The chromosome number of several species of flowering plants from the flora of the Aragats mountain massif

The chromosome numbers are given for 10 species of the flora from the Aragatz mountainous massif. For 7 species the chromosome numbers are presented for the first time or they differ from those already published by other authors. For the rest 3 species the chromosome numbers are confirmed. Five species of the 10 above-mentioned ones proved to be polyploids of various degree of ploidy, the rest--diploids. For the first time the new pentaploid chromosome race with 2n=30 was found in Scilla sibirica.     

Chromosome diversity of South American Oxalis (Oxalidaceae)

Mitotic or meiotic chromosome studies are reported for 39 species or subspecies of Oxalis from South America belonging to 14 sections. Chromosome numbers of 34 of these taxa are reported for the first time. Diploids and polyploids with six different basic chromosome numbers x=5, 6, 7, 8, 9 and 11 are described. Thirteen species of subgenus lhamnoxys were analysed and two new basic chromosome numbers were observed in diploid entities of this subgenus, x = 6 and x=9. The underground stem-bearing entities of Oxalis subgenus Oxalis studied (in sections Articulatae, Jonoxalis and Palmatifoliae) are mostly diploids and polyploids with a basic chromosome number x=7. Five species of section Carnosa are diploids with x = 9. In species of sections Rosea, Ortgieseae, Clematodes and Laxae the basic chromosome numbers x = 6, 7, 8 and 9 were observed. Groups of related species sharing the same chromosome number are discussed with the aim of improving the infrageneric delimitation of the genus. The basic chromosome number x=6 seems to be primitive in the genus and other basic chromosome numbers probably appeared several times in the course of chromosome evolution of Oxalis .     

Chromosome counts in the genusAlchemilla (Rosaceae) from SW Europe

This paper presents the results of a karyological analysis of 14 species ofAlchemilla L. collected from SW Europe (Spain and French Pyrenees). About 75% of the analyzed species have chromosome numbers 2n = 95–136. A few species have lower chromosome numbers. The chromosome numbers of 13 species are presented for the first time.     

Chromosome Numbers of Brassiceae (Cruciferae) in China

Reported in this paper are chromosome numbers of 41 species and varieties of Brassiceae in China, belonging to 5 genera. The chromosome numbers of 15 Species and varieties are first reported and some problems concerning chromosome numbers of Brassiceae are also discussed.     

Chromosome number of forty species of scattered bamboos

This paper reports chromosome numbers of forty species in nine genera of scattered bamboos native in or introduced to China. The chromosome numbers of 31 species are reported here for the first time.     

40种散生竹的染色体数目

报道中国9属40种散生竹类染色体数目,其中31种为首次报道。     

Cytology and systematica of Araceae

The chromosome numbers of 75 species belonging to the family Araceae have been determined. The numbers for 53 species are reported for the first time. One number differs from previous reports ( Aglaodorum ), and one number is corrected (Phymatarum). Within 15 genera ( Gymnostachys, Pothoidium, Alloschemone, Heteropsis, Holochlamys, Anaphyllopsis, Dracontioides, Pseudohydrosme, Montrichardia, Bucephalandra, Taccarum, Asterostigma, Gorgonidium, Spathantheum and Ulearum ) the chromosome numbers have not previously been determined. The total number of genera cytologically investigated is now 99 (c. 94%).
A great diversity in chromosome numbers as well as in chromosome size and constitution is found. The results are discussed in relation to the phylogeny and the previously published classifications of the family.
A total list of chromosome numbers counted (>700 species) in the Araceae is presented (Appendix).     

Chromosome evolution in the genus Ophioglossum L.

Cytological observations on eleven species of Ophioglossum revealed low gametic ( n ) chromosome numbers of 30, 34 and 60 in populations of O.eliminatum , contrasting with an earlier report of n = 90 in the same species. The rest of the species is based on n =120.Cytologically studied species of Ophioglossum exhibit a range of chromosome numbers from n = 30 in O.eliminatum to n =720 in O.reticulatum. The weighted highest common factor (HGF) from all the reported chromosome numbers in twelve species was found to be 30. This number is proposed as the palaeobasic chromosome number for the genuS. Reported chromosome numbers which are not multiples of 30 were subjected to sequential analysis, yielding three distinct ultimate base numbers, 4, 5 and 6, which can produce n = 30 in seven different ways. The neobasic number, n= 120, appears to have arisen through various combinations and permutations of these, theoretically 2401 routes; only a relatively few of these routes exist today, suggesting that extreme selection has been exerted against the majority, and further suggesting that Ophioglossum represents an evolutionary dead end through repeated cycles of polyploidy and is possibly at the verge of extinction. The stoichiometric model of evolution, which derives the various chromosome numbers possessed by the twelve species from the basic and ultimate basic chromosome numbers, is used to explain chromosomal evolution in the genus.     

Chromosome numbers and taxonomy in Cryptocoryne (Araceae). II

Chromosome numbers for 38 species of Cryptocoryne are reported, 16 of which have not been reported earlier. About 90% of the species of Cryptocoryne have now been investigated cytologically. On the basis of chromosome numbers, morphology, and distribution, it is possible to distinguish some 24 groups within the species investigated. The chromosome numbers represent a heteroploid series which is based on the (secondary) base numbers 10, 11, 14, 15, 17, and 18. Evidence is given that 2n = 36 is the more primitive one. Evolution on the chromosome level has most likely gone in the direction of a reduction in numbers. Two new species, Cryptocoryne amicorum De Wit & N. Jacobsen and C. keei N. Jacobsen, are described.     

Chromosome numbers of some caespitose bamboos native in or introduced to China

This paper reports chromosome numbers of 94 species in 13 genera of caespitose bamboos native in or introduced to China. The chromosome numbers of 74 species are roported here for the first time. The original basic number of bamboos is considered to be x = 8. Chromosome numbers ofmost of the caespitose bamboos are found to be 2n = 70 ± 2.