Isozymes,Speciation and Evolution in the Polyploid Complex Cochlearia L. (Brassicaceae)

Within the genus Cochlearia L. sect. Cochlearia three isozyme systems (aspartate aminotransferase, leucine aminopeptidase and phosphoglucomutase) have been analysed at the populational level for eleven species with different ploidy levels. Nine loci complexes were resolved with a total of 33 alleles from 89 populations. In general, polyploids displayed higher numbers of alleles per species and per population. A notable exception is diploid C. pyrenaica with as many alleles as some polyploids. Data support: (1) the origin of tetraploid C. officinalis from C. pyrenaica s.l., particularly from C. aestuaria; (2) the allopolyploid origin of octoploid C. anglica from C. officinalis; (3) the allopolyploid origin of hexaploid inland taxa C. polonica, C. tatrae and C. bavarica via hybridization between C. pyrenaica and C. officinalis; (4) a putative allopolyploid origin of hexaploid coastal species C. danica by hybridization between C. pyrenaica s.l. and C. officinalis accompanied by a shift in chromosome complement. A scenario summarizing our present understanding of the evolution within Cochlearia sect. Cochlearia is presented.     

Bemerkungen zur Karyologie und Systematik einiger Sippen der Gattung Vicia L

Continuing the earlier investigations of Vicia species, karyologically not examined hithero, the following taxa of th genus have been described:

• 1 Chromosome numbers reported for the first time–V. Meyeri Boiss. (2n = 14), V. pubescens (DC.) Link (2n = 14), V. graminea SM (2n = 14), V. ramuliflora (MAXIM .) OHWI (2n = 28), V. semiglabra RUPR . ex BOISS . ssp. caucasica (EKVTIM .) RADZHI (2n = 10), V. semenovii (RGL . et HERD .) FEDTSCH . (2n = 12), V. costata LDB (2n = 12), V. hajastana GROSSH . (2n = 10).
• 2 Re-investigations – V. tenuissima (M. BIEB .) SCHINZ et THELL . (2n = 14), V. benghalensis L. (2n = 14), V. lathyroides L. (2n = 12).

Brief cytological and systematical remarks are given for all the species mentioned above. Discrepancies in the literature are especially discussed (V. benghalensis, V. peregrina, V. lathyroides). Our data support the uniformity of the subgen. Ervum in regard to chromosome number (2n = 14) and primitivity of the karyotype. The finding of an advanced karyotype with 10 chromosomes (V. semiglabra) within the subgen. Cracca has been recorded for the first time. In this group a new polyploid taxon (V. ramuliflora) has been found too. The known polyploid representatives of the genus are summarized, all of which belong to perennial species of the subgen. Cracca. Most of the taxa are characterized by obviously distinct karyotypes, that is partly ture for chromosome sizes too (conspicuously long: V. hajastana, V peregrina; conspicuously shrt: V. ramuliflora, V. lathyrodies). This striking karyological differentiation seems to refer not only to the Old world species but also to the New world ones, of which V. graminea (and a strain named „V. selloi”︁) has been examined for the first time. In general the chromosome number and structure (besides the traditional morphological characters) have been proved as extremely valuable for taxonomical considerations within the genus. This is a common situation in many other plant groups too. We therefore think of further cytotaxonomical studies as especially suitable for explaning the evolution and the evolutionary mechanisms within the genus.     

Differentiation and inter-genomic relationships among C, E and D genomes in the Oryzaofficinalis complex (Poaceae) as revealed by multicolor genomic in situ hybridization

The multicolor genomic in situ hybridization (McGISH) method was used to study differentiation and relationships among the C, D and E genomes in the officinalis complex of the genus Oryza. The chromosomes of Oryza alta (CCDD genomes) were hybridized with labelled probes of the C genome (from diploid Oryza eichingeri and Oryza officinalis) and the E genome (from Oryza australiensis) simultaneously. By adjusting the post-hybri- dization washing stringency in a gradual series, differentiation between the genomes was detected according to the homology between the target genomes and the probes. The McGISH results indicate that the C, D and E genomes share a substantial amount of similar sequences, and differentiation between the D and C genomes of O. alta is less than that between the E genome and each of the C and D genomes. The differentiation within the C genomes of the diploid species (O. officinalis and O. eichingeri) and the C genome of O. alta was clearly discerned by McGISH, suggesting strongly that neither O. officinalis nor O. eichingeri was the direct C-genome donor of O. alta. The evidence of the GISH results also indicates that the E genome was considerably differentiated from the C and D genomes. Therefore, the E genome should not be the direct donor of O. alta; on the contrary, the E genome is closer to the C than to the D genome. McGISH is an efficient method in revealing the relationships among the genomes in question, particularly under the gradual stringent-washing condition. Received: 14 February 2000 / Accepted: 14 November 2000     

A new species and new distribution records of Zercon C. L. Koch from Iran (Acari: Zerconidae)

A new species of the family Zerconidae, Zercon persicus sp. n., is described based on female and male morphological characters. It was collected in West Azarbaijan province (northwestern Iran). Idiosomal chaetotaxy, poroidotaxy and related notations are illustrated. The similarities and differences between the related species within the genus are discussed. Records of some other Zercon species from the province are given for the first time.

http://www.zoobank.org/urn:lsid:zoobank.org:pub:3D1122C7-2B86-40D2-974E-EE69035A2413     

Cytogenetic studies in Cochlearia L. (Cruciferae). The chromosomal constitution of C. danica L.

Genome analysis has been used to investigate the relationship of C. danica L. to the diploid and tetraploid species in the genus. The results of this analysis suggest that C. danica has the genomic constitution A¹ ₇ A¹ ₇ A² ₇ A² ₇ T₇ T₇. Both A₇ genomes in C. danica are segmentally differentiated from the A₇ genome in C. groenlandica L. and from the similar A₆ genomes in C. pyrenaica DC. and C. officinalis L. but, in hybrids, are capable of some pairing with these genomes. A² ₇ is more distantly related to A₇ and A₆ than is A¹ ₇ and in A₇ some of the differentiation has taken place by reciprocal translocations. A¹ ₇ and A² ₇ still retain enough homology for pairing between them. The T₇ genome has no homology with any of the A genomes but may be derived from an ancestral T₆ genome.     

Is Oryza malampuzhaensis Krish. et Chand. (Poaceae) a valid species? Evidence from morphological and molecular analyses

Phylogenetic relationship between O. malampuzhaensis Krish. et Chand. (2n = 4x = 48; Poaceae, Oryzeae), a South Indian endemic wild rice with a disputed taxonomic identity, and eight other species belonging to the O. officinalis complex of the genus Oryza was examined using 62 morphological characters and 445 random amplified polymorphic DNA (RAPD) markers. Multivariate and cluster analyses using both the data sets clearly separated all accessions of O. malampuzhaensis into a distinct group. Genetic distances between O. malampuzhaensis and other species in O. officinalis complex were comparable with the distance between any other two taxa with species rank in this complex. Case-by-case taxonomic treatment of O. malampuzhaensis in relation to other species examined is presented. A taxonomic key for the discrimination of O. malampuzhaensis from other species in the O. officinalis complex has been constructed. Based on the present results, we strongly argue to restore the species rank to O. malampuzhaensis, as originally proposed by Krishnaswamy and Chandrasekharan (1958).     

Molecular phylogeny of the genus Asparagus (Asparagaceae) explains interspecific crossability between the garden asparagus (A. officinalis) and other Asparagus species

The genus Asparagus comprises approximately 200 species, some of which are commercially cultivated, such as the garden asparagus (A. officinalis). Many Asparagus species, including A. officinalis, are dioecious and have been grouped into a subgenus distinct from that of hermaphroditic species. Although many interspecific crossings have been attempted to introduce useful traits into A. officinalis, only some of the dioecious species were found to be cross-compatible with A. officinalis. Here, molecular phylogenetic analyses were conducted to determine whether interspecific crossability is proportional to the genetic distance between the crossing pairs and to further clarify the evolutionary history of the Asparagus genus. A clade with all cross-compatible species and no cross-incompatible species was recovered in the phylogenetic tree based on analyses of non-coding cpDNA regions. In addition, a sex-linked marker developed for A. officinalis amplified a male-specific region in all cross-compatible species. The phylogenetic analyses also provided some insights about the evolutionary history of Asparagus; for example, by indicating that the genus had its origin in southern Africa, subsequently spreading throughout the old world through intensive speciation and dispersal. The results also suggest that dioecious species were derived from a single evolutionary transition from hermaphroditism in Asparagus. These findings not only contribute towards the understanding of the evolutionary history of the genus but may also facilitate future interspecific hybridization programs involving Asparagus species.     

The physical map of the chloroplast DNA from Asparagus officinalis L.

The genus Asparagus consists of 100–300 species of both dioecious and hermaphrodite plants. Since there are diploid, tetraploid, and hexaploid plants in this genus, RFLP (restriction fragment length polymorphism) analysis of chloroplast DNA (ctDNA) is suitable for examining the phylogenetic relationships. We have constructed a physical map of the ctDNA of garden asparagus (A. officinalis L. cv Mary Washington 500 W) using five restriction endonucleases, namely, BamHI, PstI, SalI, HindIII, and XhoI. Asparagus ctDNA was digested with restriction enzymes and cloned into plasmid and phage vectors, and a clone bank was constructed that covered 70% of the genome. A physical map was constructed by Southern hybridization of total DNA from asparagus with homologous and heterologous probes. The asparagus ctDNA was about 155 kb long and it contained two inverted repeats (23kb each) separated by a large single-copy region (90kb) and a small single-copy region (19kb). Fifteen genes, encoding photosynthesis-related proteins, rDNAs, and tRNAs, were localized on the physical map of asparagus ctDNA. Comparing the length and the gene order of asparagus ctDNA with that of other plants, we found that asparagus ctDNA was similar to tobacco ctDNA but different from rice ctDNA. The restriction patterns of the ctDNAs from several varieties of A. officinalis and three species of Asparagus were analyzed. The restriction patterns of the varieties of A. officinalis were very similar, but polymorphisms were detected among the three species of Asparagus.     

Chromosome multiformity in the genus Ctenomys (Rodentia,Octodontidae)

The karotypes of eleven species of the South American burrowing rodents, genus Ctenomys are described, and information on the somatic number of two other species of the same genus is given. The studied species are: C. torquatus (2n =68), C. tuconax (2n =61), C. minutus (2n=50), C. talarum (2n= 48), C. porteousi (2n=48), C. cf. minutus (2n=48), C. australis (2n=46), C. azarae (2n=48), C. latro (2n=42), C. magellanicus fueguinus (2n=36), C. tucumanus (2n=28), C. opimus luteolus (2n=26), and C. occultus (2n =22). This extreme intrageneric variation in somatic number is also reflected by a great amount of diversity in chromosome structure. Karyotypes seem to be rather constant at the species level. Autosomal polymorphism has been found in two of the species, namely C. talarum and C. latro. The hypothesis of the superimposition of Robertsoman rearrangements, pericentric inversions and translocations in the evolution of the karyotype of Ctenomys is advanced. The direction of chromosome change, either toward increase or decrease in chromosome number, is discussed. It is emphasized that high chromosome multiformity is correlated in Ctenomys with a rapid and explosive pattern of species diversification; the meaning of the small size of populations in enhancing the role of chromosome rearrangements in the evolution of Ctenomys is discussed.     

The taxonomic status of Cerambyx dux Faldermann and C. miles Bonelli (Coleoptera: Cerambycidae)

An account is given of the morphological differences between Cerambyx dux and C.miles. A key is given to the five species now included in the genus, and the relationship of synonymous forms is discussed. The egg, larva and pupa of C.dux are redescribed.     

1058. Bethencourtia palmensis (C.Sm.) Choisy,Jean IV de Béthencourt,and the genus Bethencourtia Choisy: Compositae,Senecioneae

Bethencourtia Choisy (Compositae, Senecioneae) has three species and is dedicated to Jean IV de Béthencourt (1362—ca.1425/1426), who led the first successful military European expedition to conquer the Canary Islands. The botanical history of this Canary Island genus is reviewed, and its nomenclature is revisited. The generitype, Senecio palmensis C.Sm. = B. palmensis (C.Sm.) Choisy, is illustrated (t. 1058). The names S. palmensis and S. hermosae Pit. are lectotypified. Phylogenetic relationships, conservation status, systematics, phytochemistry, and ecogeographical patterns are discussed. A list of the herbarium specimens which have been studied is given.     

Cytogenetic evolution in the Triticinae: Homoeologous relationships

The subtribe Triticinae consists of five genera, namely Aegilops, Agropyron, Haynaldia, Secale and Triticum, all with x=7 as the basic number and possibly derived from a common ancestor (PP). The homoeologous relationships known to exist between individual chromosomes from different genomes of hexaploid wheat, are being extended to other members of the subtribe. The available work in the area of homoeologous relationships in the subtribe Triticinae has been reviewed in detail. Homoeologous relationships of one chromosome of each of the four species of Aegilops i.e. Ae. comosa, Ae. caudata, Ae. umbellulata and Ae. bicornis are now known. Similarly, in the genus Agrophyron, relationships of six chromosomes of A. clongatum (2n=70), two chromosomes of A. clongatum (2n=14) and of two chromosomes of A. intermedium are known. The genus Secale, for which the author's own work is also available, has been most extensively studied and relationships of at least five chromosomes of S. cereale are now known. No other species of Secale has been used in similar studies. In the genus Haynaldia, no chromosome could be shown to have any relationship with a wheat chromosome, perhaps due to low erossability with Triticum aestivum. The above work has been discussed and reviewed.     

Meiosis,SC-formation,and karyotype structure in diploidPaeonia tenuifolia and tetraploidP. officinalis

The meiosis of the diploidPaeonia tenuifola and the allotetraploidP. officinalis was studied after conventional methanol/acetic acid-fixation and synaptonemal complex (SC) spreading. Meiosis inP. tenuifolia (2n = 10) is normal with five bivalents in metaphase I, and the SCs in pachytene show regular features. InP. officinalis (2n = 4x = 20) univalents, bivalents and multivalents are found in metaphase I. The SCs reveal several abnormalities: a high number of unpaired lateral elements, partner exchanges between three and four lateral elements, loops and lateral element thickenings. These characteristics are compared with the situations found in other polyploid and hybrid species. It is noteworthy that the abnormalities in meiosis ofP. officinalis are not reflected in its somatic karyotype. Its features were analysed after silver staining and fluorescent staining with chromomycin and compared with those ofP. tenuifolia. Synaptonemal Complex Spreading in Plants2; for part1 see Pl. Syst. Evol.154, 129–136 (1986).     

Genome size variation and species relationships in the genus Hydrangea

Genome size and base composition in 16 species and subspecies of the Hydrangea, a woody ornamental genus of Hydrangeaceae, were evaluated by flow cytometry in relation to their chromosome number. This is the first such study concerning the genome size of these species together with a karyotype study of the most important species, Hydrangea macrophylla subsp. macrophylla (Hortensia), from an economical point of view. The 2C DNA content ranged from 1.95 pg in Hydrangea quercifolia to 5.00 pg in Hydrangea involucrata. The base composition ranged from 39.9% GC in Hydrangea aspera subsp. sargentiana to 41.1% in Hydrangea scandens subsp. scandens (significant difference at p < 0.05). The smallest genome sizes were those of the three species originating from North or South America. Most of the species studied presented a chromosome number of 2n = 2x = 36, except for those of the section Aspereae which showed 2n = 30, 34 and 36. A primary karyotype has been made for the first time for H. macrophylla subsp. macrophylla. Phylogenetic relationships between species, the origin of chromosome number and an exploration of the genetic diversity within the genus are discussed. Received: 24 July 2000 / Accepted: 31 October 2000     

Soil chemical limitations to growth and development of Veronica officinalis L. and Carex pilulifera L.

Veronica officinalis and Carex pilulifera, widespread plants of acid soils in Europe, were grown in 50 soils of natural and seminatural ecosystems representing a wide range of soil chemical properties. The experiment was performed in a greenhouse at a soil moisture content of 55–65% WHC, ca. 60% R.H. of the air, temperature 14–16°C at night and 19–21°C by day; additional light 70 W m^-2 12 h d^-1. Properties closely related to soil acidity precluded growth of V. officinalis and limited the growth rate of C. pilulifera at soil pH-KCl < ca. 3.4. In slightly-moderately alkaline (calcareous) soils, growth was primarily limited by insufficient phosphate uptake. A low growth rate of C. pilulifera. in such soils was related to low concentrations of exchangeable soil phosphate and low tissue concentrations of phosphorus. However, in high-pH soils, secondary effects due to suboptimum trace element (probably Fe) conditions, giving rise to symptoms of chlorosis, were also indicated. The highest growth rates of both species were invariably measured in soils of intermediate acidity having very high concentrations of exchangeable phosphate. Multiple regression tests on the entire material indicated that 65–75% of the variability in several growth functions could be accounted for, when two or more soil characters were included in the equation. Besides phosphate, exchangeable Zn (in C. pilulifera) and nitrate (in V. officinalis) were of considerable importance in accounting for growth rates.     

Genetic relationships among the annual species of Cicer L.

Summary Genetic relationships between 7 annual species of the genus Cicer, including the cultivated chickpea, have been studied. These species were assigned to 3 crossability groups. In each group interspecific hybrids could be obtained but their fertility differed considerably in the various cross combinations. Crosses between members of different groups yielded no viable seeds. The possibility of gene transfer from the wild species to the cultivated chickpea C. arietinum was also assessed. Only two species could be considered for this purpose, C. reticulatum, which is the wild progenitor of the cultivated species, and C. echinospermum, which is in the secondary gene pool of C. arietinum. A unique postzygotic reproductive barrier mechanism was found between the members of Group II, C. judaicum, C. pinnatifidum and C. bijugum. It is based on a disharmony in the growth rate of the stigma and the anthers at the time of anthesis of the F₁ interspecific hybrid so that selfpollination is avoided. It is proposed that this kind of mechanism has been involved only when an effective spatial isolation between the three species had been obtained.