45 research outputs found
Death of endemic Virgilia oroboides trees in South Africa caused by Diaporthe virgiliae sp. nov.
Numerous dead and dying individuals of the Western Cape endemic tree Virgilia oroboides (Fabaceae) were recently
observed within a South African national botanical garden. Root-rot fungi and fungi symbiotic with bark beetles (Curculionidae;
Scolytinae) from diseased trees were assessed for their respective roles in V. oroboides mortality. Disease
progression was also monitored over 1 year. Fungi were isolated from surface sterilized bark and root samples from
diseased trees and provisionally identified using data from the internal transcribed spacer regions (ITS1, ITS2), including
the 5 8S rRNA gene (ITS). Pathogenicity of selected fungi towards V. oroboides was tested under field conditions.
The pathogenicity of various bark beetle-associated Geosmithia (Hypocreales: Hypocreomycetidae) spp. from V. oroboides
were similarly assessed. The only fungus consistently isolated from lesions on the roots and bark of declining
V. oroboides, and never from healthy individuals, represented an undescribed Diaporthe (Diaporthales, Diaporthaceae)
species that was characterized using molecular (using data from the ITS marker and part of the b-tubulin gene, TUB),
cultural and morphological characters. It is an aggressive pathogen of V. oroboides, newly described here as Diaporthe
virgiliae sp. nov. Trees of all ages are susceptible to this pathogen with subsequent bark beetle attack of mature trees
only. All Geosmithia spp. from beetles and/or infected trees were nonpathogenic towards V. oroboides. Diaporthe virgiliae
caused a severe decline in the health of the monitored V. oroboides population over a period of only 1 year and
should be considered as a significant threat to these trees.DST/NRF Centre of Excellence in Tree Health Biotechnology (CHTB).http://onlinelibrary.wiley.com/journal/10.1111/(ISSN)1365-3059hb201
New species of Ophiostomatales from Scolytinae and Platypodinae beetles in the Cape Floristic Region, including the discovery of the sexual state of Raffaelea
Olea capensis and Rapanea melanophloeos
are important canopy trees in South African
Afromontane forests. Dying or recently dead individuals
of these trees are often infested by Scolytinae and
Platypodinae (Curculionidae) beetles. Fungi were
isolated from the surfaces of beetles emerging from
wood samples and their galleries. Based on micromorphological
and phylogenetic analyses, four fungal
species in the Ophiostomatales were isolated. These were Sporothrix pallida and three taxa here newly
described as Sporothrix aemulophila sp. nov., Raffaelea
vaginata sp. nov. and Raffaelea rapaneae sp. nov.
This study represents the first collection of S. pallida, a
species known from many environmental samples
from across the world, from Scolytinae beetles. S.
aemulophila sp. nov. is an associate of the ambrosia
beetle Xyleborinus aemulus. R. rapaneae sp. nov. and
R. vaginata sp. nov. were associated with a Lanurgus
sp. and Platypodinae beetle, respectively, and represent
the first Raffaelea spp. reported from the Cape
Floristic Region. Of significance is that R. vaginata
produced a sexual state analogous with those of Ophiostoma seticolle and O. deltoideosporum that
also grouped in our analyses in Raffaelea s. str., to date
considered an asexual genus. The morphology of the
ossiform ascospores and anamorphs of the three
species corresponded and the generic circumscription
of Raffaelea is thus emended to accommodate sexual
states. The two known species are provided with new
combinations, namely Raffaelea seticollis (R.W.
Davidson) Z.W. de Beer and T.A. Duong comb. nov.
and Raffaelea deltoideospora (Olchow. and J. Reid)
Z.W. de Beer and T.A. Duong comb. nov.DST/NRF Centre of Excellence in Tree Health Biotechnology (CHTB).http://link.springer.com/journal/104822016-10-30hb201
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Phylogenetic marker development for target enrichment from transcriptome and genome skim data: the pipeline and its application in southern African Oxalis (Oxalidaceae)
Phylogenetics benefits from using a large number of putatively independent nuclear loci and their combination with other sources of information, such as the plastid and mitochondrial genomes. To facilitate the selection of orthologous low‐copy nuclear (LCN) loci for phylogenetics in nonmodel organisms, we created an automated and interactive script to select hundreds of LCN loci by a comparison between transcriptome and genome skim data. We used our script to obtain LCN genes for southern African Oxalis (Oxalidaceae), a speciose plant lineage in the Greater Cape Floristic Region. This resulted in 1164 LCN genes greater than 600 bp. Using target enrichment combined with genome skimming (Hyb‐Seq), we obtained on average 1141 LCN loci, nearly the whole plastid genome and the nrDNA cistron from 23 southern African Oxalis species. Despite a wide range of gene trees, the phylogeny based on the LCN genes was very robust, as retrieved through various gene and species tree reconstruction methods as well as concatenation. Cytonuclear discordance was strong. This indicates that organellar phylogenies alone are unlikely to represent the species tree and stresses the utility of Hyb‐Seq in phylogenetics
Repression of Sex4 and Like Sex Four2 Orthologs in Potato Increases Tuber Starch Bound Phosphate With Concomitant Alterations in Starch Physical Properties
To examine the roles of starch phosphatases in potatoes, transgenic lines were produced where orthologs of SEX4 and LIKE SEX FOUR2 (LSF2) were repressed using RNAi constructs. Although repression of either SEX4 or LSF2 inhibited leaf starch degradation, it had no effect on cold-induced sweetening in tubers. Starch amounts were unchanged in the tubers, but the amount of phosphate bound to the starch was significantly increased in all the lines, with phosphate bound at the C6 position of the glucosyl units increased in lines repressed in StSEX4 and in the C3 position in lines repressed in StLSF2 expression. This was accompanied by a reduction in starch granule size and an alteration in the constituent glucan chain lengths within the starch molecule, although no obvious alteration in granule morphology was observed. Starch from the transgenic lines contained fewer chains with a degree of polymerization (DP) of less than 17 and more with a DP between 17 and 38. There were also changes in the physical properties of the starches. Rapid viscoanalysis demonstrated that both the holding strength and the final viscosity of the high phosphate starches were increased indicating that the starches have increased swelling power due to an enhanced capacity for hydration
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Consistent phenological shifts in the making of a biodiversity hotspot: the Cape flora
Background
The best documented survival responses of organisms to past climate change on short (glacial-interglacial) timescales are distributional shifts. Despite ample evidence on such timescales for local adaptations of populations at specific sites, the long-term impacts of such changes on evolutionary significant units in response to past climatic change have been little documented. Here we use phylogenies to reconstruct changes in distribution and flowering ecology of the Cape flora - South Africa's biodiversity hotspot - through a period of past (Neogene and Quaternary) changes in the seasonality of rainfall over a timescale of several million years.
Results
Forty-three distributional and phenological shifts consistent with past climatic change occur across the flora, and a comparable number of clades underwent adaptive changes in their flowering phenology (9 clades; half of the clades investigated) as underwent distributional shifts (12 clades; two thirds of the clades investigated). Of extant Cape angiosperm species, 14-41% have been contributed by lineages that show distributional shifts consistent with past climate change, yet a similar proportion (14-55%) arose from lineages that shifted flowering phenology.
Conclusions
Adaptive changes in ecology at the scale we uncover in the Cape and consistent with past climatic change have not been documented for other floras. Shifts in climate tolerance appear to have been more important in this flora than is currently appreciated, and lineages that underwent such shifts went on to contribute a high proportion of the flora's extant species diversity. That shifts in phenology, on an evolutionary timescale and on such a scale, have not yet been detected for other floras is likely a result of the method used; shifts in flowering phenology cannot be detected in the fossil record
The phylogenetic significance of leaf anatomical traits of southern African oxalis
CITATION: Jooste, M., Dreyer, L. L. & Oberlander, K. C. 2016. The phylogenetic significance of leaf anatomical traits of southern African oxalis. BMC Evolutionary Biology, 16:225, doi:10.1186/s12862-016-0792-z.The original publication is available at https://bmcevolbiol.biomedcentral.comPublication of this article was funded by the Stellenbosch University Open Access Fund.Background: The southern African Oxalis radiation is extremely morphologically variable. Despite recent progress in the phylogenetics of the genus, there are few morphological synapomorphies supporting DNA-based clades. Leaflet anatomy can provide an understudied and potentially valuable source of information on the evolutionary history and systematics of this lineage. Fifty-nine leaflet anatomical traits of 109 southern African Oxalis species were assessed in search of phylogenetically significant characters that delineate clades.
Results: A combination of 6 leaflet anatomical traits (stomatal position, adaxial epidermal cells, abaxial epidermal cells, mesophyll, sheath around vascular tissue, degree of leaflet conduplication) clearly support various clades defined by previous DNA-based phylogenetic work. Other, mostly continuous leaflet anatomical traits were highly variable and showed less phylogenetic pattern.
Conclusions: Major and unexpected findings include the transition from ancestral hypostomatic leaflets to adaxially-located stomata in the vast majority of southern African Oxalis, the loss of semi-swollen AB epidermal cells and the gain of swollen adaxial and abaxial epidermal cells in selected clades, and multiple changes from ancestral bifacial mesophyll to isobilateral or homogenous mesophyll types. The information gathered in this study will aid in the taxonomic revision of this speciose member of the Greater Cape Floristic Region and provide a basis for future hypotheses regarding its radiation.https://bmcevolbiol.biomedcentral.com/articles/10.1186/s12862-016-0792-zPublisher's versio
Nomenclatural notes on southern African Oxalis species
Background: The correct author citation of Oxalis sonderiana (Kuntze) J.F.Macbr. and the validity and identity of the species Oxalis beneprotecta R.Knuth, Oxalis bullulata T.M.Salter and Oxalis pulchella Jacq. var. beneprotecta (R.Knuth) T.M.Salter are unclear.
Objectives: To resolve the nomenclatural and taxonomic confusion surrounding these four taxa.
Method: We studied relevant herbarium records (especially type material) of all the taxa, and paired this with scrutiny of all publications that bear reference to the nomenclature and taxonomy of these species.
Results: The correct author citation for Oxalis sonderiana has been determined; Oxalis bullulata is confirmed as a distinct species, and the continued recognition of Oxalis beneprotecta as a variety of Oxalis pulchella is suggested. It is further ascertained that the name ‘Oxalis nidulans Turcz.’ is not a later homonym, but a reference to a misapplication of Oxalis nidulans Eckl. & Zeyh. to the type specimen of Oxalis sonderiana.
Conclusion: These results clarify the current confusion surrounding these taxa in global herbaria and in national and international databases
Nitrogen-fixing bacteria and Oxalis – evidence for a vertically inherited bacterial symbiosis
CITATION: Jooste, M., et al. 2019. Nitrogen-fixing bacteria and Oxalis – evidence for a vertically inherited bacterial symbiosis. BMC Plant Biology, 19:441, doi:10.1186/s12870-019-2049-7.The original publication is available at https://bmcplantbiol.biomedcentral.comPublication of this article was funded by the Stellenbosch University Open Access Fund.Background: Plant-endophyte symbioses often revolve around nitrogen metabolism, and involve varying degrees
of intimacy. Although evidence for vertical inheritance of nitrogen-fixing endophytic bacteria is increasing, it is
confined mostly to crop plants, and to date no such system has been reported for geophytes.
Methods: Bacterial endophytes associated with Oxalis, the most species-rich geophytic genus form the Cape Flora
in southern Africa was studied. Culturable endophytes were isolated from surface-sterilized vegetative and
reproductive plant organs for six host species at three locations. Colonies of microbes on various artificial media
were morphotyped, enumerated and identified using sequence data. Filter exclusion experiments were conducted
to determine if endophytes were vertically transmitted to seeds, determine if mucilage plays a role to actively
attract microbes from the soil and to assess microbial richness isolated from the mucilage of Oxalis seedlings.
Fluorescent microscopy was implemented in order to visualize endophytic bacteria in cryo-sectioned seeds.
Results: Evidence for a novel, vertically transmitted symbiosis was reported. Communities of nitrogen-fixing and plant
growth-promoting Bacillus endophytes were found to associate with selected Oxalis hosts from nitrogen-deficient
environments of the Cape. Bacillus endophytes were ubiquitous and diverse across species and plant bodies, and were
prominent in seeds. Three common nitrogen-fixing Bacillus have known oxalotrophic properties and appear to be
housed inside specialised cavities (containing oxalates) within the plant body and seeds.
Conclusions: The discovery of vertical transmission and potential benefits to both host and endophyte suggest a
particularly tight mutualism in the Oxalis-endophyte system. This discovery suggests unexpected ways in which
geophytes might avoid nitrogen deficiency, and suggest that such symbioses are more common than previously
expected.https://bmcplantbiol.biomedcentral.com/articles/10.1186/s12870-019-2049-7Publisher's versio
Assembly_nrDNAcistron_OxalisHybSeq
Alignreads ACE assembly files of 24 southern African Oxalis accessions (Hyb-Seq) and one genome skim accession (J12
alignment_plastome_OxalisHybSeq
Alignment of the plastome of 25 southern African Oxalis accession