John A. Barrett

Polyploidy, phylogeography and Pleistocene refugia of the rockfern Asplenium ceterach : evidence from chloroplast DNA

Chloroplast DNA sequences were obtained from 331 Asplenium ceterach plants representing 143 populations from throughout the range of the complex in Europe, plus outlying sites in North Africa and the near East. We identified nine distinct haplotypes from a 900 bp fragment of trnL‐trnF gene. Tetraploid populations were encountered throughout Europe and further afield, whereas diploid populations were scarcer and predominated in the Pannonian‐Balkan region. Hexaploids were encountered only in southern Mediterranean populations. Four haplotypes were found among diploid populations of the Pannonian‐Balkans indicating that this region formed a northern Pleistocene refugium. A separate polyploid complex centred on Greece, comprises diploid, tetraploid and hexaploid populations with two endemic haplotypes and suggests long‐term persistence of populations in the southern Mediterranean. Three chloroplast DNA (cpDNA) haplotypes were common among tetraploids in Spain and Italy, with diversity reducing northwards suggesting expansion from the south after the Pleistocene. Our cpDNA and ploidy data indicate at least six independent origins of polyploids.

Chloroplast Phylogeny of Asplenioid Ferns based on rbcL and trnL-F Spacer Sequences (Polypodiidae, Aspleniaceae) and its Implications for Biogeography

Abstract Molecular phylogenies have been generated to investigate relationships among species and putative segregates in Asplenium, one of the largest genera in ferns. Of the ∼700 described taxa, 71 are included in a phylogenetic analysis using the chloroplast rbcL gene and trnL-F spacer. Our results support Hymenasplenium as the sister lineage to all other asplenioid ferns, and all other putative satellite genera are nested within this asplenioid clade. Instead of the classical and well-recognized separation into Old and New World clades, asplenioid ferns reveal a separation of the deeper branches into tropical and temperate clades. Temperate clades have evolved from tropical, more-basal clades and the phylogeny indicates up to six shifts between temperate and tropical preferences in the evolution of this widespread genus. Implications for speciation processes and biogeographic aspects, including the re-colonization of temperate regions after the last glacial period, are discussed and we present a phylogenetic framework from which the historical biogeography of asplenioid ferns can be inferred for Europe and North America.

Breeding behaviour of pilot whales revealed by DNA fingerprinting

Most species of whale spend the majority of their lives well away from land, are capable of migrating over large distances and are difficult to identify individually. However, conservation measures require a detailed understanding of their social structure, breeding behaviour and migration patterns. The advent of DNA fingerprinting permits a systematic investigation of such parameters. In the Faeroe Islands there exists a traditional harvest of long-finned pilot whales (Globicephala melas), in which intact social groups (pods) are captured. This affords a unique opportunity to study genetic relationships within and between pods. We report here on a paternity analysis, using DNA fingerprinting, of mother-fetus pairs and males sampled from complete pods. In addition, a single, highly polymorphic minisatellite locus was used to infer degrees of relatedness between groups of fetuses and females. Taken together, our results suggest that pods consist of closely related adult females and their offspring. Sexually mature males either move frequently between pods or remain in their natal pod but refrain from mating with female relatives. Whichever hypothesis is correct, the data suggest that each male spends only a few months with the female post-mating and individual males often father several fetuses within a pod.

Genetic structure, reproductive biology and ecology of isolated populations of Asplenium csikii (Aspleniaceae, Pteridophyta)

The potential for environmental heterogeneity to generate spatial structuring of genotypes in seed-plant populations that occupy patchy habitats has been demonstrated by several studies, but little is known about the population structure of pteridophytes occupying patchy environments. In this study we have examined the genetic structure of isolated populations of the rock fern Asplenium csikii, an ecological specialist, growing almost exclusively on perpendicular walls of natural rock outcrops. All genetic variation observed in this taxon was partitioned between localities; no allozyme variation was found within a site and each site was colonized by a single multilocus phenotype (MLP). In total, five different MLPs were recorded from the nine localities, with two MLPs present at more than one site. Previous examination of population structure and genetic diversity in another rock fern, A. ruta-muraria, showed that the genetic diversity increases through multiple colonization over time. However, we cannot find any such correlation for A. csikii. All populations are genetically uniform, despite the probably considerable age of the populations and sites. Earlier studies concluded that the ample production of wind-borne propagules would lead to multiple colonization of sites and that reproductive features, such as single-spore colonization and subsequent intragametophytic selfing, would lead to very little genetic structuring of fern populations. In contrast to this prediction, it appears that ecological specialization and the scarcity of the narrowly defined niche contribute strongly to the pronounced partitioning of genetic variability observed in populations of A. csikii.

Isozyme evidence of the parental origin and possible fertility of the hybrid Potamogeton×fluitans Roth

Abstract. The hybrid Potamogeton×fluitans Roth is thought to have resulted from hybridization between P. lucens L. and P. natans L. This hybrid has only been recorded at a few locations in the British Isles. At most of these sites the number of individuals found have been quite low. The one exception to this being a population in the Moors River, Dorset and South Hampshire, England, where a substantially larger population exists. Using seven different enzyme systems, this study provided support for the putative parental origin of this hybrid. In addition, the population in the Moors River was shown to contain numerous multi-locus phenotypes suggesting that these individuals may be partially fertile and may backcross to one of its parental species, or alternatively undergo selfing or crossing to produce an F2 generation.

Phylogenetic and biosystematic relationships in four highly disjunct polyploid complexes in the subgenera Ceterach and Phyllitis in Asplenium (Aspleniaceae)

Abstract Phylogenetic studies using DNA sequences of two chloroplast regions, rbc L and trn L-F, demonstrate that the proposed genus Ceterach is a small clade within the large genus Asplenium , and sister to the Phyllitis clade. The Ceterach clade is characterised by irregular anastomosing veins and often densely scaled leaf blades. Its taxonomic status as a group nested within Asplenium is confirmed, and it is accepted here as a subgenus with seven species. The Ceterach clade comprises four lineages that correspond to disjunct polyploid complexes: the A. aureum clade forming a polyploid complex (4×, 6×, 8×) in Macaronesia, the A. ceterach clade forming a polyploid complex (2×, 4×, 6×) in the Mediterranean Basin, the A. paucivenosum clade (4×, 6×) in central Asia, and the A. dalhousiae clade (2×) with a disjunct distribution in the Himalaya, Yemen and Eritrea, and southwestern North America. Asplenium paucivenosum is sister to all other members of the Ceterach clade, whereas A. dalhousiae is sister to the A. aureum clade that includes tetraploid A. aureum , hexaploid A. lolegnamense , and octoploid A. parvifolium . Asplenium ceterach and its variations – including the hexaploid A. ceterach subsp. mediterraneum subsp. nov. first described below – form a monophyletic unit, sister to a clade consisting of A. aureum and A. dalhousiae. Asplenium cordatum from Africa and A. haugthonii from the isolated atlantic island of St. Helena are not members of the Ceterach clade, which suggests that leaf blades with dense indumenta have evolved at least twice within asplenioid ferns. The allotetraploid species A. hybridum has the chloroplast DNA from A. ceterach , and therefore the latter species is the maternal ancestor of the former. The other parent of this hybrid species is A. sagittatum that is nested within the sister clade of Ceterach , the Phyllitis clade comprising A. sagittatum and A. scolopendrium . The findings suggest that the current distribution of Ceterach is either the result of long-distance dispersal or represents fragmented relicts of a previously more widely distributed species.

Isozyme evidence for the origin of Potamogeton × sudermanicus as a hybrid between P. acutifolius and P. berchtoldii

Abstract Potamogeton × sudermanicus Hagstr. has been interpreted morphologically as a hybrid between P. acutifolius Link and P. berchtoldii Fieber. Both parents belong to section Graminifolii where hybrids appear to be less frequent than in other sections. This reputed hybrid has been recorded at only a few sites in Europe and at a single locality in Britain. Using seven different isozyme systems it was shown that all the bands present within the British population of the hybrid were found in P. acutifolius or P. berchtoldii , supporting the putative origin of this taxon. In addition, the identification of two multi-enzyme phenotypes implies that this hybrid has arisen at least twice at this site.

Evolution of mildew resistance in a hybrid bulk population of barley

Inbred lines derived from successive generations of a composite cross population of barley, CCV, by single seed descent were screened for variation in mildew resistance with the aim of investigating the effect of natural selection on the population. A significant increase in the frequency of plants resistant to the open-air mildew spores over 10 generations was observed. Tests of reaction to selected mildew isolates of known virulence genotypes showed a similar shift towards increased resistance to single and combined isolates. These results are discussed in relation to the effect of selection on inbreeding species and the usefulness of composite crosses as dynamic reservoirs of genetic diversity.

A rapid PCR based method to establish the potential for paternal inheritance of chloroplasts inPelargonium

A simple procedure for the amplification of chloroplast DNA from pollen is described. This allows the potential for biparental or paternal inheritance of chloroplasts in angiosperms to be established rapidly and reliably. Such information is important when chloroplast DNA, which is generally assumed to be inherited maternally, is used to study gene flow or reconstruct phylogenies. The technique could also prove valuable in assessing the risks of transgene escape via pollen of genetically modified plants, in which the chloroplast genome rather than the nucleus has been transformed.

A review of progress towards the conservation of the Killarney Fern (Trichomanes speciosum Willd.) in the British Isles

Summary The Killarney Fern (Trichomanes speciosum) was considered amongst the rarest and most vulnerable of Europes plants. Research which fed into the Biodiversity Action Plan and developed alongside it, has forced us to reconsider the level of threat to this species. A hitherto overlooked stage of the life-cycle, the gametophyte, has been shown to be comparatively abundant, genetically diverse, largely threat-free and with the potential over time to regenerate the familiar sporophyte stage. This research also promoted wider public interest which itself generated additional records, such that even the sporophyte is now known at more British sites than at any time previously and the species is accordingly considered ‘recovered’. However, continued legal protection and the need for further research are still recommended.