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。     

二倍体石蒜在安徽发现

本文以根尖细胞为材料,观察了石蒜Lycoris radiata(L′Her．)Herb．三个不同居群植物的染色体数目和核型,发现石蒜为一复合体,包括两种不同类型：(1)三倍体类型,主要包括一群以鳞茎无性繁殖的园艺栽培植株,其染色体数目和核型为2n＝33=33t(st),属“4A”核型,且极其稳定。(2)二倍体类型,主要包括一群野生植株,变异较大,我们发现有下列几种情况：一是芜湖产石蒜(L．radiata)的野生材料,其染色体数目和核型为2n=21+1B=1m+12st+8t+1B,属“3A”核型,在石蒜种内迄今未见有类似报道;另一是黄山产野生材料,观察到两个细胞型,绝大多数细胞为2n=22＝12st+1Ot,极个别细胞出现2n＝22+1B=6st+14t+2T+1B的情况,均属“4A”核型。芜湖和黄山野生材料的染色体数目和核型均为首次报道。石蒜(L．radiata)的二倍体类群也是首次在安徽发现。     

三倍体换锦花在安徽发现

本文对分布于安徽江南和江淮两个地区野生居群的换锦花Lycoris sprengeri进行了细胞学研究, 发现换锦花为一复合体,包括两个不同类型：(1)三倍体类型,分布于安徽马鞍山市采石的野生居群,其 染色体数目和核型为2n=33=9st+21t+3T,属4A核型,极其稳定,该种的三倍体类型为首次发现;(2) 二倍体类型,分布于滁州市琅琊山的野生居群,发现有2个核型,核型I,2n=22=8st+14t,属4A核型, 约占观察细胞的80％;核型Ⅱ,2n=22=1m+1sm+14st+6t,属3B核型,约占观察细胞的20％,该染色 体核型为首次报道。换锦花三倍体居群和二倍体居群的植物外部形态特征基本相同。本文还指出罗伯逊变化在石蒜属核型演化中起了关键作用。     

宽叶韭居群间核型研究

对宽叶韭 1 0个居群的核型进行了研究 ,结果如下 :四川武隆居群 2 n=2 x=2 2 =1 6sm+6st;四川大飞水居群 2 n=2 x=2 2 =1 6sm +4st+2 t(2 SAT) ;四川南川居群 2 n=2 x=2 2 =2 m+1 4sm+4st+2 t;四川宝兴居群 2 n=2 x=2 2 =1 4sm+6st+2 t;四川青神居群 2 n=2 x=2 2 =2 m+6sm+1 0 st+4t;四川沐川居群 2 n=2 x=2 2 =2 m+1 4sm+2 st+4t;四川屏山居群 2 n=3 x=3 3 =3 m+2 1 sm+9st;云南西双版纳居群 2 n=2 x=2 2 =1 4sm+6st+2 t(2 SAT) ;广东乳源居群 2 n=3 x=3 3 =2 1 sm+6st+6t(3 SAT) ;广西龙胜居群 2 n=3 x=3 3 =2 1 sm+6st+6t(3 SAT)。研究表明 ,除四川屏山居群、广东乳源居群、广西龙胜居群是三倍体外 ,其余均为二倍体。它们都属于 Stebbins的 3 A型。此外 ,宽叶韭的不同居群间还存在随体染色体和核型组成的多态性。本文最后讨论了宽叶韭种内居群间核型分化的原因。     

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。     

三倍体短葶飞蓬的发现及其在育种上的意义

对云南省野生居群的短葶飞蓬有丝分裂的细胞学特征进行观察研究。在云南省大理苍山、腾冲杨家坪的二倍体野生居群中,发现有三倍体个体的存在。苍山居群的两种核型分别为2n=2x=18=4m 10sm 4st,2n=3x=27=6m 12sm 9st;杨家坪居群的两种核型分别为2n=2x=18=6m 10sm 2st,2n=3x=27=3m 15sm 9st。通过对其生物学特性及表型的分析,认为短葶飞蓬可以采取多倍体育种方式获得更优良的品种。     

云南淡黄花百合10居群核型研究

对云南淡黄花百合 10个居群核型进行了研究 ,结果如下 :普洱居群 2n =2x =2 4 =4m(4SAT ) 8st (1SAT ) 12t;大湾居群 2n =2x =2 4 =4m (4SAT ) 4sm (1SAT ) 6st 10t ;宝山居群 2n =2x =2 4 =4m (4SAT ) 4st (1SAT ) 16t ;元阳居群 2n =2x =2 4 =4m (4SAT ) 8st(1SAT ) 12t;玉屏山居群 2n =2x =2 4 =4m (4SAT ) 4sm (1SAT ) 12st 4t;易门居群 2n =2x =2 4 =4m (4SAT ) 2sm 14st (1SAT ) 4t ;峨山居群 2n =2x =2 4 =4m (4SAT ) 2sm 14st(1SAT ) 4t;老鹰地居群 2n =2x =4m (4SAT ) 2sm 14st (1SAT ) 4t;双柏居群 2n =2x =2 4 =4m (4SAT ) 12st (1SAT ) 8t;牟定居群 2n =2x =2 4 =4m (4SAT ) 8st (1SAT ) 12t。研究表明各居群的核型都属于Stebbins的 3B型 ,不同居群间存在染色体类型和随体染色体的多型性 ,同时还发现了B染色体和 4倍体染色体数目变异 ,本文最后讨论了云南淡黄花百合种内居群间核型分化的原因。     

六种犁头属植物（天南星科）的核型研究

报道了6种8个居群犁头尖属（Typhonium Schott）植物的核型,其结果如下：（1）独角莲（T.gigan-teum）北京居群2n＝4x=52=44m 7sm 1st;（2）鞭檐犁头（T.flagelliforme）金平居群2n=3x=24=3m 9sm(4SAT) 12st,河内居群2n＝4x=32=7m 20st 4sm 1t;（3）单籽犁头（T.calcicolum)西畴居群2n=4x=52=21sm 23m(5SAT) 8st;（4）犁头尖（T.blumei）重庆居群2n=4x=52=40m(1SAT) 12sm(3SAT);(5)马蹄犁头（T.roxburgii）个旧居群2n＝2x=18=8sm 10m(2SAT)。其中鞭檐犁头尖2n=24、32,金慈菇2n＝28均为首次报道,同时分析讨论了本属植物染色体基数和倍性的多样性及其可能的原始基数。     

石蒜新核型及染色体数目在安徽的发现

对安徽省马鞍山的石蒜居群进行了核型分析 ,发现了石蒜的一种新的染色体数目及核型。按Levan等 (1 964)标准 ,核型公式为 2n =2 4=6m +8sm +6st+4t,为 3A核型 (Stebbin,1 971 )。与目前国内外学者的观察结果差异很大。马鞍山居群的新染色体数目及核型均为首次报道。     

安徽贝母属植物的核型研究

对安徽产7种贝母属(FritillariaL.)植物的核型进行了分析,结果如下:(1)浙贝母:2n=24=4m 20 t(1SAT);(2)天目贝母:2n=24 3Bs=4m 20 t 3Bs;(3)黄山贝母:2n=24=4m 20 t(1SAT);(4)宁国贝母:2n=24=4m 20 t(2SAT);(5)窄叶小贝母:2个细胞型,细胞型Ⅰ为2n=25=2m 2 sm 4 st 16 t(1SAT) 1Bs,细胞型Ⅱ为2n=24=2m 4 sm 2 st 16 t(2SAT);(6)祁门贝母:2n=24=2m 2 sm 6 st 14 t;(7)安徽贝母:2n=24=2m 2 sm 2 st 18。t除窄叶小贝母的2个细胞型为“3C”型外,其余种皆为“3B”型。与前人的研究结果相比较,贝母属植物的核型多态现象显著;同种植物在不同研究中,核型表现出一定的差异。     

安徽石蒜属4种植物核型研究

本文分析了安徽境内石蒜属ＬｙｃｏｒｉｓＨｅｒｂ．４种植物的核型,并结合有关文献探讨它们的核型变异。结果表明,乳白石蒜Ｌ．ａｌｂｉｆｏｌｉａＫｏｉｄｚ．的核型为２ｎ＝１９＝３ｍ＋７ｓｔ＋４ｔ＋５Ｔ,属３Ｂ型;中国石蒜Ｌ．ｃｈｉｎｅｎｓｉｓＴｒａｕｂ．为２ｎ＝１６＝６ｍ＋１０Ｔ,属３Ｂ型;石蒜Ｌ．ｒａｄｉａｔａ（Ｌ’Ｈｅｒ．）Ｈｅｒｂ．为２ｎ＝２２＝４ｓｔ＋１８ｔ,属４Ａ型;换锦花Ｌ．ｓｐｒｅｎｇｅｒｉＣｏｍｅｓ．ｅｘＢａｋｅｒ．为２ｎ＝２２＝２ｓｔ＋２０ｔ,属４Ａ型。以上各种植物均未发现随体和次缢痕,通过核型比较,可见同种不同居群间在染色体数和核型结构上均存在较大的变异。     

The Discovery of Diploid Lycoris radiata (L′Her.) Herb. from Anhui

Lycoris radiata (L′Her. ) Herb. containing wild and cultural types, is distributed in China and Japan. The karyotype variation in three populations of the species from Anhui is studied in this paper. (1) Wuhu wild population has a karyotype 2n=21+1B= 1m+12st +8t+1B. The chromosomes range in length from 7.50 to 14.10 µm with the ratio of the longest to the shortest 1.88. The karyotype belongs to Stebbins’(1971) 3A. (2) Huangshan wild population has two cytotypes: 2n=22 and 2n=22+1B. Type Ⅰ: The karyotype formula is 2n=22=12st+10t. The chromosomes range in length from 6.85 to 9.95 µm. with the ratio of the longest to the shortest 1.45. The karyotype belongs to 4A. Type Ⅱ: The karyotype formula is 2n=22+1B=6st+14t+2T+1B (plate 1: 7,8). The chromosomes range in length from 6.50 to 11.02 µm. with the ratio of the longest to the shortest 1.70. The karyotype belongs to 4A. (3) Wuhu cultural type has a karyotype 2n=33=30st +3t. The chromosomes range in length from 7.10 to 9.35 µm with the ratio of the longest to the shortest 1.32. The karyotype belongs to 4A. This result agrees well with the previous reports. The diploid types of Lycoris radiata (L´Her.) Herb. are found in Anhui for the firsttime.     

六种犁头尖属植物(天南星科)的核型研究

报道了 6种 8个居群犁头尖属 ( Typhonium Schott)植物的核型 ,其结果如下 :( 1 )独角莲 ( T.gigan-teum)北京居群 2 n=4 x=5 2 =4 4m+ 7sm+ 1 st;( 2 )鞭檐犁头尖 ( T.flagelliforme)金平居群 2 n=3x=2 4 =3m+ 9sm( 4 SAT) + 1 2 st,河内居群 2 n=4 x=32 =7m+ 2 0 st+ 4sm+ 1 t;( 3)单籽犁头尖 ( T. calcicolum)西畴居群2 n=4 x=5 2 =2 1 sm+ 2 3m( 5 SAT) + 8st;( 4 )犁头尖 ( T.blumei)重庆居群 2 n=4 x=5 2 =4 0 m( 1 SAT) + 1 2 sm( 3SAT) ;( 5 )马蹄犁头尖 ( T.trilobatum)西双版纳居群 2 n=2 x=1 8=4 sm( 2 SAT) + 1 2 m+ 2 st,河内居群 2 n=2 x=1 8=2 st+ 9m+ 7sm;( 6 )金慈菇 ( T. roxburgii)个旧居群 2 n=2 x=1 8=8sm+ 1 0 m( 2 SAT)。其中鞭檐犁头尖 2 n=2 4、32 ,金慈菇 2 n=1 8均为首次报道 ,同时分析讨论了本属植物染色体基数和倍性的多样性及其可能的原始基数     

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。     

The discovery of triploid Lycoris sprengeri Comes ex Baker from Anhui,China

Lycoris sprengeri Comes ex Baker is endemic to China. Reported in the present paper are the chromosomes number and karyotypes for two wild populations of the species from Anhui. ( 1 )Caishi population has a karyotype 2n=33=9st+21t+3T. The length of chromosomes ranges from 5.58～9.15μm. The karyotype belongs to Stebbin’s (1971) “4A”. (2)Longyashan populations have two karyotypes. The karyotype formula of the type I is 2n=22=8st+14t, with chromosomes ranging from 6.88～9.15μm. The karyotype belongs to “4A”. The karyotype formula of the type Ⅱ is 2n＝22＝1m+1sm+14st+6t, with chromosomes ranging from 7.20～15.80μm. The karyotype belongs to “3B”. The triploid type of L. sprengeri was discovered in Anhui for the first time. The karyotype 2n=22 =1m+1sm+14st+6t in diploid type of this species is here reported for the first time.The Robertsonian change plays a key role in karyotype evolution of Lycoris.     

Cytotaxonomical Studies on Liliaceae (s.l.): (2) Report on Chromosome Numbers and Karyotypes of 8 Species of 8 Genera from Zhejiang,China

Eight species in eight genera of Liliaceae from Zhejiang were cytotaxonomically studied in this work. The karyotypes of Chinese materials of these species are mostly reported for the first time. The results are shown as follows (see Table 2-4 for chromosome parameters of them): 1. Disporum sessile D. Don Sixteen chromosomes are counted at metaphase of roottip cells.The Karyotype formula is 2n=16=2lm+2sm+4st+2sm+3sm+ 1sm(SAT)+2st (Plate 1: 2-3, see Fig. 1:1 for its idiogram). The Karyotype belongs to 3B in Stebbins’ (1971) karyotype classification, and consists of four pairs of larger chromosomes (1-4) and four pairs of smaller chromosomes (5-8). One SAT-chromosome is situated at the sixth pair. The chromosomes range between 4.85-16.63μm. The karyotypic constitution is similar to that of Japanese material reported by Noguchi (1974). Chang and Hsu (1974) reported 2n=14=13st+1sm and 2n= 16=2m + 13st + 1sm for the material from Taiwan under the name of D. shimadai Hay. (=D. sessile D. Don). Compared with our result of D. sessile, the differences are obvious. 2. Polygonatum odoratum (Mill.) Druce PMCs diakinesis shows eleven bivalents, n = 11, 5 large and 6 small (Plate 2:5). The meiosis is normal. The majority of reports of this species are 2n=20, with a few 2n=22 and 30 (see Table 1). The materials from southen Siberia and the Far East in USSR are all of 2n= 20. Our result is the same as recorded by Jinno (1966) in the Japanese material and by Li (1980) from Beijing. Ge (1987) reported 2n=20 in the cultivated individuals of Shandong, China, showing that both 2n=20 and 22 exist in China. 3. Scilla scilloides (Lindl.) Druce This species has the somatic chromosome number 2n=18 (Plate 1: 4-6, see Fig. 1:2 for its idiogram), of which two groups of chromosomes can be recognized, i.e. the 1 st -5 th pairs of large and the 6 th-9th pairs of small chromosomes. A distinct character of the karyotype is that two satellites are attached to the short arms of the 1st pair of chromosomes. The degree of asymmetry is of 3C. The karyotype formula is 2n = 18 = 2sm (SAT) + 6st + 2t+ 6m + 2sm. The chromosomes range from 2.02 to 11.93 μm. The Previous counts on the species are 2n = 16, 18, 26, 34, 35, 36 and 43 (see Table 1). The present investigation confirms Noda’s and Haga’s results. The species is considered to be of two genomes, namely A(x = 8) and B(x = 9). Our result shows a genome composition of BB, having a pair of large SAT-chromosomes. Chang and Hsu (1974) reported 2n = 34 from a population of Taiwan, an amphidiploid (AABB), Karyotypes of other Chinese populations are worth further researches. 4. Tricyrtis macropoda Miq. The chromosome number of somatic cells is 2n= 26, and PMCs MII shows 13 bivalents (n= 13) (Plate 3:1-3, see Fig. 1:3 for its idiogram). The karyotype formula is 2n= 26= 6m + 10sm + 6st + 4st (or t), which is composed of chromosomes: 4L + 22S in size. The degree of asymmetry is of 3B. No centromeres of the 12th and 13th pairs of chromosomes were observed at metaphase, and the chromosomes may be of st or t. Nakamura (1968) reported 2n= 26(4L+ 22S)= 2sm+ 2sm-st+ 14st-sm+ 8st for T. macropoda Miq. and 2n= 26(4L+ 22S)= 8m+ 2sm+2sm-st+ 2st-sm+ 12st for its ssp. affinis, both from Japan. It is clear that the major character of their karyotypes, i. e. 4L + 22S, is consistent with that reported here. Based on the previous and present reports, all Tricyrtis species studied are remarkably uniform in the basic karyotype, i. e. 4L + 22S. 5. Allium macrostemon Bunge. The present observation on the root-tip cells of the species shows 2n = 32 (Plate 3: 4-5, see Fig. 1:4 for its idiogram). The karyotype formula is 2n (4x)= 32= 26m + 6sm, which belongs to 2B, being of high symmetry. Except the 6th, 10th and 13th pairs of chromosomes all the are metacentric. Chromosomes of this species are large, ranging from 5.94 to 18.06 μm. Our result agrees with Kawano’s (1975) report under the name of A. grayi Regel ( = A. macrostemon, Wang and Tang 1980). 6. Asparagus cochinchinensis (Lour.) Merr. Ten bivalents were observed in PMCs MI, n=10 (Plate 1: 1). The present result confirms the number of a population of Taiwan recorded by Hsu (1971). 7. Ophiopogon japonicus (L. f.) Ker-Gawl. The species from Mt. Taogui, Hangzhou, is found to have 2n (2x)=36=22m + 14sm (Plate 2: 1,5, see Fig. 1:5 for its idiogram) which belongs to 2B. The karyotype is composed of 2 medium-sized chromosomes with metacentric centromeres and 34 small chromosomes, ranging from 1.34 to 4.92 μm. The populations from Mt. Tianzhu and Mt. Yuling, Zhejiang, are found to be aneuploids at tetraploid level (2n=64-70). It is interesting that Nagamatsu (1971) found the karyotypes of Japanese materials to be 2n= 67 and 68, also showing unsteady 4x karyotypes of this species. In the previous. reports (see Table 1), the chromosome numbers of this species are mainly 2n = 72, besides 2n = 36 recorded by Sato (1942) from Japan. 8. Liriope platyphylla Wang et Tang The somatic complement of the species collected from Mt. Tianzhu, Hangzhou, is 2n = 36 (Plate 2: 3-4, see Fig. 1:6 for its idiogram). The karyotype is 2n(2x) = 36 = 16m + 20sm, belonging to 2B type. The chromosomes are small except the medium-sized, 1st pair and the range is from 1.27 to 5.19μm. The material from Mt. Yuling, Zhejiang, is found to have a variety of chromosome numbers (2n= 60-71), as observed in Ophiopogon japonicus. Hasegawa (1968) reported the karyotype of 2n = 72 (4x) from Japan The 2x karyotype is first recorded. This genus is closely related to Ophiopogon. Based on the Hasegawa’s and present studies, all the species in these two genera are remarkably uniform in karyo-type. Therefore, the taxonomy of the two genera is worth further researches.     

山东10种植物的核型分析

对山东１０ 种植物进行了核型分析。茴茴蒜（ Ｒａｎｕｎｃｕｌｕｓｃｈｉｎｅｎｓｉｓ Ｂｇｅ－） 染色体数目２ｎ ＝１６ , 核型公式Ｋ（２ｎ） ＝ ２ｘ ＝ １６ ＝ ２ Ｍ ＋ ２ｍ ＋ ２ｓｍ ＋ １０ｓｔ, “３Ａ”类型; 五脉地椒（ Ｔｈｙｍｕｓｑｕｉｎｑｕｅｃｏｓｔａｔｕｓ Ｃｅｌａｋ－） 染色体数目２ｎ＝ ２６ , 核型公式Ｋ （２ｎ） ＝ ２ｘ＝ ２６ ＝ ８ Ｍ ＋ １８ｍ , “１Ａ”类型; 蛇床（ Ｃｎｉｄｉｕｍ ｍｏｎｎｉｅｒｉ（Ｌ－） Ｃｕｓｓ－） 染色体数目２ｎ＝ ２０ , 核型公式Ｋ （２ｎ） ＝ ２ｘ＝ ２０ ＝ ２Ｍ＋ １６ｍ ＋ ２ｓｍ , “２Ｂ”类型; 波斯菊（ Ｃｏｓｍｏｓ ｂｉｐｉｎｎａｔｕｓ Ｃａｖ－） 染色体数目２ｎ ＝ ２４ , 核型公式Ｋ（２ｎ） ＝ ２ｘ ＝ ２４ ＝ １６ｍ ＋ ２ｍ （ｓａｔ） ＋ ６ｓｍ , “２Ａ”类型; 白车轴草（ Ｔｒｉｆｏｌｉｕｍ ｒｅｐｅｎｓ Ｌ－） 染色体数目２ｎ＝ ３２ , 核型公式Ｋ （２ｎ） ＝ ４ｘ ＝ ３２ ＝ ３２ｍ , “１Ａ”类型; 铁苋菜（ Ａｃａｌｙｐｈａ ａｕｓｔｒａｌｉｓ Ｌ－）染色体数目２ｎ ＝ ３２ , 核型公式Ｋ （２ｎ） ＝ ２ｘ＝ ３２ ＝ ３２ｍ , “１Ｂ”类型; 地构叶（ Ｓｐｅｒａｎｓｋｉａ ｔ?