Karyotype Analysis of 5 Species of Polygonatum Mill.

The present paper reports the chromosome numbers and karyotypes of five species in Polygonatum from Anhui of China. The materials used in this work are listed in Table 1, Photomicrographs of somatic metaphase and karyograms of the five species of Polygonatum in Plate 1, 2, 3, the idiograms in Fig. 1-11 and a comparison of the karyotype of them is provided in Table 2. The results are shown as follows: 1. Polygonatum odoratum (Mill.)Druce Two materials were examined. One from Mt. Huangshan, Anhui, has 2n= 16 = 10m (3sc)+ 6sm (Plate 1 :A, B). The idiogram is shown in Fig. 1. The chromosomes range in length from 2.85 to 8.85 μm, with the total length 48.63μm and the ratio of the longest to the shortest 3.11, The karyotype belong to Stebbins’(1971) 2B. The two chromosomes of the first pair have arm ratios 1.01 and 1.29 respectively, and The first pair has one chromosome carrying a satellite attached to the short arm, showing heterozyosity .The chromosome num ber of 2n= 16 in P. odoratum and its karyotype are reported for the first time. The other from Langyashan, Chu - xian, Anhui, is found to have 2n = 18 = 10m (Isc)+2sm+6st(2sc) (Plate 1: C, D). The idiogram is shown in Fig. 2. The chromosomes range in length from 2.43 to 8.29μm, with the total length 46.67µm and the ratio of the longest to the shortest 3.41. The karyotype is also of 2B. In a somatic chromosome complement the 2nd pair have one chromosome carrying a satellite attached to the long arm, showing heterozygosity. 2. Polygonatum filipes Merr. Two materials were examined. One from the Huangshan, Anhui is found to have two cytotypes: 2n= 16 and 2n=22. This paper reports one of them. The karyotype formula is 2n=22=8m+8sm(2sc)+6st(Plate 3: Q, R). The idiogram is shown in Fig. 3. The chromosomes range in length from 2.55- 5.85μm, with the total length 45.01 μm and the ratio of the longest to the shortest 2.29. The karyotype belongs to 3B. The other material from the Fangchang, Anhui, is shown to have four cytitypes: 2n= 14, 2n= 16, 2n=20 (Plate 3: W) and 2n=22. This paper reports two of them. Type I: the karytype formula is 2n=14=10m+4sm (Plate 3: S, T). The idiogram is shown in Fig. 5. The chromosomes range in length from 2.59 to 7.61μm, the total length 37.44μm and the ratio of the longest to the shortest is 2.94. the karyotype belongs to 2B. Type II :The karyotype formula is 2n=16=8m+4sm+4st (Plate 3: U, V). The idiogram is shown in Fig. 4. The chromosomes range in length from 2.65 to 8.21 μm, the total length 46.01 μm and the ratio of the longest to the shortest 3.10. The karyotype belongs to 2B. The chromosome numbers of 2n=20, 2n= 14 and 2n=22, and karyotype of 2n= 14 and 2n=22 in P. filipes are reported for the first time. 3. Polygonatum cytonema Hua Two materials were examined. One from the Langyashan, Chuxian, anhui, is found to have 2n = 18 = 8m (2sc)+ 6sm+ 4st (Plate 2: K, L). The idiogram is shown in Fig. 7. The chromosomes range in length from 3.41 to 9.21 μm, the total length 56.34μm and the ratio of the longest to the shortest is 2.70. The karyotype belongs to 2B. The other material from the Huangshan, Anhui, has two cytotypes: 2n=20 and 2n= 22. Type I: The karyotype formula is 2n= 20= 8m+ 6sm+ 6st (Plate 2: M, N). The idiogram is shown in Fig. 8. The chromosomes range in length from 1.75 to 5.03μm, with the total length 32. 91μm and the ratio of the longest to the shortest 2. 87. The karyotype is also of 2B. Type II: The karyotype formula is 2n=22=6m+ 8sm+4st+ 4t (Plate 2: O, P ). The idiogram is Shown in Fig. 10. The chromosomes range in length from 1.75 to 4.95 μm, with total length 35.05μm and the ratio of the longest to the shortest 2.83. The karyotype brlongs to 3B. 4. Polygonatum desoulayi kom. The material from Xuancheng, Anhui, is found to have karyotype 2n = 22 = 10m (2sc) + 6sm (lsc) + 6st ( Plate 2. I, J). The idiogram is shown in Fig. 6. The chromosomes range in length from 1.86 to 5.61μm, with the total length 41.98μm and the ratio of the longest to the shortest 3.02. The karyotype is also of 3B. The first pair has one chromosome carrying a satellite attached to the long arm, showing heterozygosity. The chromosome number and karyotype of Chinese material are reported for the first time. 5. Polygonatum verticillatum (L.) All. The material from the Langyashan, Chuxian, Anhui is found to have two cytotypes. Type 1: the karyotype formula is 2n = 18 = 2m+ 2sm+ 10st+ 2t+ 2T (Plate 1: G, H). The idiogram is shown in Fig.9. The chromosomes range in length from 1.86 to 4.03μm, with total length 28.28μm and the ratio of the longest to the shortest 2.17. The karyotype classification belongs to 3B. Type II: The karyotype formula is 2n=24=6m+4sm+12st+2T (Plate 1: E, F). The idiogram is shown in Fig. II. The chromosomes range in length from 2.01 to 5.03μm, with total length 41.36μm and the ratio of longest to shortest 2.50. The karyotype is also of 3B. The chromosome numbers and karyotypes of Chinese material are reported for the first time.     

Report on Karyotypes of 10 Species of Liliaceae (s. l.) From Qinling Range

The karyotypes of 10 species of the Liliaceae from the Qinling Range are reported as follows. I. Polygonatum Mill. (1) P. odoratum ( Mill. ) Druce was found to have the karyotype 2n=20=12m+8sm ( Plate 3, Fig. I), which belongs to Stebbins’ (1971) karyotype classification 2B. The chromosomes range from 3.88 to 11.26μm in size. Table 2 shows the karyotypes and number fundamentals (N.F.) of 13 materials from 12 different localities. The N. F. of these materials can be classified into two groups: N.F. =36 and N.F.=40, besides one (N.F. =38) from Beijing. N. F. =36 covers all the materials with 2n= 18 which have relatively symmetrical karyotypes ( all consisting of m and sm chromosomes), one with 2n=20 (10m+6sm+4st) and one with 2n=22 (14m+8st). N.F. =40 include four materials with 2n= 20 (all of m and sm chromosomes ) and 3 with 2n= 22 (10m+ 8sm+ 4st). ￥ It is considered that there are two original karyotypes, 2n= 18 with N. F. = 36 and 2n= 20 with N.F. =40, which are relatively symmetrical. All the more asymmetrical karyotypes with some st chromosomes have probably evolved from the symmetrical karyotypes without st chromosomes by centric fission. (2) P. zanlanscianense Pamp. has the karyotype 2n=30=18m(2SAT) + 4sm+ 6st+ 2t (Plate 1, Fig. 1) which belongs to 2C. The chromosomes range from 2.16 to 9.76μm. ￥ II. Asparagus filicinus Buch.-Ham. ex D.Don. The karyotype of this species is 2n = 16= 8m(2SAT )+ 6sm + 2st (Plate 1, Fig. 1 and Table 3 ) , which belongs to 2B. The chromosomes range from 2.33 to 5.30μm. Most species in Asparagus, including A.Filicinus, are reported to have basic number x= 10, and therefore 2n= 16 is a new chromosome number for A.filicinus. EL-Saded et.al.(1972) gave a report of n=8 for A. stipularis from Egypt, while Delay (1947) reported 2n = 24 for A. trichophyllus and A. verticillatus, Sinla(1972 ) gave a report of 2n=48 for A.racemosus. It is certain that there are two basic numbers in the genus Asparagus. III. Cardiocrinum giganteum (Wall.) Makino was found to have the karyotype 2n=24=4m+8st+12t (Plate 1, Fig. 1 ), which belongs to 3B. The chromosomes range from 8.71 to 20.24μm. IV. Smilax discotis Warb. was shown to have the karyotype 2n=32=4m+22sm+4st (2SAT)+2t (Plate 1, Fig. 1 and Table 3), which belongs to 3C. The first pair is much longer than others. The chromosomes range from 1.79 to 9.21μm. The chromosome number and karyotype of S. discotis are both reported for the first time. V. Reineckia carnea (Andr.) Kunth is of the karyotype 2n=38=28m+10sm (Plate 2, Fig. 1 ), which belongs to 2B. The chromosomes range from 5.65 to 12.75μm. VI. Tupistra chinensis Baker was found to have the karyotype 2n=38=25m+ 13sm (Plate 2, Fig. 1), which belongs to 2B. The chromosomes range from 8.11 to 23.82μm. A pair of heterozygous chromosomes is arranged at the end of the idiogram. The eighth pair possesses an intercalary satellite. Huang et al. (1989) reported the karyotype of T. chinensis from Yunnan as 2n = 38 = 24m+ 14sm without any intercalary satellite. Nagamatsu and Noda (1970) gave a report on the karyotype of T. nutans from Bhutan, which consists of 18 pairs of median to submedian chromosomes and one pair of subterminal chromosomes. And one pair of submedian chromosomes possess intercalary satellites on their short arms. VII. Rohdea japonica (Thunb) Roth. was found to have the karyotype 2n=38=30m+6sm+2st ( Plate 2, Fig. 1), which belongs to 2B. The chromosomes range from 7.94 to 18.29μm. Nagamatsu and Noda (1970) reported that the karyotype of R.japonica from Japan was the same as that of Tupistra nutans from Bhutan. But we have not discov ered any chromosome with an intercalary satellite. VIII. Hosta Tratt. (1) H. plantaginea (Lam.) Aschers was shown to have 2n=60. The 60 chromosomes are in 30 pairs,which can be classified into 4 pairs of large chromosomes (7.32- 8.72μm ), 3 pairs of medium-sized ones (4.72-5.60μm), and 23 pairs of small ones (1.40-3.64μm), (Plate 3 ,Table 4 ). The karyotype of H. plantaginea is reported for the first time. (2) H. ventricosa (Salisb.) Stearn was counted to have 2n=120, The 120 chromosomes are in 60 pairs, which can be classified into 8 pairs of large chromosomes (7.00- 8.40μm ), 6 pairs of medium-sized ones(4.40- 6.15um ), 46 pairs of small ones (1.20- 3.85μm), (Plate 3, Table 4). Based on the karyotypes of H. plantaginea and H. ventricosa, the latter is probably a tetraploid in the genus Hosta. Kaneko (1968b) gave a report on the karyotype of H. ventricosa, which is of8 pairs of large chromosomes, 4 pairs of medium-sized and 48 pairs of small ones.     

A Chromosomal Study of Eight Species in Allium Sect. Rhiziridium G. Don in China

The present paper reports the chromosome numbers and karyotypes of eight species of Sect. Rhiziridium in Allium (Liaceae). The materials were all collected from their natural populations in east Inner Mongolia, China. The karyotype analysis is made on the basis of Li et al. (1985).The results are as follows (for chromosomes parameters, voucher specimens and localities, see Table 1 and Plate 1--2 the idiograms of the eight species in Fig. 1): (1) Auium leucocephalum Turcz. The somatic chromosome number and karyotype of this species is 2n=16=12m=2sm+2st (2SAT), in Stebbinsl(1971) kayotype classification, which belongs to 2A (Plate 1: 1; Fig. 1: 1). The range of chromosome relative length varies between 8.90--15.55%. Two small satellites are attached to the short arms of the 8th pair of chromosomes. (2) A. strictum Schrader has 2n (4x) =32=16m+4sm+12st, belonging to 2B (Plate 1: 2 & Fig. 1: 2). Satellites were not observed., and the range of chromosome relative length is between 3. 67-11.00%. (3) A. ramosum L. 2n=16=14m+ 2st (2SAT), belonging to 2A (Plate 1: 3 & Fig. 1: 3), Two small satellies are attached to the short arms of the 8th pair of chromosomes. The range of chromosome relative length is between 9.17-16.39%. The chromosome number and karyotype of this species are in accordancewith those reported by Li et al. (1982) with the material from Jinshan, Beijing. (4) A. bidentatum Fisch. ex Prokh. 2n (4x) =32=24m+4sm+4T, belonging to 2B (Plate 1: 4 & Fig. 1: 4). Satellites were not observed. A small median B-chromosome was found in root-tip cells of the population growing in sandy soil, and it is the first discovery (Plate 2: 9). The species has terminal chromosomes, which are seldom seen in Sect. Rhiziridium. The range of chromosome relative length is between 3.32—9.06%. (5) A. tenuissimu L. 2n=16= 10m+4sm+2st(2SAT), belonging to 2B(Plate 1:5 & Fig. 1:5). Two large satellites are attached to the short arms of the 8th pair of chromosome. The range of chromosome relative length is between 8.27--17.56%. (6)A. anisopodium Ledeb. 2n = 16 = l2m +2sm + 2st (2SAT), belonging to 2A (Plate 2:7 & Fig. 1: 7). Two large satellites are attached to the short arms of the 8th pair of chromosomes. In somatic cells of some plants of this species, a small submedian B-chromosome was found (Plate 2: 10, 11). The range of chromosome relative length is between 8.05-17.08 %. (7) A. anisopodium Ledeb. var. zimmermannianum (Gilg) Wang et Tang 2n (4x)=32=24m+4sm+4st( 4SAT), belonging to 2A (Plate 1: 6 & Fig. 1: 6). Four large satellites are attached to the short arms of the 15 and 16th pairs of chromosomes. The range of chromosome relative length is between 4.45--8.35%. This variety is similar to A. anisopodium Ledeb. in morphological characters, and their karyotype formulas are also very similar. The present authors consider that the variety is an allotetraploid derived from A. anisopodium Ledeb. (8) A. condensatum Turcz. 2n=16=14m+2st (2SAT), belonging to 2B (Plate 2:8 & Fig. 1:8). Two. small satellites are attached to the short arms of the 6th pair of chromosomes. In a few individuals of this species median (M) B-chromosome was discovered, and the number is stable (Plate 2: 12). The range of chromosome relative length is between 7.64--17.07%. In short, the chromosome numbers of the species studied in the present work are found to be 2n=16 or 32, and the karyotypes belong to 2A or 2B, highly symmetrical. The karyotypes of Chinese materials of these species are mostly reported for the first time. Threespecies have B-chromosomes.     

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.     

Report on Karyotypes of 6 Species in 4 Genera of Polygonateae from China

Cytotaxonomically investigated in this work were 6 species in 4 genera of Polygonateae (sensu Krause, 1930). Each species was karyotypically analysed using 5 somatic metaphase cells with well-spread chromosomes. The chromosome classification follows Levan et al. (1964) and the karyotype classification is according to Stebbins (1971). The materials used are listed in the Appendix and the vouchers are deposited in PE. The chromosome numbers and karyotypes of Disporum megalanthum and Disporopsis aspera are reported here for the first time, and those of Chinese Maianthemum bifolium are also reported for the first time. The results are shown as follows. (1) Disporum Salisb. D. megalanthum Wang et Tang from tthe Wolong Nature Reserve, Sichuan, is found to have a karyotype 2n=16=2m(1SAT)+6sm(1SAT)+8st (3SAT) (Plate I, A). The parameters of chromosomes are listed in Table 1 and the idiogram is shown in Fig. 1, A. The chromosomes range in length from 8.5 to 29.3 μm, with the ratio of the longest to the shortest 3.45. The karyotype belongs to Stebbins' (1971) 3B. In a somatic chromosome complement the 2nd, 4th, 6th and 7th pairs each have one chromosome carrying a satellite, showing heterozygosity. Another material from the Qinling Range, Shaanxi, is shown to have 2n=16=2m(1SAT) +8sm(3SAT)+6st (Plate 1, B). The parameters of chromosomes are listed in Table 1 and the idiogram is presented in Fig. 1, B. The chromosomes range in length from 6.3 to 22.6μm, with the ratio of the longest to the shortest 3.61, and thus the karyotype belongs to 3B. The karyotype shows clear heterozygosity (Fig. 1, B). The two chromosomes of the first pair have arm ratios 2.38 and 1.82 respectively, but they are equal in length, 22.6 μm. It seems to us that a pericentric inversion has taken place in one of the two chromosomes. Moreover, the 3rd and 4th pairs each have one chromosome carrying a satellite attached to the long arm. These two materials are of the basically same karyotype, the major difference between them being that the 3rd pair in the former consists of two st chromosomes with the arm ratio 3.15, while the corresponding pair in the other is of two m chromosomes with an arm ratio 1.67. Seven East-Asian species of the genus Disporum are reported to have 2n=14, 16 and 18 (or 16+2B?), but 2n=16 is common to all the species, and therefore the basic number of the group is x=8. For the North American group of the genus, however, 3 species (D. hookeri, D. lanuginosum, D. oreganum) are of 2n=18, D. smithii is of 2n=16, and D. maculatum 2n=12. Chromosome numbers are more variable in the North American group, but x=9 seems to be a dominant basic number. Even more striking difference in karyotype between the two groups exists in size of chromosomes, 2.0-4.9μm.for the North American group, while 4.016.0 μm for the East-Asian counterpart (Therman, 1956) (Our result shows 6.3-22.6 μm and 8.5-29.3 μm for the two materials). This remarkable contrast in karyotype is clearly correlated with the differentiation in gross morphology. The East-Asian species have calcarate tepals but no reticulate veins of leaves, whereas the North American ones have reticulate veins but spurless tepals. The evidence from karyotype and morphology seems to justify the restoration of the genus Prosartes for the Nortth American species (Conover, 1983, cf. Dahlgren et al. 1985). (2) Disporopsis Hance D. pernyi (Hua) Diels from Mapien, Sichuan, is of 2n = 40 = 23m(2SAT)+13sm(2SAT) + 2st+ 2t(2SAT) (Plate 1, C). The parame- ters of chromosomes are listed in Table 2, and the idiogram is shown in Fig. 2, A. The chromosomes range in length 5.2-16.2μm, with the ratio of the longest to the shortest 3.11, and thus the karyotype belongs to 2B. D. aspera (Hua) Engl. ex Krause also from Mapien, Sichuan, is found to have 2n=40=30m+8sm(2SAT)+2t(2SAT) (Plate 1,D). The parameters of chromosomes are listed in Table 2, and the idiogram is shown in Fig. 2, B. The chromosomes range in length 5.2-14.7 μm, with the ratio of the longest to the shortest 2.84. Therefore, the karyotype belongs to 2B. Another material from the same locality but different population was also examined and found to have 2n=40=30m+6sm+2st(2SAT) (Fig. 2, C). D. arisanensis (=D. pernyi) from Taiwan is reported to have 2n=40=26m+12sm+2st (Chang and Hsu, 1974), D. fusco-picta from the Philippines 2n=40=22m+16sm+2st(2SAT) (Kumar and Brandham, 1974), and D. longifolia from Thailand 2n=40 (Larsen, 1963). Thus, the species in the genus, except the newly described D. jingfushanensis Z. Y. Liu (1987) with no chromosome data, are all of 2n = 40, and the basic number of the genus is x = 20. From the karyotype formulae, asymmetry of the karyotypes increases from D. aspera to D. fusco-picta through D. pernyi, which may be correlated with the increasing specialization of gross morphology. (3) Maianthemum Web. M. bifolium (L.) F. W. Schmidt from the Qinling Range, Shaanxi, is found to have 2n = 36 = 20m + 10sm + 4st + 2t (2SAT) (Plate 1, H). The parameters of the chromosomes are listed in Table 3, and the idiogram is shown in Fig. 3, D. The chromosome lengths range 2.4-8.2μm, with the ratio of the longest to the shortest 3.43. The karyotype thus belongs to 2B, and is slightly bimodal: the first 10 pairs and the pair of sat chromosomes are larger than the rest 7 pairs, the ratio of the shortest in the former group to the longest in the latter group being 1.24. (4) Polygonatum Mill. P. humile Fisch. ex Maxim. from Chicheng County, Hebei, is shown to have a karyotype 2n= 20= 10m(2SAT)+6sm(2SAT)+ 4st (Plate 1, G). The parameters of chromosomes are listed in Table 4, and the haploid idiogram is shown in Fig. 3, C. The chromosome lengths range from 3.0 to 10.0μm with the ratio of the longest to the shortest 3.3. The karyotype therefore belongs to 2B. P. odoratum (Mill.) Druce Two materials in this species were examined. One from Chicheng County, Hebei, has 2n=20=10m+10sm(3SAT) (Plate 1, E). The parameters of chromosomes are presented in Table 4 and the somatic idiogram in Fig. 3, A. The chromosomes range in length 3.1-8.8 μm, with the ratio of the longest to the shortest 2.8. The karyotype is thus of 2B. The other from the Qinling Range, Shaanxi, is found to have 2n=20= 12m(4SAT)+8sm(2SAT) (Plate 1, F). The parameters of chromosomes are listed in Table 4, and the haploid idiogram is shown in Fig. 3, B. The chromosomes range in length 4.2-10.9 μm, with the ratio of the longest to the shortest 2.6. The karyotype is also of 2B. P. odoratum is widely distributed in Eurasian temperate region and its cytological reports are frequently seen. All the materials outside of China, from Portugal to Japan, are reported to have 2n=20, except one material from east Sayan in SE Siberia, which is reported to have 2n=30 (Krogulevich, 1978). In China, however, three chromosome numbers have so far been reported under the name P. odoratum, 2n=20 from the Changbai Mountains, Jilin Province (Fang, 1989), Qinlong County, Hebei Province (Wang et al. 1987), the Jinfo Mountains, Sichuan Province (in cultivation), besides the two materials used in this work; 2n=22 from Mt. Jinshan in Beijing (Li, 1980), Wuhan in Hubei Province, Yixin in Jiangsu Province and Mt. Emei in Sichuan Province (Fang, 1989); 2n=18 from Yixin in Jiangsu Province and the Dabien Mountains in Anhui Province (Fang, 1989). It is, therefore, rather evident that the species under discussion is variable in chromosome number only in the southern part of its distribution area. Karyotypical morphology is also variable in this species. The 2n=20 group is found to have following karyotypes: 12m(4SAT)+8sm (in Austria, Hong et al. unpubl.), 14m+6sm (Jilin): 12m+8sm (Qinlong, Hebei): 10m+10sm (3SAT) (Chicheng, Hebei): 12m(4SAT)+ 8sm(2SAT) (Shaanxi) and 10m+6sm+4st(Mt. Jinfo, Sichuan). For the 2n=18 group, 10m+ 8sm (Anhui) and 8m+10sm (Jiangsu) have been found. In the 2n=22 group these karyotype formulae so far reported are all 10m+8sm+4st. Comparing the karyotypes in the three groups we find that 4st chromosomes are always present in the 2n=22 group, while in the other two groups, except the karyotype 10m+6sm+4st found from the Jinfo Mountains in Sichuan, all the karyotypes consist of m and sm chromosomes. Based on the correlation between karyotypical data and cryptic morphological differences Wang et al. (1988) consider Polygonatum odoratum as a complex, which consists of three species: Polygonatum odoratum (s. str. 2n=20), P. macropodium Turcz. (2n=22) and P. simi-zui Kitag. (2n=18). But in this complex biosystematic problems, such as relationship between chromosome number and chromosome structure, evolutionary relationship of the different chromosome numbers, relationship between means of reproduction (extent of vegetative propagation) and karyotype variation are still unresolved and deserve further studies. Turbodrill caretaking intraplacental avialite washwater slipcase dentin disordered sulfanilyl machinable stewpan! Netherward pressbodies horror abscissa, keratosis frieze. 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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.     

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.     

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.     

Cytotaxonomical Studies on Liliaceae (s. l.) (1) Report on Karyotypes of 10 Species of 6 Genera

Ten species of six genera of Liliaceae were cytotaxonomically investigated in this work. Chromosomes of Paris polyphylla var. latifolia Wang et Tang, Smilacina henryi (Baker) Wang et Tang, Allium ovalifolia Hand.-Mazz. and a tetraploid race of Paris verticillata M.Bieb. are reported for the first time. The results are shown as follows. 1. Paris P. verticillata M.-Bieb. is found to be a tetraploid, with karyotype formula 2n=20=12m+4st+4t (Plate 1, A, see Fig. 1, A for its idiogram), which belongs to Stebbins' (1971) karyotype classification 2B. P. polyphylla var. latifolia Wang et Tang is a diploid with karyotype formula 2n=10+1B=6m+4t+1B (Plate 2, A, see Fig. 1, B for its idiogram), which belongs to 2A. P. polyphylla var. polyphylla is also a diploid with karyotype formula 2n=10 =6m+4t (Plate 2, C, see Fig. 1, C for its idiogram), which belongs to 2A. Their chromosome parameters are given in Table 1. The difference in karyotype between the two varieties of P. polyphylla is only presence or absence of a B-chromosome, whereas the karyotypes of the two species mentioned above are distinctly different, not only in chromosome number, but also in morphology. Based on the present work and those of Hara (1969) and Gu (1986), it is rather clear that there are two kinds of basic karyotypes in Paris, i. e. x=3m+1st+1t (st with arm ratio 3.5-4.0) and x=3m+2t. These two basic karyotypes are closely correlated with geographical distribution and external morphology. The taxa with the former karyotype are distributed in north temperate zone, expect P. bashanensis which occurs in the subtropics, but those with the latter are distributed in the tropics and subtropics (Fig. 2). And according to Hara's (1969) system, the taxa with x=3m+1st+1t belong to the sections Paris and Kinugawa (with only one species, P. japonica) and those with 2n=3m+2t belong to the section Euthyra, but in Li's (1984) system, the former belongs to the sections Paris and Kinugasa of the subgenus Paris, and the latter belongs to the 5 sections of the subgenus Daiswa and the section Axiparis of the subgenus Paris. 2. Cardiocrinum Chromosome number of C. giganteum, from the Mt Taibai, the Qinling Range, is 2n=24 (Plate 2, E, see Fig. 3, A for its karyogram). Kurosawa's (1960) report is different from ours in the sixth and the ninth chromosome pairs with secondary constrictions situated in the long arms. Chauhan (1984) found that the karyotype (2n=24) of a population from Mawphlong Forest (1000 m alt.) in the Eastern Himalayas, Assam, has the eighth chromosome pair with secondary constrictions in the long arms. Tang et al. (1984) gave a report on the karyotype of a population from the Mt Omei, which is different from the others in having not only much longer short arms of the eleventh pair but also secondary constrictions in the short arms of the first pair and in the long arms of the ninth pair. From the information so far available, 2 out of 3 species of the genus are karyologically relatively uniform, with two pairs of submedian chromosomes and ten pairs of subterminal ones. 3. Smilacina Chromosome number of S. japonica A. Gray is 2n=36 (Plate 1, D). Its karyotype is shown in Fig. 3, G. S. henryi (Baker) Wang et Tang is also found to have 2n =36 (Plate 2, B). Its karyotype is shown in Fig. 3, B. Both karyotypes are bimodal, with eight large and ten small pairs and the length ratio of the eighth pair and the ninth one being 1.81 in the former, but with the nine large pairs and the length ratio of the ninth pair and the tenth one being 1.42 in the latter. The karyotype of S. japonica is more asymmetrical than the one of S. henryi. Based on the reports by Mehra and Pathania (1960), Hara and Kurosawa (1963), Chuang et al. (1963) and the present paper, all the species studied in the genus are of a bimodal karyotype. No any taxon with 2n=18 has so far been discovered, and therefor x=9 for the genus as considered by Darligton et Wylie (1955) is doubtful. 4. Allium A. victorialis from the Mt Dahaituo, Chicheng, Hebei, is found to have 2n=32=22m+6sm+4st (Plate 1, E; Fig. 4, D) and A. ovalifolia Hand-Mazz. from the Mt Taibai, Qinling, 2n=16=12m+2sm+2st (Plate 1, B; Fig. 4, C). 2n=16 has been reported by Mehra and Sachdeva (1976) for A. victorialis, and thus two ploid levels exist in the species. If the last pair of chromosomes is considered as the one with intercalary satellites, its karyotype is structurally similar to that of the tetraploid race of A. victorialis. 5. 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Karyotype Variation and Evolution of Sect. Thea in Guizhou

Karyotypes of seven species, one variety and 11 forms of Sect. Thea occurring in Guizhou Province, were investigated by the wall degradation hypotonic method. The micrographs of their somatic metaphase are shown in plates 1-2 and the parameters of chromosomes according to Li and Chen (1985) are given in Table 1 and the idiograms in Fig. 1. The karyotype formulae are as follows: Camellia quinquelocularis 22=30=24m+6sm; C. tetracocca 2n=30=22m+8sm; C. taliensis 2n=30=22m+8sm; C. gymnogyna 2n=30=22m +6sm+2st and 2n=30=20m=8sm+2st; C. gymnogynoides 2n=30=22m +6sm+2st and 2n=30=20m+8sm+2st; C. jungkiangensis 2n=30=20m+8sm+2st; C. sinensis 2n =30+20m+8sm+2st, and C. sinensis var. ruoella 2n=30=20m+8sm+2st. All the karyotypes belong to Stebbins “2A”. The following main aspects are discussed. 1. Chromosome numbers: All these species are found to have 2n=30. Based on the previous and present reports, It clearly indicates that evolution of this group has taken place mainly on diploid level, but not on polyploid one. 2. The karyotype variation: Generally, all the karyotypes examined are similar, but according to symmetry of karyotype, they may be grouped into two types. One is characterized by metacentric (m)and submetacentric (sm)chromosomes, involving C. quinquelochlaris, C. tetracocca, C. taliensis, while the other is characterized by a pair of subtelocentric (st) chromosome besides m and sm chromosomes, involving C. gymnogyna, C. gymnogynoides, C. jungkiangensis, C. sinensis and C. sinensis var. ruoella. It is suggested that the mechanism for karyotype variation and speciation in Sect. Thea be pericentric inversion or reciprocal translocation. The first type is more symmetrical than the second one, and is thus relatively primitive. 3. The orginal center of Sect. Thea: Based on the analysis of karyotypes, morphological characters, geographical distribution and biochemical features, the authors consider that the Yunnan-Guizhou plateau including the contiguous area in Yunnan, Guangxi and Guizhou is the original center, from where it radiated, resulting in the present distribution pattern of Sect. Thea.4. Taxonomic treatment of Sect. Thea: The taxonomic treatment of Sect. Thea is complicated and still confused up to now. The number of species is more than 40 according to Zhang’s taxonomic system (1984), but, recently, most of them are reduced by Min (1992). Further work should be based on the concept of morphological discontinuity and in formation from other branches of sciences. Whether two types of karyotype are two biological species remains questionable.     

子午岭产4种百合科植物的核型多样性研究

对子午岭产百合科黄精属大苞黄精（Ｐ．ｍｅｇａｐｈｙｌｌｕｍ）、玉竹（Ｐ．ｏｄｏｒａｔｕｍ）,百合属的细叶百合（Ｌ．ｐｕｍｉｌｕｍ）,葱属的糙葶韭（Ａ．ａｎｉｓｏｐｏｄｉｕｍ）４种植物进行了染色体研究。其染色体数目和核型分别为：玉竹２ｎ（２ｘ）＝２０＝１２ｍ（２ＳＡＴ）＋８ｓｍ,核型为２Ｂ型;大苞黄精２ｎ（２ｘ）＝２２＝４ｍ＋１２ｓｍ＋６ｓｔ,核型为３Ｂ型;细叶百合２ｎ（２ｘ）＝２４＝４ｍ＋１０ｓｔ     

Karyotype Analysis of Anemarrhena asphodeloides Bunge (Liliaceae)

A karyotypical analysis of Anemarrhena asphodeloides Bung. of the monotypic genus Anemarrhena Bung. (Liliaceae) was carried out for the first time. The number of chromosomes in root-tip cell of the species was found to be 22, agreeing with that reported by Sato^[12], although inconsistent in some other respects, such as position of centromeres, length of chromosomes, and nucleoli, etc. (Table 1 ). According to the terminology defined by Levan et al.^［8］, the karyotype formula is therefore 2n=22=2sm (SAT)+2sm+18m. Photomicrographs of the chromosome complements and idiogram of the karyotype are given Fig. 1 and 2). The karyotype of Anemarrhena asphodeloides shows explicitly to be asymmetrical, with three pairs of long chromosomes and eight pairs of short chromosomes. This specialized feature, when considered together with the rare occurrence of the basic chromosome number of 11 of the genus within the Tribe Asphodeleae of Liliaceae (see Table 1), suggests that the genus Anemarrhena is probably a rather specialized one, which has scarcely any intimate relationship with the other genera of the above tribe. The fact that this specialized karyotype is associated with certain trends of morphological specialization, such as flowers possessing three stamens only, gives support to the above suggestion. But, it is impossible to draw a more precise conclusion without a more thorough and comprehensive investigation of the species in question.     

Biosystematic Observation on 5 Species of Consolida (Rannnculaceae)

The karyotypes of five species of the germs Consolida from SE Europe, Turkey and Iran (see Appendix Ⅰ for the detail information concerning the vouchers) were studied with 0.05% colchicin pretreatment followed by Carney Ⅰ fixation and Fenlgen squashing. The result shows that C. regalis ssp. regalis has a karyotype of 2n=16= 1(L)m- (SAT)+ 3(L)m + 6(S)st + 5(S)t+1(S)t(SAT)(Fig. 1A and Plate Ⅰ, G) and ssp. paniculata has a karyotype of 2n = 16 = 2(L)m (SAT) + 2(L)m + 6(S)st + 6(S)t (Plate Ⅱ,A) and 8 bivalents in meiosis (Piate Ⅱ, E, F); C. persica 2n = 14 = 2 (L)m (SAT) + 2(L)m + 3(S) st + 7(S) t(Plate Ⅲ, B; Fig. 1,B); C. stenocarpa 2n =16 = 2(L)m(SAT) + 2(L)m + 1(S)st + 11(S)t (Plate Ⅰ, C, Fig. 1, C); C, teheranica (see Appendix Ⅰ for the nomenclature) 2n = 16 = 4(L)m(SAT) + 2(S) st + 10(S) t (Plate Ⅲ, D; Fig. 1, D); C. scleroclada var. rigida 2n = 18 = 2(L)m (SAT) + 2(S)st + 14(S)t(Plate Ⅱ H, Ⅰ; Fig. 1, E) All the karyotypes here descr- ibed are highly asymmetrical and bimodal, and belong to the type 3C in the karyotype classification system established by Stebbins[14,15]. 2n=18 for the last mentioned taxon has been confirmed by the ,standard microtome sectioning method. Its meiosis was also examined with acetoorcein staining, and 9 bivalents were always found at MI, no meiotic aberrations being Observed. x=7 and x=9 are two new basic numbers even for the whole tribe of Delphineae. It is considered that the karyotype of 2n=18 is derived from that of 2n=16 by centic fission (Robertsonian exchange), while the karyotype of 2n=14 is derived from that of 2n=16 probably by successive unequal interchanges. As shown to Fig. 1 and 2. the complement of C. sclerocleda var. rigida (2n=18) has only one pair of large and metacentric chromosomes instead of 2 pairs of such chromosomes in the other species, but it has 2 extra pairs of small and terminal chromosomes as compared with the species with 2n=16. The complement in the taxon has, therefore, exactly the same fundamental number of chromosome arms as that of the other species with 2n=16 (for example, of C. stenocarpon), but it has two more centromeres. There are at least 2 pairs of chro- mosomes in the complement (3 and 5) which may be telocentric, i.e. T chromosomes in the sense of Levan et al[8] The small dots at the ends of the chromosomes may be the chromomeres in centric regions rather than short arms (Jones[6]). As the plants constantly show 9 bivalents .at the first meiotic division and have very high pollen fertility (98%) as well as good seed-set, the karyotype seems to be a stable one. Therefore, Consolida scleroclada var. rigida may have provided another example of spontaneous centric fission which has resulted in homozygous and stable telocentrics. John and Freemanm have argued for the mechanism of chromosomal structural variation based on the observed facts both in animals and plants. The cytogenetic model for the variation was formulated by Lima-de-Faria as early as in 1956 and revised by Jones[6], and the mo- lecular model for the mechanism recently by Holmquist et al.[4] As in the genus Delphinium, most species of Consolida are pollinated by long-tongued bumble-bees. In C. regalis (incl. both subspecies), C. stenocarpa and C. scleroclada var. rigida the isolated flowers (3–15 for each species) gave no any seeds. The flowers first emasculated and isolated and then pollinated with pollen collected from the same individuals in these three species (10–25 flowers for each species), however, all gave full seed-set. The experiment clearly shows that these three species, though self-com- patible, are obligately out-pollinated. It was Observed that the three species are pro- tandrous. When stigmata become 2-lobed and show their receptive surface, all the stamens have recurved down or laterally, forming a semi-circle, but the styles remain erect. Therefore the receptive stigmata are over 3 mm (C. regalis) or 5 mm (C. stenocarpa and C. scloroclada var. rigida) away from and above the anthers of the same flower Plate I, B, D and F). Self-pollination is thus prevented. Just-opened flowers, however, have always some stamens erect and with their dehiscing anthers correspondent in position to 2-lobed and receptive stigmata of other flowers (compare A with B, C with D, E with F in Plate II). Pollen grains are therefore easily taken by a bumble-bee from dehiscing anthers onto receptive stigmata. Here we see a perfect mechanism which prevents self-pollination and secure out-pollination. It was observed during the experiment that a bumble-bee, Bombus agrorum F., only visited the straight-spurred species, C. regalis (both subspecies), but never visited the curved-spurred species, C. scleroclada var. rigida and C. stenocarpa. Another bumble-bee, B. hortorum L., however, visited both the straight-spurrod and curved-spurred species, but when it visited C. stenocarpa it sometimes kept the body upside down. Consolida teheranica (Boiss.) Hong, on the contrary, is an inbreeder. Its stigmata and anthers become mature at the same time, and its styles and stamens always remain erect with the dehiscing anthers right over the receptive stigmata. It was also found that its corollae are not fully opened (Fig. 3). As expected, two isolated flowers gave 9 good seeds. The results of crossing experiment axe shown in Fig. 4. Only the cross between two subspecies of C. regalis resulted in an interfertile hybrid, which was vigorous, showed normal meiosis, had 94% pollen fertility, and gave good seed-set. The cross combination C. stenocarpa×C. scleroclada var. rigida gave some 50 % seed set, but the seeds yielded from the cross did not germinate though looked good. The other crosses gave no any seeds.     

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.     

Karyotype Analysis of Reineckia carnea (Andr.) Kunth (Liliaceae)

Karyotype analysis for the species Reineckia carnea (Andr.) Kunth of the monotypic genus Reineckia Kunth is given for the first time. The number of chromosomes in root-tip cell was found to be 38, which is in accord with those reported by most of the previous authors^{[5,7,8,9,11,12,]}. The somatic complement shows a slight variation in size, i.e., the 2, 3, 5, 6, 7th pairs of the chromosomes have submedian constrictions, while the other pairs have median centromeres. The karyotype is therefore a rather symmetrical one, and according to the chromosomal terminology defined by Levan et al^[4], the karyotype formula of the species is 2n=38=28 m+10 sm. In spite of the presence of two nucleoli in the telophase as observed by the authors and Noguchi^[8] as well, the two corresponding Sat-chromosomes have not been found. Photomicrograph of the chromosome complement and idiogram are given in Fig. 1 and 2 respectively.     

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＋     

A Study on Karyotypes of Eight Species and Geographical Distribution of Angelica (Umbelliferae) in Sichuan

Nearly 32 species of Angelica occur in China, taking up one third of total species number of the genus in the world, with 12 species in Sichuan. In the present paper karyotypes of 8 species from Sichuan are first reported with x = 11. The parameters of chromosomes of 8 species are given in Table 1 and the karyotypes are shown in Plate 1, 2. The karyotype formulae are as follows: A. valida Diels K(2n) =22=20m+2sm (Wulong Xian, alt. 1900m); A. dielsii Boiss. K(2n) =22= 18m+2sm^sat+2sm (Songpan Xian, alt. 3000m); A. laxifoliata Diels has 2 kinds of karyotypes in 3 populations: K(2n) =22= 18m+4sm (Hanyuan Xian, alt. 1900m) and K(2n) =22= 16m+6sm (Songpan Xian, alt. 2500m and Baoji in Shaanxi, alt. = 1500m); A. setchuensis Diels K (2n) = 22 = 16m+2sm^sat+4sm (Songpan Xian, alt. 2800m); A. maowenensis Yuan et Shan K(2n) =22= 16m+ 6sm (Songpan Xian, alt. 2800); A. chinghaiensis Shan ex K.T.Fu K (2n) = 4x= 44 = 36m+8sm (Songpan Xian, alt. 3500m); A. Sinensis (Oliv.)Diels K(2n) =22= 14M+8sm (Songpan Xian, alt. 2900m); A. omeiensis Yuan et Shan K (2n) = 22 = 10m+2sm+ 10st (Mt. Omei, alt. 2100m). The karyotypes of A. valida and 2 populations of A. laxifoliata belong to “1A” and those of one population of A. laxifoliata and the rest 6 species “2A”. By analysing the correlation between the karyotypic symmetry and vertical distribution of A. laxifoliata and A. chinghaiensis, it is considered that as altitude rises, the karyotypic asymmetry and ploidy increases. Comparing with the karyotypes of other species distributed in Northeastern China and Japan previously reported, the karyotype of A. valida with oblong-ovoid fruits and 1-2-pinnate leaves is most primitive and that of A. omeiensis with nearly rounded fruits and 3-ternate-pinnate leaves is most advanced in Angelica. Based on the fact that many species including the most primitive and the most advanced species are concentrated in Sichuan, it may be suggested that the center of origin and diversity of Angelica be inSichuan characterized.     

车前属两种植物的核型研究

本文对我国两种车前属Ｐｌａｎｔａｇｏ植物的核型进行了分析。２个种的染色体数目均为２ｎ＝２ｘ＝１２。它们的核型是：海滨车前Ｐ．ｃａｍｔｓｃｈａｔｉｃａＬｉｎｋ,Ｅｎｕｍ．２ｎ＝２ｘ＝１２＝８ｍ＋４ｓｍ;毛车前Ｐ．ｊｅｈｏｈｌｅｎｓｉｓＫｏｉｄｚ．２ｎ＝２ｘ＝１２＝６ｍ＋４ｓｍ＋２ｓｔ。它们的核型均属“２Ａ”型。由１２条染色体组成。     

黄精属细胞分类学研究Ⅱ.四川金佛山地区黄精属植物核型

本文对四川金佛山地区4种黄精属植物的核型进行了研究,其结果为:滇黄精:2n=26=6m+12sm(2SAT)+8st(2SAT);距药黄精:2n=26=10m+4sm+12st;垂叶黄精:2n=30=14m(2SAT)+4sm+10st+2t、2n=28=14m+6sm+6st+2t;湖北黄精:2n=30=12m+8sm+10st、2n=28=6m+10sm+10st+2t、2n=22=2m+12sm 8st。通过与其它地区黄精属植物染色体数目与形态的比较,发现本地区所有种类的染色体数目普遍偏高,无论在染色体基数或染色体形态上都比较接近喜马拉雅山地区分布的种类。从实验结果进一步看出了黄精属的染色体变异是相当明显的,并主要表现为非整倍性变异;在有些情况下,染色体数目与结构的变异能与某些形态学特征相联系。     

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。