雏蝗属黑翅亚属两种雏蝗染色体核型的比较研究

采用常规染色体制片方法,对雏蝗属黑翅亚属的黑翅雏蝗(Chorthippus(Megaulacobothrus)aethalinus(Zub.))和中华雏蝗(Ch.(M.)chinensis Tarb.)的染色体核型进行了分析比较,结果表明,两种雏蝗的染色体数目均为2n(♂)=17=16+XO;常染色体为中部着丝粒(m,6条)和端部着丝粒(t,10条)两种类型,性染色体类型为端部着丝粒,二者的相似性显示出该属的基本特征。但两种雏蝗的核型公式和染色体的相对长度组成则不相同,黑翅雏蝗K(2n,♂)=6m+11t=6L+6M+4S+XO;中华雏蝗K(2n,♂)=6m+11t=6L+8M+2S+XO。而且,二种雏蝗的性染色体位次及相对长度也有明显差异:黑翅雏蝗的性染色体位于第五位,相对长度为8.33%,而中华雏蝗的则位于第八位,相对长度为5.53%。由此看出,二种雏蝗不同物种间存在的不同遗传特征。     

雏蝗属与异爪蝗属二个近缘属蝗虫的染色体核型比较（直翅目：网翅蝗科）

采用常规染色体制片方法,对雏蝗属的模式种白边雏蝗Chorthippus albomarginatus(De Geer)和异爪蝗属的模式种素色异爪蝗Euchorthippus unicolor(Ikonnikov)的染色体核型进行了分析比较。结果表明,两种蝗虫的染色体数目均为2n(♂)=17=16+XO;常染色体为中部着丝粒(m,6条)和端部着丝粒(t,10条)两种类型,性染色体类型为端部着丝粒。二者的相似性显示出2属具有较近的亲缘关系,并且在进化过程中处于较近的发展阶段。但2种蝗虫的核型公式和染色体的相对长度组成则不相同,白边雏蝗K(2n,♂)=6m+11t=8L+4M+4S+XO;素色异爪蝗K(2n,♂)=6m+11t=8L+6M+2S+XO;且2种蝗虫性染色体的位次也有明显差别,白边雏蝗的性染色体为第9位,而素色异爪蝗则为第8位。由此看出,该2属的蝗虫存在的不同遗传特征。     

棉蝗的染色体组型和C带研究

本文研究了棉蝗(Chondracris roses rosea De Geer）的染色体组型和C带．结果表明：棉蝗的染色体数目：2n(♂）＝22十XO=23,全部为端着丝粒染色体,NF=23,核型公式：2n(♂）＝2X = 23t,按染色体长度顺序排列分成四组,但按相对程度也可分为三组;所有染色体都具有明显的着丝粒带;异染色质总量为15.94土0.26%;染色体组中最长与最短染色体之比为5.89 : l,臂比大于2:1的染色体比例为零,棉蝗的核型属"1C"核型．     

棕色田鼠的细胞遗传学研究

本次首次报告棕色田鼠（Microtus mandarinus)的核型,核型公式为2n=50=2(M,T) 2SM 44T XX(M,SM),XY(SM,ST),发现第一对常染色体及X性染色体存在多态现象,在所研究的15只雌性个体中有7只雌性个体的细胞只有1条X性染色体,性染色体组成为XO型,核型公式为2n=49=2(M,ST) 2SM 44T＋XO,。其中X性染色体不同于雄性中的X（SM）,为M类型,本文提出的综色田鼠3种核型与Brown等人（1964）提出的Microtus oregoni的3种核型（XO,YO,XY）有异,本文还阐述了染色体多态产生的机制和探讨了XO型个体发生的机理及其繁殖。     

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。     

三尖杉科的核形态学研究

4种三尖杉科植物的核形态结构的研究结果如下:它们的间期核均为复杂染色中心型,分裂前期 染色体属于中间型,体细胞分裂中期染色体的核型为:(1)三尖杉Cephalotaxus fortuni Hook．F.,K2n= 24=21m+1M+2sm(2SAT),核型不对称性属于2A型,着丝点端化值(T.C.％)为53．99;(2)高山三尖 杉C.alpina(Li)L.K.Fu,K2n=24=19m+3M+2sm(2SAT),核型不对称性属于2A型,T.C.％值为 53.93;(3)海南粗榧(西双版纳粗榧)C.mannii Hook.f., K2n=24=22m(1SAT)+2sm(2SAT),核型不 对称性属于2A型,T.C.％值为54.47;(4)篦子三尖杉C.oliveri Mast.,K2n＝24＝22m+2sm(2SAT), 核型不对称性属于2B型,T.C.％值为53.53。4种三尖杉的染色体结构都是1～22号染色体为m染色 体,23和24号染色体为sm染色体并具随体,其随体较大而稳定。它们的核形态结构较为相似,从核型 参数上看似乎三尖杉和高山三尖杉的亲缘关系最近,种间的中期染色体结构也有一些细微差异。除三尖杉C．fortunei仅有染色体数目的报道外,这4个种的核形态研究为首次报道。     

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。     

中国两种波腿蝗（蝗总科：癞蝗科）染色体C带核型研究

报道中国两种波腿蝗的染色体C带核型,结果表明：红胫波腿蝗Asiotmethis zacharjini (Bei-Bienko, 1926) 2n ♂ =18, neo-X为亚中着丝粒染色体,其他均为近端着丝粒染色体,染色体除强染的着丝粒C带,S8染色体具强染端部C带带纹,neo-Y染色体还具有一条宽的弱染的近着丝粒端居间C带,性别决定机制是neo-XY ♂型,该种染色体组成和性别决定机制在我国癞蝗中为首次报道,蓝胫波腿蝗Asiotmethis jubatus (Uvarov, 1926) 2n＝19♂,均为近端着丝粒染色体,仅具有明显强染的着丝粒C带,性别决定机制是XO ♂型;两种波腿蝗的异染色质含量存在显著性差异（α=0.05）。     

5种桤木属植物的核型分析

利用改良去壁低渗法对桦木科（Betulaceae）桤木属（Ainus Mill.）东亚地区5种植物进行染色体数目与核型研究。结果显示：所试验物种中染色体形态比较一致,多是由中部（m）及近中部（sm）着丝点染色体组成。其中A.nitida染色体数为2n=28,核型公式为K（2n）=28=22m 4sm(2SAT) 2st(2SAT);A.hirsuta染色体数为2n=42,核型公式为K(2n)=42=36m 6sm; A.cremastogyne,A.formosana 染色体数均为2n=56,核型公式分别为K(2n)=56=2M 40m(1SAT) 14sm(1SAT)和K(2n)=56=46m 8sm 2st;A.firma染色体数为2n=112,核型公式为K(2n)=112=80m 28sm 4st。     

山扁豆的染色体核型分析

目的:对辽宁分布的植物山扁豆的染色体数目、核型、体积等进行了研究.方法:采用常规制片方法,结合显微摄影对染色体进行统计分析.结果:山扁豆体细胞染色体数目2n=16, 相对长度组成2n=16=2L+4M2+10M1; 核型公式为K(2n)=2X=16=6m+6sm+4T; 全体染色体总长16.45 μm, 长臂总长11.81 μm,核型不对称系数(AS.K%)为71.9%,属于"3A"型,全体染色体总体积为17.04 μm3.结论:山扁豆体细胞染色体的数目、核型、体积等清晰准确,可为进一步的深入研究打下基础.     

五种苏铁属植物的核形态

报道了苏铁属（Cycas L.)5种植物的染色体数目和核型,除多歧苏铁外,其他种均为首次报道。5个种的体细胞中期染色体核型公式分别为：滇南苏铁C.diannanensis K(2n)=2x=22=2m 4sm 4st 12T;潭清苏铁C.tanqingii K(2n)=2x=22=2m 8sm 2st 10T;多歧苏的Cmultipinnata K(2n)=2x=22=4m 8st 2st 8T;巴兰萨苏铁C.balansae K(2n)=2x=xx=2m 4sm 6st 10T。石山苏铁C.miquelii K(2n)=22=2m 6sm(1SAT) 4st 10T;核型均属于3B型。本研究结果支持苏铁属植物的核型从不对称进化的观点;同时,支持将巴兰萨苏铁和石山苏铁归入攀枝花苏铁组的台湾苏铁亚组的观点。     

3种北美冷杉的核型研究

本文首次报道３种北美冷杉Ａｂｉｅｓ ａｍａｂｉｌｉｓ、Ａ．ｇｒａｎｄｉｓ和Ａ．ｌａｓｉｏｃａｒｐａ的根尖体细胞核型、染色体参数及核型模式图。核型公式分别是Ｋ（２ｎ）＝２４＝１６ｍ（４ＳＣ）＋８ｓｍ、１４ｍ（２ＳＣ）＋１０ｓｍ和１８ｍ（４ＳＣ）＋６ｓｍ,染色体相对长度组成为２ｎ＝２４＝２Ｌ＋１２Ｍ２＋６Ｍ１＋４Ｓ、２Ｌ＋１２Ｍ２＋８Ｍ１＋２Ｓ和２Ｌ＋８Ｍ２＋１２Ｍ１＋２Ｓ。均为２Ａ核型类型。文中还讨     

长毛红山茶和长尾红山茶的核型分析

<正> 长毛红山茶(Camelliav uillosa Chang et S.Y.Liang)和长尾红山茶(C.longicaudata Chang et S.Y.Liang)均为张宏达教授定的新种,分别隶属于山茶属(Camellia)红山茶组(Sect.Camellia)的滇山茶亚组(Subsect.Reficulala)和光果红山茶亚组(Subsect.Lucidissima),前者分布在我国的湖南、广西和贵州,后者分布在广东和广西。 红山茶组共有33个种、1个亚种,7个变种。根据文献资料统计,该组作过染色体计数的有10个种,1个亚种和6个变种,作过核型分析的有4个种、1个亚种和2个变种。本文对该组的长毛红山茶和长尾红山茶的核型作首次报道,并与该组的10个种,1个亚种和6个变种的染色体数目或核型作了比较。     

青藏高原毛茛科3种特有植物核型和进化研究

对青藏高原高山冰缘地区毛茛科３种特有植物的核型进行了分析。它们的核型公式（Ｋ）、染色体相对长度组成（Ｃ．Ｒ．Ｌ．）和核型不对称系数（Ａｓ．Ｋ％）分别为：青藏金莲花Ｔｒｏｌｉｕｓｐｕｍｉｌｕｓｖａｒ．ｔａｎｇｕｔｉｃｕｓ：Ｋ（２ｎ）＝６ｍ＋８ｓｍ（２ＳＡＴ）＋２ｓｔ,Ｃ．Ｒ．Ｌ．＝４Ｌ＋４Ｍ２＋４Ｍ１＋４Ｓ,Ａｓ．Ｋ％＝６３．５７,核型属２Ｂ型;甘青乌头Ａｃｏｎｉｔｕｍｔａｎｇｕｔｉｃｕｍ为Ｋ（２ｎ）＝６ｍ＋１０ｓｍ,Ｃ．Ｒ．Ｌ．＝４Ｌ＋８Ｍ１＋４Ｓ,Ａｓ．Ｋ％＝６２．５４,２Ｂ型;单花翠雀花Ｄｅｌｐｈｉｎｉｕｍｃａｎｄｅｌａｂｒｕｍｖａｒ．ｍｏｎａｎｔｈｕｍ为Ｋ（２ｎ）＝６ｍ＋８ｓｍ＋２ｓｔ,Ｃ．Ｒ．Ｌ．＝４Ｌ＋４Ｍ２＋４Ｍ１＋６Ｓ,Ａｓ．Ｋ％＝６４．３４,属３Ｂ型。经同相关近缘种核型资料比较,青藏金莲花核型不对称性和进化程度比金莲花Ｔ．ｃｈｉｎｅｎｓｉｓ低;甘青乌头的核型不对称性和进化程度在其近缘类群（乌头组Ｓｅｃｔ．Ａｃｏｎｉｔｕｍ）已报道的种之内最低;单花翠雀花核型不对称性和进化水平比翠雀组（Ｓｅｃｔ．Ｄｅｌｐｈｉｎａｓｔｒｕｍ）已报道的展毛翠雀花Ｄ．ｋａｍａｏｅｎｓｅｖａｒ．ｇｌａｂｒｅｓｃｅｎｓ、     

A Chromosomal Study on 7 Species of Smilax L.

The chromosome numbers and karyotypes of 7 species of Smilax L. in Liliaceae (s. 1.) are cytotaxonomically studied in this work. Their karyotypic characters, distinction between the species and the chromosomal basis of sexual differentiation are discussed. The karyotypes of most species are first reported. The results are shown as follows (see Tables 1-4 for the chromosome parameters and the karyotype constitution; Fig. 1 for their idiograms): 1. Smilax nipponica Miq. The species is one of the herbaceous species distributed in East Asia. Two karyotypes, 2n = 26(type A) and 2n = 32 (type B), are found in the species (Plate 1: 1-7). The karyotype of No. 88032 (uncertain of -L--M--S- sexuality) is 2n = 26 = 2m + 6st + 6m + 4sm + 6sm + 2st. The karyotype has 4 pairs of L chromosomes, of which the first three pairs are subterminal, and the 4th is median. The karyotype belongs to 3B. No. 88045 (the male) and No. 88046 (the female) have 2n = 32. Their karyotypes are basically uniform, and both are -L--M-- S 2n=32= 2m+4sm+ 2st+ 2m+4sm+ 6m+ 10sm + 2st, also with 4 pairs of L chromosomes, but the 2nd pair is median, and thus different from the type A. The karyotype belongs to 3B. The first pair of chromosomes of the male are distinctly unequal in length, with the D. V. (0.93) of relative length between them obviously greater than that of the female (0.1). The pair seems to be of sex-chromosomes. Sixteen bivalents (n= 16) were observed at PMCs MI of No. 88045 (Plate 1: 4). The major difference between the karyotypes A and B are greater relative length of L chromosomes in the type A than in the type B, and the increase of chromosome number in the karyotype B mainly due to the increase of st chromosomes. Nakajima (1937)reports 2n= 30 for S. hederacea var. nipponica (=S. nipponica, Wang and Tang, 1980). 2. S. riparia A. DC. This species is also herbaceous, distributed in East Asia. Thirty chromosomes were found in root-tip cells (uncertain of sexuality). The kar -L--M--S-yotype is 2n = 30 = 8st + 6sm + 2st + 6m + 6sm + 2st (Plate 3: 1, 5), consisting mainly of sm and st chromosomes. There are 4 pairs of L chromosomes which are all subterminal and the m chromosomes appear to fall all into S category. Though the karyotype belongs to 3B, it is less symmetrical than that of S. nipponica. The species is karyologically rather different from S. nipponica, therefore. The first pair of chromosomes of this material are unequal in length, and it may be a male. The karyotype of this species is first reported. 3. S. sieboldii Miq. The species is a thorny climbing shrub, distributed in East Asia. At PMCs All, 16 chromosomes (n= 16) were found (Plate 2: 6), in accordance with Nakajima's (1933) report for a Japanese material. 4. S. china L. This species, a thorny climbing shrub, is of a wide distribution range mainly in East Asia and Southeast Asia. Two karyotypes were observed in different populations. (1) The population from Xikou has 2n = 96(6x) = 20st+L- -M- 6t + 6sm + 12st + 52(S) (Plate 3:7), of which the first three pairs of chromosomes are terminal, different from those in the other species. The arm ratios of both L and M chromosomes are larger than 2.0, which resembles those of S. davidiana. (2) PMCs MI of the population from Shangyu shew 15 chromosomes (n 15). The hexaploid of the species is recorded for the first time. Hsu (1967,1971) reported 2n = 30 from Taiwai and Nakajima (1937) recorded n = 30 from Japan, which indicates that the karyotype of the species varies not only in ploidy, but also in number. 5. S. davidiana A. DC. The somatic cells were found to have 32 chromosomes, and PMCs MI shew 16 bivalents (Plate 2: 1-5). The karyotype is 2n = 32=-L- -M- -S 8st + 4sm + 4st + 8sm + 8st. The karyotype belongs to 3B, and is less symmetrical than those in herbaceous species. The D. V. (0.20) of relative length between the two homologues of the first pair is slightly larger in the male than in the female (0.14), and it is thus difficult to determine whether they are sexual chromosomes or not. 6. S. glabra Roxb. The species is a non-thorny climbing shrub, distributed in East Asia and Southeast Asia. 32 chromosomes were found in somatic cells. The -L- -M- - Skaryotype is 2n= 32= 8st + 10st+6sm+8st (Plate 3: 2, 6),with only 3 pairs of sm chromosomes (12, 13 and 16th). The karyotype is more asymmetric than that of S. davidiana, although it is also of 3B (Table 1). The karyotype is first reported for the species. 7. S. nervo-marginata Hay. var. liukiuensis (Hay.) Wang et Tang The variety has a relatively narrow distribution range, mainly occurring in eastern China. The chromosomal number of somatic cells is 2n= 32 (Plate 3: 3-4). The karyotype is -L- -M- -S 2n = 32 = 2sm + 6st + 2sm + 2st + 2m + 6sm + 12st, evidently different from that of S. glabra. The first pair of chromosomes are submedian, and much longer than the 2nd to 4th pairs. The ratio in length of the largest chromosome to the smallest one is 4.3. The symmetric degree is of 3C, a unique type. The karyotype of the species is reported for the first time. In Smilax, the known basic numbers are 13, 15, 16 and 17. The two herbaceous species distributed in East Asia have three basic numbers: 13, 15 and 16, while the woody species studied mainly have 16, with no 13 recorded. Mangaly (1968) studied 8 herbaceous species in North America and reported 2n=26 for them except S. pseudo-china with 2n=30. Mangaly considered that a probably ancestral home of Smilax, both the herbaceous and woody, is in Southeast Asia and the eastern Himalayas, and speculated that the ancestral type of Sect. Coprosmanthus is possibly an Asian species, S. riparia. The karyotypes of the two herbaceous species in East Asia consist mostly of sm and m chromosomes, whereas those for the North American species are all of st chromosomes. Based on the general rule of karyotypic evolution, i.e. from symmetry to asymmetry, his speculation seems reasonable. Researches on sex-chromosomes of Smilax have been carried out since 1930 (Lindsay, 1930; Jensen, 1937; Nakajima, 1937; Mangaly, 1968), and they are generally considered to be the largest pair, but there is still no adequate evidence. The result of our observation on S. nipponica may confirm that the first pair of chromosomes of this species is XY type of sex-chromosomes. Chromosomes of the genus are small and medium-sized, varying between 1-6 μm, slightly larger in herbaceous species than in woody ones, larger in the karyotype of 2n=26 than in that of 2n=32. Based on karyotype constitution of the above 5 species, the karyotype in the genus is characterized by 4 pairs of L chromosomes and 2-5 pairs of M chromosomes, and mostly st and sm chromosomes, and by rather asymmetrical 3B type. The degree of symmetry in the above 5 species is from Sect. Coprosmanthus to Sect. Coilanthus, and herbaceous species towoody ones.     

Mapping of18-26S rDNA loci in four species of the genus Paris by fluorescence in situ hybridization（FISH）

18-26S rDNA loci were mapped on chromosomes in four species of Par is,and the num-ber and position of rDNA sites in these species were compared f or analysis of the distribution of the sites. All the plants were diploids,and t he genome consisted of five chromosomes,A,B,C,D and E. （1）P. polyphylla var. yunnanensis,2n=10=6m+4t. Two18-26S rDNA loci were de-tected on the short arms o f C and D chromosomes;（2）P. forrestii,2n=10=6m+4t. One locus was detected on th e long arm of B chromosome,and also two loci on the short arms of C and D chromosomes;（3）P. axialis. 2n=10=6m（2sat）+4t（2sat）+1-2B. Two loci were detected o n the short arms of C and D chromosomes. One locus was detected in the cell with t wo B-chromosomes（B）,but none was detected in that with only one B chromosome, indicating that rRNA gene existed on B chromsome,and an unequal division occurr ed during mitotic cycle of B-chromosomes. （4）P. daliensis,2n=10=4m+2sm+2st+2t. O ne locus was detected on the short arm of D chromo-some. The signals of18-26S rD NA appeared not only in the second constriction but also in the other regions of chromosome. It is noteworthy that one locus was detected in the terminal region o n the short arm of C chromosome in all the four species studied.     

獐牙菜属5种植物的核型研究

首次报道了中国５种獐芽菜属植物的染色体数目和核型。它们染色体中期核和相对长度组分分别是：四数獐牙菜为２ｎ＝１４＝４ｍ＋８ｓｍ＋２ｓｔ＝２Ｌ＋６Ｍ２＋４Ｍ１＋２Ｓ;华北獐牙菜２ｎ＝２８＝１２ｍ＋１４ｓｍ＋２ｓｔ＝６Ｌ＋８Ｍ１＋＋６Ｓ;二叶獐牙菜为２ｎ＝２８＝１４ｍ＋４ｓｍ＋１０ｓｔ＝２Ｌ＋１４Ｍ２＋１０１＋ｓＳ;抱茎獐 菜为２ｎ＝６ｍ＋１２ｓｍ＋２ｓｔ＝８Ｍ２＋１２Ｍ;浙江獐牙菜为２ｎ＝２０＝８ｍ＋     

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.     

条叶车前和小车前的核型报道

本文报道了车前属两种车前的核型。Plantago lessingii为2n＝12,核型属于“2A”,核型公式为K(2n)＝12＝10m+2sm;P. mmuta为2n＝12,核型仍属“2A”型,核型公式K(2n)＝12＝8m+2sm+2st。染色体相对长度组成,前者2n＝2L+4M2+4M1+2S1,后为2n＝6M2+6M1,染色体总长分别为30.60、29.80,由12条染色体组成,还测量了这两种车前的染色体体积。     

Numerical and structural variations of the X chromosomes and no. 2 autosomes in mandarin vole, Microtus mandarinus (Rodentia)

Here we describe our studies on Microtus mandarinus faeceus of Jiangyan in Jiangsu province of China. By karyotype and G-banding analysis we have found variation in chromosome number and polymorphisms of the X chromosome and the second pair of autosomes of the subspecies. Chromosome number of the subspecies is 2n=47-50. The subspecies has three kinds of chromosomal sex: XX, XO and XY, among which one of the X chromosomes is subtelocentric (X(ST)) and the other is metacentric (X(M)). After comparing karyotypes of different subspecies, we found the specific cytogenetic characteristics of Microtus mandarinus, that is they have three kinds of chromosomal sex: XX, XO and XY; X chromosomes are heteromorphic; the chromosome number of female individuals are one less than male individuals; chromosome number of XX individuals are equal to that of XO ones. We hypothesize that Robertsonian translocation is the main reason of the polymorphism of the second pair of autosomes and variety of chromosome number, and it also causes the chromosome number evolution in different subspecies of Microtus mandarinus.