Genomic groups,morphology, and sectional delimitation in EurasianElymus (Poaceae,Triticeae)

Seven tetraploid species ofElymus, viz.E. sibiricus, E. caninus, E. gmelinii, E. semicostatus, E. caucasicus, E. parviglume, andE. longearistatus subsp.canaliculatus, representing five sections were studied morphologically and used in interspecific hybridizations. The aim was to investigate whether the present sectional delimitation of the genus was in agreement with genomic data and if there was a correlation between genome constitution and morphology. The study revealed: (i) further information on the genomic affinities between the different species, (ii) that there is no congruence between genome constitution of the species and current sectional delimitation, and (iii) that there is a correlation between genome constitution and morphology in the palea apex shape and in the size of cilia of the palea.     

Genomic relationships within theElymus parviglumis group (Triticeae: Poaceae)

Genomic relationships of 13 tetraploid species within the AsiaticElymus parviglumis group containing the SY genomes were assessed by analysing chromosome pairing at metaphase I of the parental species and their interspecific hybrids. Two major genomic subgroups among the tetraploids were identified from the cluster analysis of the averaged c-values, namely, theE. caucasicus subgroup (two species) and theE. parviglumis subgroup (11 species). The genomic affinity of theElymus species is associated with the interspecific geographic distance.After October 1, 1993     

Kengyilia habahenensis (Poaceae: Triticeae) — a new species from the Altai mountains,China

Kengyilia habahenensis, spec. nova, from the Altai mountains, China, is described morphologically and cytologically. It has 2n = 42 chromosomes, and the genome formula PYS.     

Comparison of the Giemsa C-banded and N-banded karyotypes of twoElymus species,E. dentatus andE. glaucescens (Poaceae: Triticeae)

The karyotypes ofElymus dentatus from Kashmir andE. glaucescens from Tierra del Fuego, both carrying genomesS andH, were investigated by C- and N-banding. Both taxa had 2n = 4x = 28. The karyotype ofE. dentatus was symmetrical with large chromosomes. It had 18 metacentric, four submetacentric and six satellited chromosomes. The karyotype ofE. glaucescens resembled that ofE. dentatus, but a satellited chromosome pair was replaced by a morphologically similar, non-satellited pair. The C-banding patterns of both species had from one to five conspicuous and a few inconspicuous bands per chromosome. N-banding differentiated the chromosomes of the constituent genomes by producing bands in theH genome only. TheS genomes of both species were similar with five metacentric and two satellited chromosomes having most conspicuous C-bands at telomeric and distal positions. They resembled theS genome of the genusPseudoroegneria. TheH genomes had four similar metacentric and two submetacentric chromosomes. The seventhH genome chromosome ofE. dentatus was satellited, that ofE. glaucescens nonsatellited, but otherwise morphologically similar. The C-bands were distributed at no preferential positions. TheH genome ofE. dentatus resembles theH genomes of some diploidHordeum taxa.     

Hybridisation,genomic constitution and generic delimitation inElymus s. l. (Poaceae: Triticeae)

Intergeneric crosses were made between representatives of the genomically-defined generaElymus, Agropyron, Elytrigia, Pseudoroegneria, andThinopyrum. The genomic constitution ofElytrigia repens, the type species ofElytrigia, is shown to be SSH, a genomic combination otherwise found only inElymus. The S genome ofPseudoroegneria has almost always a dominant influence on the morphology of the taxa of which it is a component.Wang (1989) showed that the J genome inThinopyrum and the S genome have considerable homoeology, with a mean c-value of 0.35 in diploid SJ hybrids. A genetic coherence from S to SJ^e, J^e, J^eJ^b, and J^b can be expected, agreeing with the continuous morphologic variation pattern observed. Because of the absence of morphological discontinuities between the taxa,Pseudoroegneria (S),Elymus (SH, SY, sometimes with additional genomes),Elytrigia (SSH, SSHX), andThinopyrum (SJ, SJJ, J) are best treated as a single genus,Elymus, following the generic concept ofMelderis in Flora Europaea and Flora of Turkey. The basic genomic constituents ofElymus will then be the S and/or J genomes.Agropyron, with diploids, tetraploids, and hexaploids based on the P genome is morphologically distinct from other genera inTriticeae. In a few species ofElymus andPseudoroegneria, a P genome is an additional constituent. In these cases the P genome has a negligible morphological influence. Therefore, it seems reasonable to maintainAgropyron as a separate genus.     

Meiotic analysis ofElymus caucasicus,E. longearistatus,and their interspecific hybrids with twenty-threeElymus species (Triticeae,Poaceae)

Interspecific hybridizations were carried out between the two tetraploidsElymus caucasicus andE. longearistatus, and 23 tetraploids and hexaploids ofElymus containing SH, SY, SYH, and SYW genomes and representing various geographical regions. Meiotic pairing was studied in the two target species and their hybrids. It is concluded from this study that (i) interspecific hybridization is fairly easy to perform although strong reproductive barriers exist between the species; (ii)Elymus caucasicus andE. longearistatus are allotetraploids, and share the diverged SY genomes; (iii) the divergence of SY genomes is correlated with the geographic distance between theElymus spp. studied.     

Festuca austrodolomitica,a new species of theF. halleri group (Poaceae) from the SE Alps

The new species belongs toFestuca halleri agg. (F. ovina s. latiss.) and is diploid. Its habitat are alpine snow bed communities (Arabidetalia caeruleae) of the southern Alps, between the Brenta and Mt Cadria in the W and Mt Cavallo near Belluno in the E. Morphological, anatomical, epidermal, and ecological comparisons with related species suggest that it is closest to the vicariousF. rupicaprina in the N Alps.     

Production and cytogenetic analysis of intergeneric hybrids betweenElymus anthosachnoides andPsathyrostachys huashanica (Poaceae: Triticeae)

Intergeneric hybridization betweenElymus anthosachnoides (2n = 28,SSYY) andPsathyrostachys huashanica (2n = 14,NN) was performed. Three hybrid plants, obtained via embryo rescue, were intermediate between the parents in morphology and developed vigorously, but were completely sterile. The mean chromosome configuration was 19.48 I + 0.76 II per cell in the hybrids at meiotic metaphase I. This result indicates thatE. anthosachnoides andP. huashanica are distantly related and that there is little or no homoeology betweenN (P. huashanica) andS orY (E. anthosachnoides) genomes.     

Ein Endemit Zyperns:Asperula cypria (Rubiaceae) und seine Verwandtschaft

Galium suberosum Sibth. etSm. belongs toAsperula sect.Thliphthisa; the taxonomic transfer and a new name are therefore necessary:Asperula cypria Ehrend. is endemic on the isle of Cyprus. Its closest affinities are withA. antalyensis Ehrend. in S.W. Anatolia.

     

A taxometric analysis of seed proteins in the genusBriza s. l. (Poaceae)

The species ofBriza L. s. l. are disjunctly distributed between Eurasia and South America. A taxometric analysis has been carried out, using data from electrophoresis of seed polypeptides and published morphological characters. Evidence from a cluster analysis of seed polypeptide data strongly supports the recognition of two different natural groups, a S. American group and a Eurasian group, and is consistent with karyotype data, but does not support the generic groupings of South American taxa derived from the morphological data.     

Genome analysis ofElymus angulatus andE. patagonicus (Poaceae) and their hybrids with N. and S. AmericanHordeum spp.

The results of genome analysis of five hybrids, viz.Elymus patagonicus ×Hordeum procerum, E. patagonicus ×H. tetraploidum, E. angulatus ×H. jubatum, E. angulatus ×H. lechleri, andE. angulatus ×H. parodii, are reported. The genomic constitution ofHordeum tetraploidum andH. jubatum is best given as H₁H₁H₂H₂, ofH. lechleri andH. parodii as H₁H₁H₂H₂H₄H₄, ofH. procerum as H₁H₁H₂H₂H₃H₃, and ofElymus patagonicus andE. angulatus as SSH₁H₁H₂H₂.     

Genome relationships in theElytrigia group of the genusAgropyron (Poaceae) as indicated by seed protein electrophoresis

Agropyron bessarabicum (2n = 14),A. rechingeri (2n = 28),A. junceiforme (2n = 28),A. elongatum (2n = 14),A. flaccidifolium (2n = 28) andA. scirpeum (2n = 28) were studied by isoelectric focusing of seed soluble proteins.—The protein profiles obtained from the six taxa showed a striking degree of similarity; typically they consist of 40 bands. No qualitative but only quantitative differences (in the intensity of some bands) were found.—Combined with the cytological information available these protein data indicate that the two polyploid complexes must be placed in the recently erected genusThinopyrum with the genome designations:T. bessarabicum J^j1 J^j1,T. sartorii (=A. rechingeri) J^j1 J^j1 J^j3 J^j3,T. junceiforme J^j1 J^j1 J^j2 J^j2,T. elongatum J^e1 J^e1,T. flaccidifolium J^e1 J^e1 J^e1 J^e1 andT. scirpeum J^e1 J^e1 J^e2 J^e2.     

Structuring of genetic variation inHordeum spontaneum (Poaceae): Genotypic variation within populations

Samples from eleven populations of wild barley were examined for metric growth and reproductive traits in a common garden field trial. Descendants of these plants were examined for electrophoretically determined genotypes. In most cases each population had one or more predominant electrophoretically detectable genotypes and many infrequent genotypes. Analysis of variance ofHordeum spontaneum shows that the between-population variance component contributed the bulk of the observed variation in metric traits, with only a small proportion of the total variation contributed by the between-genotype within-population variance component. Nevertheless, a full 20% of the F values for the among genotype analysis were significant at the 5% level. In addition, using discriminant analysis, electrophoretically determined genotypes could be easily distinguished on the basis of trait (i.e., metric) measurements. The joint use of electrophoresis (to identify genotypes) and of trait measurements is a powerful tool for investigating intrapopulation genetic variation.     

A taxonomic investigation of theHordeum murinum Complex (Poaceae)

The purpose of this paper is to produce a classification of theHordeum murinum complex. Using an experimental design to account for the environmental component of the phenotypic variation, material from sources throughout the old-world range ofH. murinum was grown in a common environment. Eight morphological characters were measured on the resulting triplets (i.e., the central and lateral florets, glumes and rachis internode). Clustering, variance and discriminants analyses of these data suggest that there are three distinct groups. This classification is then examined for consistency with hypotheses obtained from the work of other researchers and discussed in light of the known biology of the plants. An identification key to members of the complex using the triplet characters is provided.     

Differentiation of fourHordeum sect.Stenostachys spp. (Poaceae: Triticeae) using multivariate morphometrics

Field collections and 296 herbarium sheets were examined for 27 morphometric variables. A priori species identifcation was based on geographical distribution except forH. californicum, a diploid species primarily occurring in California and differing from the much more widespread tetraploidH. brachyantherum that thrives in N. America and N.E. Asia;H. capense grows in S. Africa andH. secalinum mainly in Europe. Various cluster analyses were used followed by cluster recovery verification. Classificatory discriminant analysis and validation by the bootstrap yielded 85–90% overall total correct classification of the four species. Canonical analysis revealed thatH. californicum occupies an intermediate phenetic position among the other three distinct species. Factors of shape differences were unravelled and portrayed by shearing. A revised key to species was drawn up.     

Genome analysis of species in the genus Hystrix (Triticeae; Poaceae)

Genomic in situ hybridisation (GISH) and Southern genomic hybridisation were applied in order to gain further knowledge regarding generic delimitation of the genus Hystrix as well as to clarify the genomes of the Hystrix species H. patula, H. longearistata, H. coreana, H. duthiei and H. komarovii. The hybridisation intensity of different genomic probes was compared among the Hystrix species and with other Triticeae species. The Southern- and GISH results confirm that H. patula contains the StH genome and show that H. komarovii most likely has a variant of this StH genome. The other Hystrix species under study, i.e. H. longearistata, H. coreana and H. duthiei, contain an Ns basic genome, and most probably two variants of this basic genome, Ns ¹ Ns ² . The genus Hystrix is thus not a monophyletic group of species.     

Genomic relationships of theElymus parviglumis,E. semicostatus,andE. tibeticus groups (Triticeae: Poaceae)

In order to investigate genomic relationships of tetraploidElymus species (all containing the SY genomes) among three morphological groups, i.e. theE. parviglumis, E. semicostatus, andE. tibeticus groups, interspecific hybridizations were carried out among representative species from the three groups. Chromosome associations at metaphase I were analysed in the interspecific hybrids, and genomic relationships of the species within and among the three groups were estimated. Hybridizations among species of the three groups were fairly easy to perform, but no general pattern for crossabilities among certain species or groups was obtained. All the hybrids were completely sterile. Meiotic pairing was moderately high, but ranges of chiasmata were observed in different hybrid combinations. There is no tendency for genomic affinities to be higher within groups than between the groups. Therefore, the meiotic data do not support the division of the SY-genome species into the three groups. However, there is a clear tendency that the differentiation of the SY genomes in the tetraploids is associated with the geographic distribution of the species.     

A novel mechanism involved in the metabolism of the tartaric acid stereoisomers in Rhodopseudomonas sphaeroides: enzymatic conversion of meso-tartaric acid to D(-)-glyceric acid and CO2

In cell extracts of Rhodopseudomonas sphaeroides grown on meso-tartrate the activities of the bifunctional L(+)-tartrate dehydrogenase-D(+)-malate dehydrogenase (decarboxylating) (EC 1.1.1.93 and 1.1.1.83, respectively) could be measured spectrophotometrically but not the activity of a meso-tartrate dehydrogenase or dehydratase. However, an enzyme activity was detected manometrically that catalyzed the stoichiometric release of CO₂ from mesotartrate in a molar ratio of 1:1. This reaction required catalytic amounts of NAD and the presence of both divalent (Mn²⁺ or Mg²⁺) and monovalent (NH ₄ ⁺ or K⁺) cations. Purification of the meso-tartrate decarboxylase showed that it was part of the bifunctional L(+)-tartrate dehydrogenase-D(+)-malate dehydrogenase (decarboxylating), which thus possessed a third catalytic function. The homogeneous enzyme catalyzed the stoichiometric conversion of incso-tartaric acid to D(-)-glyceric acid and CO₂. All interfering catalytic activities had been eliminated during the course of enzyme purification.     

Continuing addition to the gene-pool of theFestuca rubra aggregate (Poaceae:Poeae)

The chance backcrossing to hexaploidFestuca rubra of a natural pentaploid hybridFestuca rubra ·Vulpia fasciculata to produce a hexaploid plant is described. The hexaploid derivative, unlike the pentaploid hybrid, shows a reasonable degree of fertility and is morphologically very close to normalFestuca rubra. Its existence provides a mechanism for the continued introgression ofVulpia fasciculata intoFestuca rubra, so increasing the variability of the latter. It also shows that pairing betweenFestuca rubra andVulpia fasciculata chromosomes must have taken place either in the pentaploid hybrid or in its hexaploid derivative. A possibly similar pattern of introgression involvingVulpia bromoides is also described.