍ＋１２ｓｍ＋６ｓｔ,属２Ｃ型;银背凤毛菊（Ｓ．ｎｉｖｅａ）２ｎ＝２ｘ＝２６＝１８ｍ＋６ｓｍ＋２ｓｔ,属２Ａ型。染色体中均未发现随体。     

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.     

三种毛茛的核型研究

对３种（含１变种）毛莨属植物进行了核型研究,其染色体数目及核型资料为首次报道。三叶毛莨（ＲａｎｕｎｃｕｌｕｓｊａｐｏｎｉｃｕｓＴｈｕｎｂ．ｖａｒ．ｔｅｒｎａｔｉｆｏｌｉｕｓＬ．Ｌｉａｏ．）有两种核型。即基本型２ｎ＝２ｘ＝１４＝６ｍ＋４ｓｍ＋４ｓｔ（２ＳＡＴ）和杂合型２ｎ＝２ｘ＝１４＝６ｍ＋４ｓｍ＋４ｓｔ（１ＳＡＴ）,前者核型的特征是其随体较大,而后者核型变异发生在第２对和第３对同源染色体异形上,并     

A Study on Karyotypes of 6 Species of Elymus in China

The present paper deals with the karyotype analysis of 6 species of Elymus which are native to Qinghai-Tibetan plateau. The number of somatic chromosomes in roottip cells of the 6 species and their karyotypes are reportad here for the first time, and they are all hexaploid, with 2n=6x=42. The karyotype formulae are as follows: E. melantherus, 2n=6x=42=32m+10sm, E. kengii, 2n=6x=42=34m+8sm, E grandiglumis, 2n=6x=42= 30 m+12 sm, E. laxiflorus, 2n=6x=42=32 m +10 sm, E. kokonoricus, 2n+6x=42=34 m +8 sm, E. longiglumis, 2n+6x=42=34 m+8 sm. No satellites have been founded in the 6 species and all the karyotypes belong to 1B or 2B type: