Liv Borgen

Multiple diploid hybrid speciation of the Canary Island endemicArgyranthemum sundingii (Asteraceae)

There are several well-documented examples of multiple hybrid origins of polyploid species. Herein we report the first, to our knowledge, explicit example of a species that most probably has originated recurrently by diploid hybrid speciation. Genetic relationships and stabilization of twoArgyranthemum populations of putative hybrid origin on Tenerife, the Canary Islands, were investigated using chromosomal, morphometric, and fertility analyses of cultivated progeny families and artificial F1 and F2 hybrids. These data were compared to a recently published chloroplast DNA phylogeny of the genus, in which the same populations were included. The results suggest that the two populations must be referred to a single species,A. sundingii, which is diploid, fully fertile, genetically stabilized, and occurs in an ecologically intermediate habitat opened by deforestation, and that this species has originated at least twice following local hybridization in two valleys. The same parental species were involved in each origin; the montaneA. broussonetii and the coastalA. frutescens. The montane species was the chloroplast donor in one of the valleys and the coastal species in the other.

Genetic structuring in three closely related circumpolar plant species: AFLP versus microsatellite markers and high-arctic versus arctic–alpine distributions

Genetic structuring in response to the glacial cycles has been investigated for many plant species, but exclusively high-arctic ones have not been studied. Such extremely cold-adapted species have probably experienced range reductions under the present climate. Here we compare three predominantly selfing species of Draba with different distributions and hardiness (D. subcapitata, high-arctic; D. nivalis, arctic to arctic–alpine; D. fladnizensis, arctic–alpine) for genetic structuring on the basis of two different types of molecular markers (10 microsatellite loci and 160 amplified fragment length polymorphisms (AFLPs)). The degree of genetic structuring within these species is of particular interest because it has been shown that they contain many cryptic biological species. The high-arctic D. subcapitata had less phylogeographic structure, less diversity and fewer private alleles than the other two species, suggesting that long-distance dispersal may occur more frequently in the high arctic, that hardy plants may have higher probability for establishment after dispersal under high-arctic conditions and that high-arctic species may have experienced a bottleneck during the present interglacial. In contrast, D. fladnizensis and D. nivalis showed distinct phylogeographic structure and more diversity, suggesting separate long-term refugia in Eurasia and North America/Beringia. The AFLP markers revealed more phylogeographic structuring than the microsatellites, possibly because of the higher number of loci surveyed and/or because structure at very large geographic scales is blurred by high mutation rate leading to homoplasy at microsatellite loci. The number of genetic groups detected was in any case insignificant compared with the numerous cryptic biological species known within these species, supporting rapid development of sterility barriers.

Allozymic variation and relationships within Viola subsection Viola (Violaceae)

Allozyme markers from ten European taxa ofViola subsectionViola suggest that this group is allotetraploid, based on x = 5. All taxa had distinct multilocus phenotypes exceptV. alba subspp.alba andscotophylla, which were identical and different from subsp.dehnhardtii. Variation was consistently higher in Mediterranean populations than in North European ones. Hybridisation seems extensive but putative F1 hybrids were distinctly less fertile than the parental species. Nevertheless, increased fertility in later-generation hybrids and shared band patterns among taxa indicate an important role of hybridisation and introgression in past and present evolution within the subsection. The octoploidV. ambigua shows affinity toV. hirta (tetraploid). The octoploidV. suavis probably originated fromV. pyrenaica and other unidentified tetraploids, and high variability suggests polytopy or even polyphyly. The stoloniferous condition (seriesFlagellatae) seems to be primitive in the subsection but the reduction of stolons (seriesEflagellatae) may have originated multiple times.

Genetics of Intrinsic Postzygotic Isolation in a Circumpolar Plant Species, Draba Nivalis (Brassicaceae)

Abstract Sterility barriers, ranging from incomplete to fully developed, were recently demonstrated within taxonomic species of the genus Draba, suggesting the existence of numerous, cryptic biological species. Because these taxa are predominately selfers and of Pleistocene origin, it was concluded that hybrid sterility evolved quickly and possibly by genetic drift. Here we used genetic mapping and QTL analyses to determine the genetic basis of hybrid sterility between geographically distant populations of one of these taxonomic species, Draba nivalis. Fifty microsatellite loci were mapped, and QTL analyses identified five loci underlying seed fertility and two underlying pollen fertility. Four of five seed fertility QTLs reduced fertility in heterozygotes, an observation most consistent with drift-based fixation of underdominant sterility loci. However, several nuclear–nuclear interactions were also found, including two that acted like reciprocal translocations with lowest fitness in double heterozygotes, and two that had a pattern of fitness consistent with Bateson–Dobzhansky–Muller incompatibilities. In contrast, pollen fertility QTLs exhibited additive inheritance, with lowest fertility associated with the paternal allele, a pattern of inheritance suggestive of cytonuclear incompatibilities. The results imply that multiple genetic mechanisms underlie the rapid evolution of reproductive barriers in Draba.

Allopolyploid origins of the Galeopsis tetraploids – revisiting Müntzing’s classical textbook example using molecular tools

Whole-genome duplication coupled with hybridization is of prime importance in plant evolution. Here we reinvestigate Müntzings classical example of allopolyploid speciation; the first report of experimental synthesis of a naturally occurring allopolyploid species, Galeopsis tetrahit. Various molecular markers (cpDNA, NRPA2, amplified fragment length polymorphisms (AFLPs)) and flow cytometry were surveyed in population samples of subgenus Galeopsis, including two allopolyploid species and their potential diploid parents. The presence of two divergent copies of single-copy NRPA2 confirms the allopolyploid origins of G. tetrahit and Galeopsis bifida. However, the two allopolyploids do not share the same maternal genome, as originally suggested by Müntzing. The results support independent origins, but not recurrent formation, of the two allotetraploids. Data further indicate frequent gene flow and introgression within ploidy levels, but less so between ploidy levels. Our results confirm and elaborate on Müntzings classical conclusion about allopolyploid origins of G. tetrahit and G. bifida. We address questions of general interest within polyploidy research, such as recurrent formation, gene flow and introgression within and between ploidy levels.

Isozyme analysis of theCerastium alpinum-C. arcticum complex (Caryophyllaceae) supports a splitting ofC. arcticum Lange

As part of a larger investigation of theC. alpinum-C. arcticum complex of arctic and North Atlantic areas, isozyme variation ofC. alpinum, C. arcticum, and related taxa was analysed. A total of 124 multilocus phenotypes was divided into more or less distinct groups by numerical analyses. Most groups correspond well to previously recognized taxa. However, what has traditionally been considered asC. arcticum was divided into two distinct groups, consisting of northern (Svalbard, Greenland) and more southern (Norway, Iceland) populations, respectively. The division ofC. arcticum into two taxa is also supported by other kinds of data and the two taxa probably deserve species rank. Serpentine plants from Shetland had multilocus phenotypes similar to those ofC. arcticum from Iceland and should be included in the southern taxon.

The arctic-alpine polyploids Cerastium alpinum and C. nigrescens (Caryophyllaceae) in a sympatric situation: breakdown of species integrity?

Abstract. The high polyploids Cerastium alpinum (8x) and C. nigrescens (12x) were investigated in a mixed population in central Norway to evaluate whether hybridisation has resulted in continuous variation in morphology and genetic markers, a hypothesis previously proposed to account for the extensive taxonomic confusion in this species group. Isozyme, fertility, and morphological (37 characters) variation were examined among 347, 265, and 237 plants, respectively. A PCO analysis based on 23 quantitative morphological characters identified two main groups, corresponding to C. alpinum and C. nigrescens. The groups were also clearly separated in isozyme markers, several qualitative morphological characters, and chromosome numbers. Only 20 plants (8.4%) were more or less intermediate in the PCO analysis. These plants had a parental or hybrid isozyme multilocus phenotype and typically few well-developed anthers, low pollen stainability, and no seed set. Several plants within the C. nigrescens group also had reduced pollen stainability. These results indicate that later-generation hybrids and/or backcrosses towards C. nigrescens are formed. Thus, interspecific, interploidal gene flow probably occurs, but at rates that are insufficient to break down species integrity.

Genetics of Cryptic Speciation within an Arctic Mustard, Draba nivalis

Crossing experiments indicate that hybrid sterility barriers frequently have developed within diploid, circumpolar plant species of the genus Draba. To gain insight into the rapid evolution of postzygotic reproductive isolation in this system, we augmented the linkage map of one of these species, D. nivalis, and searched for quantitative trait loci (QTLs) associated with reproductive isolation. The map adds 63 new dominant markers to a previously published dataset of 31 co-dominant microsatellites. These markers include 52 amplified fragment length polymorphisms (AFLPs) and 11 sequence-specific amplified polymorphisms (SSAPs) based on retrotransposon sequence. 22 markers displaying transmission ratio distortion were further included in the map. We resolved eight linkage groups with a total map length of 894 cM. Significant genotype-trait associations, or quantitative trait loci (QTL), were detected for reproductive phenotypes including pollen fertility (4 QTLs), seed set (3 QTLs), flowering time (3 QTLs) and number of flowers (4 QTLs). Observed patterns of inheritance were consistent with the influence of both nuclear-nuclear interactions and chromosomal changes on these traits. All seed set QTLs and one pollen fertility QTL displayed underdominant effects suggestive of the involvement of chromosomal rearrangements in hybrid sterility. Interestingly, D. nivalis is predominantly self-fertilizing, which may facilitate the establishment of underdominant loci and contribute to reproductive isolation.

Great-granny’s Garden: a living archive and a sensory garden

Since 2003, the Botanical Garden in Oslo has been involved in a project coordinated by the Norwegian Genetic Resource Centre. The wide range of work supervised by this centre includes conservation of ornamental plants. Our garden has been responsible for the registration and collecting of ornamentals in Southeast-Norway and has a special responsibility for the conservation of Paeonia species and cultivars. As a result of the project, Great-granny’s Garden was opened to the public in 2008. It has two objectives. Firstly, it shall be a living archive of Norway’s horticultural heritage. Although proven hardy, easy to grow, and long-lived, old varieties of traditional ornamentals are rapidly disappearing. We aim to keep these old-fashioned varieties for sustainable use in future horticulture and encourage people to use them in present day gardening, both in new gardens and in the restoration of old ones. Secondly, the garden is designed as a sensory garden for people with dementia, in cooperation with Oslo’s Resource Centre for Dementia and Psychiatric Care of the Elderly. It is enclosed by a picked fence and by shrubs, offers rest on several benches, and has a paved and easy to follow round-walk among traditional garden elements and plants with a lush variety of colours, forms, and scents. A sensory garden stimulates many senses, evokes pleasant emotions, brings out long-forgotten memories, and stimulates communication. Sensory gardens are therefore considered an important tool in the therapy of dementia.

Biosystematics of Lobularia, Cruciferae, revisited: evidence from isozyme data

Abstract To obtain better insight in evolutionary processes, data on genetic diversity are compared with data obtained by more traditional biosystematic methods. Altogether, ten isozymes in 25 populations of Lobularia, Cruceferac, from Spain, Morocco, the Salvage Islands, the Canary Islands and the Cape Verde Islands were screened by starch gel electrophoresis. Genetic identities between pairs of species were low: 0.582 for canariensislibyca, 0.603 for canariensis-maritima, and 0.403 for libyca-maritima. These species are biological species, i.e. isolated by strong internal crossing barriers. The isozyme data indicate that speciation is an old event in the genus. The nine subspecies of the L. canariensis complex are interfertile and isolated by ecogeographical barriers. Among the subspecies, the genetic identities ranged from 0.476 to 0.846, with a mean identity of 0.734 for all pairs. Among 22 populations of L. canariensis, irrespective of taxon, the identities ranged from 0.456 to 0.961, with a mean of ...