ORCID Profile
0000-0001-6836-5493
Current Organisation
University of Melbourne
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Publisher: CSIRO Publishing
Date: 2016
DOI: 10.1071/RS16002
Abstract: The eucalypt group includes seven genera: Eucalyptus, Corymbia, Angophora, Eucalyptopsis, Stockwellia, Allosyncarpia and Arillastrum. Knowledge of eucalypt phylogeny underpins classification of the group, and facilitates understanding of their ecology, conservation and economic use, as well as providing insight into the history of Australia’s flora. Studies of fossils and phylogenetic analyses of morphological and molecular data have made substantial contributions to understanding of eucalypt relationships and biogeography, but relationships among some genera are still uncertain, and there is controversy about generic circumscription of the bloodwood eucalypts (genus Corymbia). Relationships at lower taxonomic levels, e.g. among sections and series of Eucalyptus, are also not well resolved. Recent advances in DNA sequencing methods offer the ability to obtain large genomic datasets that will enable improved understanding of eucalypt evolution.
Publisher: Informa UK Limited
Date: 02-01-2018
Publisher: Wiley
Date: 21-09-2012
Publisher: Springer Science and Business Media LLC
Date: 04-2007
Publisher: Elsevier BV
Date: 07-2007
DOI: 10.1016/J.YMPEV.2006.10.027
Abstract: The presence of ergent paralogues of nuclear ribosomal DNA, from the 18S-5.8S-26S cistron, is reported in members of Eucalyptus subg. Eucalyptus. These paralogues, which include non-functional pseudogenes, probably erged prior to the differentiation of species groups in subg. Eucalyptus. When compared with presumably functional sequences, the pseudogenes show greater sequence variation between species, particularly in the 5.8S gene. They are also characterised by reduced GC content, associated with a reduced number of CpG and CpNpG methylation sites, and an increase in the inferred number of methylation-induced substitutions. Some pseudogenes also lack motifs that are usually conserved in plants, both in ITS1 and the 5.8S gene. Two main lineages of pseudogenes are identified, one isolated from a group of western Australian species, one from a group of eastern Australian species. It is not clear whether these two lineages of pseudogenes are orthologous, or represent independent ergences from functional sequence types. The presence of ergent rDNA paralogues highlights the need for caution when interpreting eucalypt phylogenies based on ITS sequences.
Publisher: CSIRO Publishing
Date: 2020
DOI: 10.1071/SB20001
Abstract: Asplenium flabellifolium Cav. is a cytologically variable Australian and New Zealand fern. Here, we sequence chloroplast trnL-trnF and rps4-trnS from s les throughout its range to provide the first phylogeographic investigation of a fern common in both countries. Twenty-three haplotypes were detected, which formed six haplogroups in a network. Australian specimens were placed in all haplogroups. The placement of New Zealand haplotypes in five of the haplogroups suggests that this species has dispersed across the Tasman Sea at least five times. Sexually reproducing plants of lower ploidy, detected only in south-eastern Australia, contained haplotypes from the two haplogroups that are successive sisters to the remaining ersity in the phylogeny. This likely suggests that A. flabellifolium was originally a sexually reproducing species in south-eastern Australia and spread to the rest of its distribution where apomictic plants dominate. More than one haplogroup was detected in several areas across its distribution, suggesting that these areas were colonised several times. Other areas harboured several haplotypes from a single haplogroup or haplogroups not recovered elsewhere, indicating possible long-term persistence in these areas. Haplotypes and morphological features were not found to be exclusive to either breeding system or ploidy and no taxonomic revision is proposed.
Publisher: Springer Science and Business Media LLC
Date: 11-10-2021
Publisher: CSIRO Publishing
Date: 2014
DOI: 10.1071/SB14047
Abstract: Asplenium listeri C.Chr. has been considered endemic to Christmas Island and is one of only two fern species listed as Critically Endangered under Australia’s Environment Protection and Bio ersity Conservation Act. Its status as a distinct species has been questioned because of morphological similarity to the widespread A. polyodon G.Forst., which also occurs on Christmas Island. Molecular analyses revealed that A. listeri and plants attributed to A. polyodon from coastal limestone in New Caledonia and Vanuatu share the same rbcL, trnL–trnF and rps4–trnS haplotype and that other s les of A. polyodon in Australia and the south-western Pacific belong to three separate molecular lineages. One of these lineages is formed by epiphytic A. polyodon from Christmas Island and has a chloroplast haplotype closely related to that of A. listeri, differing by four mutations. The A. listeri haplotype and each of the three A. polyodon lineages are associated with morphological characters and are all worthy of recognition as separate species. Asplenium listeri is here expanded to include limestone dwelling populations in the Pacific previously assigned to A. polyodon. This greatly extends the geographic range of A. listeri, and its conservation status should be revised accordingly. Application of correct names to all species in the A. polyodon complex requires further molecular s ling throughout its geographic range and clarification of how type material relates to each of the molecular groups.
Publisher: CSIRO Publishing
Date: 2014
DOI: 10.1071/SB14001
Abstract: For more than 75 years, the Lord Howe Island moss Spiridens muelleri H e has been considered conspecific with Spiridens vieillardii Schimp., originally described from New Caledonia. A comparison of morphological characters not previously considered, along with DNA sequences from three chloroplast loci (trnL–trnF, rps4–trnS, rpl32–trnL) and ITS-2 of nuclear rDNA, supports their recognition as separate species.
Publisher: Elsevier BV
Date: 03-2001
DOI: 10.1016/S0031-9422(00)00397-6
Abstract: Comparative flavonoid chemistry is a key element of a multidisciplinary study aimed at a revision of the genus Hebe, New Zealand's largest genus of flowering plants. One aspect of this study has been an investigation of the Hebe parviflora complex. A recent botanical paper on this topic marshalls generalised flavonoid data and morphological characters to support the recognition of two species in this complex, Hebe stenophylla and Hebe parviflora, which are clearly distinguishable from each other and from the related Hebe traversii and Hebe strictissima. A detailed study of the flavonoid chemistry and the distributional data used to support these conclusions are presented here. Six new compounds have been isolated in this study, including 6-hydroxyapigenin-7-O-beta-[2-O-beta-xyloxyloside] and-7-O-beta-[2-O-beta-xyloglucoside], 6-hydroxyluteolin-7-O-beta-[2-O-beta-xyloxyloside] and, luteolin-, 6-hydroxyluteolin- and 4'-O-methylluteolin-7-O-beta-[6-O-beta-xyloglucoside]. Other flavonoids include apigenin and luteolin 7- and 4'- mono-, di- and possibly tri-O-glycosides, 8-hydroxyluteolin 7- and 8-O-glucosides, and kaempferol and quercetin 3-O-mono- and di-glycosides. New structure assignments are supported with detailed 1H and 13C NMR data, including HMQC and HMBC measurements.
Publisher: CSIRO Publishing
Date: 2023
DOI: 10.1071/SB22019
Publisher: CSIRO Publishing
Date: 2023
DOI: 10.1071/SB22018
Publisher: Elsevier
Date: 2022
Publisher: CSIRO Publishing
Date: 2016
DOI: 10.1071/SB16024
Abstract: Lamont et al. (2016) concluded that the Australian sclerophyllous genus Hakea (Proteaceae) arose 18million years ago in the South West of Western Australia (SWA) and dispersed 18 times to eastern (EA) and central Australia (CA) only 12million years ago (mid-Miocene). Their explanation of the biogeographic history of Hakea was based on the following: accepting a fully resolved molecular phylogenetic tree, although ~40% of nodes had posterior probability values below 0.95 using all nodes including geographically paralogous nodes to determine ancestral area probabilities and applying a strict clock to estimate clade ergence times. Our re-analyses of the same dataset using a relaxed clock model pushes the age of Hakea to 32.4 (21.8–43.7) million years ago relative to its nearest outgroups, and the age of the ergence of two major clades (A and B) to 24.7 (17.2–33.7) million years ago. Calibration based on a new finding of Late Cretaceous fossil Banksia pushes these dates to 48.0 (24.3–75.2) million years ago and 36.6 (18.5–55.4) million years ago respectively. We confirm that each of the two main clades includes lineages in SWA, CA and EA. At the basal node of Clade A, two eastern Australian species form the sister group to three SWA scrub–heath–Eremaean species. These two groups together are sister to a large, mostly unresolved clade of SWA, CA and EA taxa. Similarly, at the base of Clade B is a polytomy of lineages from the SWA, CA and EA, with no resolution of area relationships. There is no evidence of a centre of origin and ersification of the genus is older than the mid-Miocene, being at least Oligocene, and probably older, although calibration points for molecular dating are too far removed from the ingroup to provide any great confidence in the methodology. Consideration should be given to the possibility of vicariance of multiple, widespread ancestral lineages as an explanation for lineages now disjunct between EA and SWA.
Publisher: CSIRO Publishing
Date: 2014
DOI: 10.1071/SB14043
Abstract: Aspleniaceae is one of the largest fern families. It is species-rich in Australasia and the south-western Pacific (ASWP), where approximately 115 species occur. In the current study, the chloroplast regions rbcL, trnL–trnF and rps4–trnS were sequenced for 100 Aspleniaceae s les from ASWP. These data were combined with published sequences for species from New Zealand and other regions for phylogenetic analyses. Species of Aspleniaceae from ASWP were placed in six of the eight previously identified inter-continental clades. The majority of species from ASWP were placed in two of these clades, with the remaining four clades each being represented by three or fewer species. Strong biogeographic affinities with South-east Asia were observed and immigration, rather than local radiations of endemic taxa, appears to have made a more important contribution to patterns of ersity in ASWP. This study supports the current taxonomic practice of recognising two genera, Asplenium L. and Hymenasplenium Hayata, in Aspleniaceae, and identifies future taxonomic work required for the family in this region, including potential synonymising of species, and revision of species complexes or widespread species that are demonstrably non-monophyletic.
Publisher: Frontiers Media SA
Date: 07-03-2023
DOI: 10.3389/FPLS.2023.1063174
Abstract: Sapindales is an angiosperm order of high economic and ecological value comprising nine families, c. 479 genera, and c. 6570 species. However, family and subfamily relationships in Sapindales remain unclear, making reconstruction of the order’s spatio-temporal and morphological evolution difficult. In this study, we used Angiosperms353 target capture data to generate the most densely s led phylogenetic trees of Sapindales to date, with 448 s les and c. 85% of genera represented. The percentage of paralogous loci and allele ergence was characterized across the phylogeny, which was time-calibrated using 29 rigorously assessed fossil calibrations. All families were supported as monophyletic. Two core family clades sub ide the order, the first comprising Kirkiaceae, Burseraceae, and Anacardiaceae, the second comprising Simaroubaceae, Meliaceae, and Rutaceae. Kirkiaceae is sister to Burseraceae and Anacardiaceae, and, contrary to current understanding, Simaroubaceae is sister to Meliaceae and Rutaceae. Sapindaceae is placed with Nitrariaceae and Biebersteiniaceae as sister to the core Sapindales families, but the relationships between these families remain unclear, likely due to their rapid and ancient ersification. Sapindales families emerged in rapid succession, coincident with the climatic change of the Mid-Cretaceous Hothouse event. Subfamily and tribal relationships within the major families need revision, particularly in Sapindaceae, Rutaceae and Meliaceae. Much of the difficulty in reconstructing relationships at this level may be caused by the prevalence of paralogous loci, particularly in Meliaceae and Rutaceae, that are likely indicative of ancient gene duplication events such as hybridization and polyploidization playing a role in the evolutionary history of these families. This study provides key insights into factors that may affect phylogenetic reconstructions in Sapindales across multiple scales, and provides a state-of-the-art phylogenetic framework for further research.
Publisher: Cold Spring Harbor Laboratory
Date: 03-11-2020
DOI: 10.1101/2020.11.02.364471
Abstract: Eremophila is the largest genus in the plant tribe Myoporeae (Scrophulariaceae) and exhibits incredible morphological ersity across the Australian continent. The Australian Aboriginal Peoples recognize many Eremophila species as important sources of traditional medicine, the most frequently used plant parts being the leaves. Recent phylogenetic studies have revealed complex evolutionary relationships between Eremophila and related genera in the tribe. Unique and structurally erse metabolites, particularly diterpenoids, are also a feature of plants in this group. To assess the full dimension of the chemical space of the tribe Myoporeae, we investigated the metabolite ersity in a chemo-evolutionary framework applying a combination of molecular phylogenetic and state-of-the-art computational metabolomics tools to build a dataset involving leaf s les from a total of 291 specimens of Eremophila and allied genera. The chemo-evolutionary relationships are expounded into a systematic context by integration of information about leaf morphology (resin and hairiness), environmental factors (pollination and geographical distribution) and medicinal properties (traditional medicinal uses and antibacterial studies) augmenting our understanding of complex interactions in biological systems.
Publisher: Wiley
Date: 06-2020
DOI: 10.1002/TAX.12242
Publisher: Springer Science and Business Media LLC
Date: 11-05-2014
Publisher: University of Chicago Press
Date: 06-2015
DOI: 10.1086/680983
Abstract: Introgressive hybridization is increasingly recognized as having influenced the gene pools of large genera of plants, yet it is rarely invoked as an explanation for why closely related plant species do not co-occur. Here, we asked how the environment and tendency to interbreed relate to neighborhood co-occurrence patterns for Eucalyptus species in the Gr ians National Park, Victoria, Australia. We identified species pairs that have experienced ongoing hybridization and introgression on the basis of the extent of incongruence between chloroplast DNA (JLA+ region) and nuclear ribosomal DNA (internal transcribed spacer region) phylogenies, geographic patterns of gene sharing, and field observation of intermediate morphologies. Co-occurrence, trait data (specific leaf area [SLA], maximum height, and seed mass), and environmental data were measured in plots distributed along environmental gradients. Trait and habitat similarity influenced species co-occurrence the most overall (e.g., co-occurring species had similar SLA). Reproductively compatible species were an exception they rarely co-occurred despite being functionally similar. The negative effect of reproductive compatibility was stronger than the positive effect of SLA on co-occurrence. Our results emphasize the dominant roles of the environment and the importance of evolution in structuring local assemblages. We argue that the mechanism responsible for preventing closely related species from co-occurring in this system is reproductive interference rather than competitive exclusion. Reproductive interference should be considered more generally as a potential cause of phylogenetic overdispersion.
Publisher: CSIRO Publishing
Date: 17-03-2021
DOI: 10.1071/SB20013
Abstract: Despite the prevalence of sclerophyllous vegetation in Australia, there are few phylogeographic studies with continent-wide s ling addressing questions about the expansion of this vegetation post-aridification, and what physical barriers are associated with breaks in distribution or patterns of genetic structure. We used licon sequencing of plastid and nuclear DNA to investigate phylogeography of Xanthorrhoea. Despite extremely low genetic variation and widespread sharing of identical DNA sequence among multiple species and across significant geographic distance, haplotype analyses showed phylogeographic structure. Network analysis of six plastid loci and 137 s les identified 54 haplotypes (two common, 35 unique to single s les) in three geographic groups, south west and central Australia, northern–eastern Australia, and southern–eastern Australia, indicating restricted gene flow among regions. A nrDNA haplotype network of 152 s les showed less variation, with one haplotype being widespread, found in all three plastid geographic groups and 70% of species. nrDNA indicated four groups in a pattern, suggestive of at least two east–west ergences. A geographic area of a high haplotype ersity and ergence was identified in southern New South Wales, near the Southern Transition Zone. Our results showed the value of targeted licon sequencing and using multiple s les per species to identify both broad-scale and fine-scale biogeographic patterns.
Publisher: Wiley
Date: 16-09-2021
DOI: 10.1111/TPJ.15448
Abstract: Eremophila is the largest genus in the plant tribe Myoporeae (Scrophulariaceae) and exhibits incredible morphological ersity across the Australian continent. The Australian Aboriginal Peoples recognize many Eremophila species as important sources of traditional medicine, the most frequently used plant parts being the leaves. Recent phylogenetic studies have revealed complex evolutionary relationships between Eremophila and related genera in the tribe. Unique and structurally erse metabolites, particularly diterpenoids, are also a feature of plants in this group. To assess the full dimension of the chemical space of the tribe Myoporeae, we investigated the metabolite ersity in a chemo‐evolutionary framework applying a combination of molecular phylogenetic and state‐of‐the‐art computational metabolomics tools to build a dataset involving leaf s les from a total of 291 specimens of Eremophila and allied genera. The chemo‐evolutionary relationships are expounded into a systematic context by integration of information about leaf morphology (resin and hairiness), environmental factors (pollination and geographical distribution), and medicinal properties (traditional medicinal uses and antibacterial studies), augmenting our understanding of complex interactions in biological systems.
Publisher: CSIRO Publishing
Date: 2014
DOI: 10.1071/SB13045
Abstract: The holly grevilleas are an informal grouping of 15 species (19 taxa) of woody shrubs from south-eastern Australia, with a centre of distribution in central to western Victoria. Many of the species are narrowly endemic. The present study is the first molecular-phylogenetic analysis of the group, with the aim of providing an evolutionary framework for assessing species-level taxonomy and conservation priorities. Analyses using the nrDNA internal transcribed spacer (ITS) regions were complicated by the presence of ergent paralogues, including inferred pseudogenes analyses restricted to presumed orthologous, functional ITS sequences were uninformative. Combined analyses of three chloroplast intergenic spacers (trnQ–5′rps16, trnL–trnF and rpoB–trnC) strongly support the monophyly of a core group of 16 taxa (the ‘southern holly grevilleas’) from Victoria and South Australia. However, nodes outside this group are poorly resolved and poorly supported, and the relationships of taxa from New South Wales and eastern Victoria (the ‘northern holly grevilleas’) are unclear. Among the southern holly grevilleas, the following four distinct and partly sympatric cpDNA clades are identified: the ‘Grevillea ilicifolia’, ‘G. aquifolium’, ‘G. dryophylla’ and ‘G. repens’ clades, among which the earliest and most strongly supported ergence is that of the western-most ‘G. ilicifolia’ clade. Variation in cpDNA is incongruent with current species-level taxonomy, especially for G. aquifolium (polyphyletic), G. montis-cole (polyphyletic, but the two subspecies each monophyletic) and G. microstegia (nested in G. aquifolium). The effects of incomplete chloroplast lineage sorting, gene flow through hybridisation or introgression, and inappropriate taxonomy are possible explanations for this incongruence. The formal conservation listing for some species within the holly grevillea group requires re-evaluation.
Publisher: Elsevier BV
Date: 11-1999
Publisher: Informa UK Limited
Date: 03-07-2018
Publisher: Springer Science and Business Media LLC
Date: 10-06-2209
Publisher: CSIRO Publishing
Date: 2020
DOI: 10.1071/SB20006
Abstract: Five indigenous species of Pellaea in Australasia belong to section Platyloma. Their taxonomic history is outlined, morphological, cytological and genetic evidence for their recognition reviewed, and new morphological and chloroplast DNA-sequence data provided. Australian plants of P. falcata (R.Br.) Fée are diploid and have longer, narrower pinnae than do New Zealand plants previously referred to P. falcata, which are tetraploid. Evidence indicates that P. falcata does not occur in New Zealand, and that collections so-named are P. rotundifolia (G.Forst.) Hook. Chloroplast DNA sequences are uninformative in distinguishing Australian P. falcata from New Zealand P. rotundifolia, but show that Australian P. nana is distinct from both. Sequence data also show that Australian and New Zealand populations of P. calidirupium Brownsey & Lovis are closely related, and that Australian P. paradoxa (R.Br.) Hook. is distinct from other Australian species. Although P. falcata is diploid and P. rotundifolia tetraploid, P. calidirupium, P. nana (Hook.) Bostock and P. paradoxa each contain multiple ploidy levels. Diploid populations of Pellaea species are confined to Australia, and only tetraploids are known in New Zealand. Evolution of the group probably involved hybridisation, autoploidy, alloploidy, and possibly apomixis. Further investigation is required to resolve the status of populations from Mount Maroon, Queensland and the Kermadec Islands.
Publisher: Wiley
Date: 12-2015
DOI: 10.12705/646.5
Publisher: Springer Science and Business Media LLC
Date: 12-02-2016
Publisher: Pensoft Publishers
Date: 22-08-2022
DOI: 10.3897/PHYTOKEYS.205.79381
Abstract: The morphologically variable genus Archidendron is the second largest mimosoid legume genus from the Indomalayan-Australasian region, yet it has not been well represented in phylogenetic studies. Phylogenies that have included multiple representatives of Archidendron suggest it may not be monophyletic, and the same applies to Archidendropsis , another understudied genus of the Archidendron clade. The most comprehensive phylogeny of Archidendron and Archidendropsis to date is presented, based on four nuclear markers (ITS, ETS, SHMT and RBPCO). Exemplars from all genera of the wider Archidendron clade are s led, including representatives of all series within Archidendron and the two subgenera of Archidendropsis . Our results confirm that Archidendron and Archidendropsis are not monophyletic. Within Archidendron , only one series (ser. Ptenopae) is resolved as monophyletic and species of Archidendron are ided into two primarily geographic lineages. One clade is distributed in western Malesia and mainland Asia and includes most representatives of series Clypeariae , while the other is mostly restricted to eastern Malesia and Australia and includes representatives of the seven other series plus two s les of series Clypeariae . No taxonomic changes are made for Archidendron due to the high level of topological uncertainty and the lack of discrete macromorphological characters separating these two lineages. Each of the two subgenera of Archidendropsis is monophyletic but they are not closely related. A new genus endemic to Queensland (Australia), Heliodendron Gill.K. Br. & Bayly, gen. nov. , is described for the former Archidendropsis subg. Basaltica, and combinations for its three species are proposed: Heliodendron basalticum (F. Muell.) Gill.K. Br. & Bayly, comb. nov. , Heliodendron thozetianum (F. Muell.) Gill.K. Br. & Bayly, comb. nov. , and Heliodendron xanthoxylon (C.T. White & W.D. Francis) Gill.K. Br. & Bayly, comb. nov.
Publisher: CSIRO Publishing
Date: 2018
DOI: 10.1071/SB16034
Abstract: This study presents a phylogeny of Zieria Sm. (Rutaceae) based on sequences of internal transcribed spacer and external transcribed spacer regions of nrDNA, and using Neobyrnesia suberosa J.A.Armstr. as the outgroup. The phylogeny includes 109 s les, representing 58 of the 60 currently recognised species of Zieria, with multiple accessions of most. Ten species were resolved as monophyletic on the basis of two, or in one case four, s les. Monophyly of four species was neither supported nor rejected, and all other species with more than one accession were resolved as polyphyletic or paraphyletic. Results showed that ergent paralogues of nrDNA are present in some in iduals, although the underlying evolutionary process that gave rise to those paralogues is uncertain. Divergent paralogues within genomes could predate speciation and be variably retained or variably detected within the species s led here alternatively, they could represent novel nrDNA combinations formed through hybridisation after speciation. There was no strong evidence for recombination between paralogues or that paralogues represent pseudogenes. Variation of nrDNA sequences was clearly incongruent with previously published cpDNA variation, with the nrDNA potentially providing a better indication of species relationships in Zieria. Evidence for this comes from the greater level of congruence, in some species at least, between nrDNA and existing species-level taxonomy than between cpDNA and taxonomy. Incomplete lineage sorting is proposed as a plausible cause for much of the conflict between nrDNA and cpDNA in Zieria, although, in most cases, there was insufficient information to identify the underlying causes with confidence. Implications for species-level taxonomy are discussed.
Publisher: Wiley
Date: 28-04-2021
DOI: 10.1002/TAX.12495
Abstract: Eremophila is a significant component of the Australian arid zone flora, but its generic limits and relationships to the other six genera of tribe Myoporeae remain largely untested. In this study, we assembled a dataset of the nuclear ribosomal cistron (ca. 6000 bases including ITS1+2, ETS regions, non‐transcribed spacer and associated genes) for all genera in tribe Myoporeae with a particular focus on Eremophila (205 of total 233 formally described species of Eremophila , and 28 species of related genera s led). Phylogenetic analyses were performed using maximum likelihood and Bayesian inference methods. These resolved four major clades that were well supported. Eremophila was paraphyletic, with all other genera of tribe Myoporeae nested in it. We discuss two taxonomic options for addressing the paraphyly of Eremophila . As an immediate step, we propose that the small genera, Cal horeus and Diocirea , should be placed in synonymy under Eremophila , and herein make the necessary new nomenclatural combinations. Additional phylogenetic data are needed, ideally in the form of multiple independent nuclear loci, to clarify the positions of Bontia , Glycocystis and Myoporum relative to Eremophila before further taxonomic changes are proposed.
Publisher: Public Library of Science (PLoS)
Date: 13-08-2013
Publisher: Wiley
Date: 16-07-2021
DOI: 10.1002/TAX.12543
Abstract: Rutaceae is a family of angiosperms well known for the economically important genus Citrus . The ision of Rutaceae into subfamilies is still inadequate and provisional. Previous phylogenetic studies at the family level are characterized by a limited s ling of genera and lack several crucial taxa. Here, we present a phylogenetic study based on six nuclear and plastid markers including 87.7% of the currently accepted genera, which is more than twice as many as in previous studies. Seven genera are included in a phylogenetic analysis for the first time. Most clades are resolved with high support, and we propose a new subfamily classification for Rutaceae that comprises the subfamilies Amyridoideae, Aurantioideae, Cneoroideae, Haplophylloideae, Rutoideae and Zanthoxyloideae. Aurantioideae is the only traditional subfamily that is resolved as monophyletic. We tested whether 13 morphological and karyological characters are taxonomically informative in Rutaceae. Chromosome numbers are clearly different in the two main clades of Rutaceae, but fruit characteristics, which have been used to define subfamilies in the past, do not distinguish between the main lineages of the family.
Publisher: Oxford University Press (OUP)
Date: 26-12-2011
Abstract: Although temporal calibration is widely recognized as critical for obtaining accurate ergence-time estimates using molecular dating methods, few studies have evaluated the variation resulting from different calibration strategies. Depending on the information available, researchers have often used primary calibrations from the fossil record or secondary calibrations from previous molecular dating studies. In analyses of flowering plants, primary calibration data can be obtained from macro- and mesofossils (e.g., leaves, flowers, and fruits) or microfossils (e.g., pollen). Fossil data can vary substantially in accuracy and precision, presenting a difficult choice when selecting appropriate calibrations. Here, we test the impact of eight plausible calibration scenarios for Nothofagus (Nothofagaceae, Fagales), a plant genus with a particularly rich and well-studied fossil record. To do so, we reviewed the phylogenetic placement and geochronology of 38 fossil taxa of Nothofagus and other Fagales, and we identified minimum age constraints for up to 18 nodes of the phylogeny of Fagales. Molecular dating analyses were conducted for each scenario using maximum likelihood (RAxML + r8s) and Bayesian (BEAST) approaches on sequence data from six regions of the chloroplast and nuclear genomes. Using either ingroup or outgroup constraints, or both, led to similar age estimates, except near strongly influential calibration nodes. Using "early but risky" fossil constraints in addition to "safe but late" constraints, or using assumptions of vicariance instead of fossil constraints, led to older age estimates. In contrast, using secondary calibration points yielded drastically younger age estimates. This empirical study highlights the critical influence of calibration on molecular dating analyses. Even in a best-case situation, with many thoroughly vetted fossils available, substantial uncertainties can remain in the estimates of ergence times. For ex le, our estimates for the crown group age of Nothofagus varied from 13 to 113 Ma across our full range of calibration scenarios. We suggest that increased background research should be made at all stages of the calibration process to reduce errors wherever possible, from verifying the geochronological data on the fossils to critical reassessment of their phylogenetic position.
Publisher: Oxford University Press (OUP)
Date: 10-01-2012
Publisher: Wiley
Date: 08-2020
DOI: 10.1002/TAX.12305
Publisher: Elsevier BV
Date: 12-2013
DOI: 10.1016/J.YMPEV.2013.07.006
Abstract: We present a phylogenetic analysis and comparison of structural features of chloroplast genomes for 39 species of the eucalypt group (genera Eucalyptus, Corymbia, Angophora, and outgroups Allosyncarpia and Stockwellia). We use 41 complete chloroplast genome sequences, adding 39 finished-quality chloroplast genomes to two previously published genomes. Maximum parsimony and Bayesian analyses, based on >7000 variable nucleotide positions, produced one fully resolved phylogenetic tree (35 supported nodes, 27 with 100% bootstrap support). Eucalyptus and its sister lineage Angophora+Corymbia show a deep ergence. Within Eucalyptus, three lineages are resolved: the 'eudesmid', 'symphyomyrt' and 'monocalypt' groups. Corymbia is paraphyletic with respect to Angophora. Gene content and order do not vary among eucalypt chloroplasts length mutations, especially frame shifts, are uncommon in protein-coding genes. Some non-synonymous mutations are highly incongruent with the overall phylogenetic signal, notably in rbcL, and may be adaptive. Application of custom informatics pipelines (GYDLE Inc.) enabled direct chloroplast genome assembly, resolving each genome to finished-quality with no need for PCR gap-filling or contig order resolution. Analysis of whole chloroplast genomes resolved major eucalypt clades and revealed variable regions of the genome that will be useful in lower-level genetic studies (including phylogeography and geneflow).
Publisher: CSIRO Publishing
Date: 2009
DOI: 10.1071/SB09028
Abstract: Phylogenetic relationships of sections and species within Corymbia (Myrtaceae), the bloodwood eucalypts, were evaluated by using combined analyses of nuclear rDNA (ETS + ITS) and morphological characters. Combining morphological characters with molecular data provided resolution of relationships within Corymbia. The analyses supported the monophyly of the genus and recognition of the following two major clades, treated here as new subgenera: subgenus Corymbia, including informal sections recognised by Hill and Johnson (1995), namely Rufaria (red bloodwoods), Apteria and Fundoria and subgenus Blakella, including sections Politaria (spotted gums), Cadagaria, Blakearia (paper-fruited bloodwoods or ghost gums) and Ochraria (yellow bloodwoods). Hill and Johnson’s section Rufaria is monophyletic if Apteria and Fundoria are included. It is evident that, among the red bloodwoods, series are not monophyletic and several morphological characters result from convergent evolution. There was strong morphological and molecular evidence that the three species of red bloodwoods that occur in south-western Western Australia (series Gummiferae: C. calophylla and C. haematoxylon, and series Ficifoliae: C. ficifolia) form a monophyletic group, separate from the eastern C. gummifera (series Gummiferae), which is probably sister to the clade of all other red bloodwoods. Phylogenetic results supported recognition of new taxonomic categories within Corymbia, and these are formalised here.
Publisher: CSIRO Publishing
Date: 16-09-2022
DOI: 10.1071/SB22003
Abstract: Philotheca sect. Erionema includes 14 species from eastern Australia and one from south-western Australia. We conducted a phylogenetic analysis of the section, including s les of all species, using sequences of the ITS and ETS regions of nuclear ribosomal DNA. Results were broadly congruent with a previous analysis based on morphological and flavonoid data. The analysis is consistent with the monophyly of the section and supports the monophyly of six species represented by multiple s les. Philotheca verrucosa (A. Rich.) Paul G. Wilson was resolved as paraphyletic with respect to P. freyciana Rozefelds but with poor support. Philotheca glasshousiensis, P. myoporoides and P. myoporoides subsp. myoporoides were clearly polyphyletic, including separate geographic clades and the classification of each of these taxa requires revision. In particular, disjunct northern populations of P. glasshousiensis probably represent a distinct species, the five subspecies of P. myoporoides could be treated as separate species and at least two other distinct groups that are currently included under the circumscription of subsp. myoporoides could be treated as species. The phylogeny revealed deeply ergent, geographically overlapping clades in eastern Australia and substantial distances (up to 900 km) between sister taxa. We infer that biogeography of the group has been shaped largely by vicariant differentiation of taxa.
Publisher: CSIRO Publishing
Date: 18-05-2022
DOI: 10.1071/SB21034
Abstract: Spyridium Fenzl is a genus of ~45 species endemic to south-western and south-eastern Australia. This study provides the most comprehensive phylogenies of Spyridium to date, analysing both entire chloroplast genomes and the nuclear ribosomal array (18S–5.8S–26S). There was substantial incongruence between the chloroplast and nuclear phylogenies, creating phylogenetic uncertainty, but some clear relationships and biogeographic patterns could be established. Analyses support the monophyly of Spyridium, identifying an early east–west split at the base of the nuclear phylogeny and deep ergences of New South Wales and Tasmanian endemic clades. We also found evidence of more recent dispersal events between eastern and western Australia and between Tasmania and the mainland. Eleven taxa were found to be monophyletic in the nrDNA phylogeny and two were clearly polyphyletic (S. eriocephalum Fenzl and S. phylicoides Reissek). Although the polyphyly of S. eriocephalum correlates with the two varieties, suggesting distinct taxa, further research is required on S. phylicoides.
Publisher: Wiley
Date: 08-2014
DOI: 10.12705/634.13
Publisher: CSIRO Publishing
Date: 22-08-2023
DOI: 10.1071/SB23011
Publisher: Elsevier BV
Date: 04-2008
DOI: 10.1016/J.YMPEV.2007.12.019
Abstract: The alpine genus Chionohebe is one of seven genera in the southern hemisphere Hebe complex. The main aims of this study were to infer the evolutionary relationships and assess phylogeographic patterns among the six species of Chionohebe, determine the origin of the two species with trans-Tasman distributions, and test species delimitations and specimen identifications based on morphology. Analyses of AFLP data recovered five major lineages within Chionohebe, some of which corresponded to species and varieties as currently circumscribed. Although the cushion chionohebes were strongly supported as monophyletic, the sole non-cushion species, C. densifolia, was sister to Parahebe trifida, and thus the AFLP data do not support a monophyletic Chionohebe as usually circumscribed. Strong north/south and west/east phylogeographic patterns were found among and within the main AFLP lineages in New Zealand. Analyses of chloroplast DNA (cpDNA) revealed eight haplotypes in Chionohebe, but these did not correspond to current taxonomy or geography due to widespread interspecific haplotype sharing. Based on both AFLP and cpDNA results, the two trans-Tasman species are shown to have originated in New Zealand and dispersed to Australia independently.
Publisher: CSIRO Publishing
Date: 2014
DOI: 10.1071/SB14024
Abstract: Species boundaries and relationships were investigated in the Asplenium paleaceum (Aspleniaceae) species complex from eastern Australia, using AFLP fingerprinting and chloroplast trnL–trnF and rps4–trnS and nuclear pgiC DNA sequences. Phenetic analyses of AFLP data resulted in the following five distinct groups: (1) A. carnarvonense, (2) A. bicentenniale (including nearby collections originally identified as A. paleaceum), (3) A. paleaceum with both aborted and normal spores, (4) one population of putative tetraploid A. attenuatum var. in isum from south Queensland, and (5) remaining octoploid A. attenuatum populations and several putative hybrids. Taxonomic revision of this complex will require morphological re-circumscription of the current species and recognition of a new species if these AFLP groups are taken to represent separate species. The chloroplast regions, morphology and pgiC together provide good evidence that an Asplenium of unconfirmed identity, A. sp. ‘Kroombit Tops’, is an allopolyploid with a species of the A. paleaceum chloroplast clade, probably A. paleaceum, and distantly related A. polyodon as parents. Further study is required to determine the complete ancestry of the other species of the A. paleaceum complex.
Publisher: CSIRO Publishing
Date: 20-10-2022
DOI: 10.1071/SB21029
Abstract: To investigate the relationships among species in the taxonomically problematic Eucalyptus odorata species complex, we generated molecular data using double-digest restriction site-associated DNA sequencing (ddRADseq) and Diversity Arrays Technology sequencing (DArTseq). These data were analysed utilising principal-component analysis (PCA), phylogenetic networks, phylogeny reconstruction and hybridisation tests. Twelve species that are variously recognised in the complex were s led from across their ranges, along with co-occurring members of E. section Adnataria, to allow for patterns of hybridisation and gene flow to be identified. Despite the large genetic datasets generated, many relationships within the E. odorata complex were poorly resolved, and few species were monophyletic, likely owing to both biological factors including recent speciation and extensive hybridisation and introgression, and potential over-splitting of taxa. We show that multiple taxa with limited distributions are the result of reticulate evolutionary events and that typical Eucalyptus viridis R.T.Baker and the possibly con-specific E. aenea K.D.Hill are sister to the rest of the complex. The remaining species appeared to represent a discontinuous crescent-shaped cline running from the Flinders Ranges to the south-western slopes region of New South Wales, with limited support for an east–west split in this cline across the Murray River Basin. Eucalytpus viridis var. latiuscula Blakely, which is not closely related to the typical variety of this species in our data, may represent a northern extension to this cline.
Publisher: Wiley
Date: 05-2004
DOI: 10.2307/4135648
Publisher: Public Library of Science (PLoS)
Date: 17-11-2022
DOI: 10.1371/JOURNAL.PONE.0276117
Abstract: We present a phylogeographic study of the tree species Eucalyptus baueriana Schauer, which occurs in disjunct areas on the near coastal plains and ranges of the south-east Australian mainland. DArTseq data are used to build a phylogeny including E . baueriana and closely related taxa to test its monophyly, test the genetic distinctness of the three subspecies of E . baueriana , and investigate relationships between its disjunct populations. Additionally, we use population structure analysis to investigate the genetic distinctness of populations, and MaxEnt to investigate the environmental factors potentially influencing the species’ distribution. We show E . baueriana is monophyletic and most closely related to three other Blue Box eucalypt species: E . conica H.Deane & Maiden, E . dalveenica T.L.Collins, R.L.Andrew & J.J.Bruhl and E . magnificata L.A.S.Johnson & K.D.Hill, with some evidence for genetic introgression between these taxa. Within E . baueriana , the deepest genetic breaks do not correspond with the subspecies classification as the two geographically restricted subspecies, together with s les of the more widespread E . baueriana subsp. baueriana from west of the Gippsland lowlands, form a south-western clade with that is sister to other populations of subsp. baueriana . The oldest genetic break in the species occurs in far eastern Gippsland (Victoria), corresponding to one of the shortest geographic disjunctions in the species’ distribution. Genetic breaks in other species have been observed in this region which is broadly referred to as the southern transition zone. Both total annual rainfall and the seasonality of this rainfall are hypothesised to affect the species’ distribution gaps in its distribution are in areas of higher rainfall that support closed forest and in regions with more winter dominated rainfall.
Publisher: Wiley
Date: 15-12-2020
DOI: 10.1002/ECE3.7099
Abstract: To infer relationships between populations of the semi‐arid, mallee eucalypt, Eucalyptus behriana , to build hypotheses regarding evolution of major disjunctions in the species' distribution and to expand understanding of the biogeographical history of southeastern Australia. Southeastern Australia. Eucalyptus behriana (Myrtaceae, Angiospermae). We developed a large dataset of anonymous genomic loci for 97 s les from 11 populations of E. behriana using double digest restriction site‐associated DNA sequencing (ddRAD‐seq), to determine genetic relationships between the populations. These relationships, along with species distribution models, were used to construct hypotheses regarding environmental processes that have driven fragmentation of the species’ distribution. Greatest genetic ergence was between populations on either side of the Lower Murray Basin. Populations west of the Basin showed greater genetic ergence between one another than the eastern populations. The most genetically distinct population in the east (Long Forest) was separated from others by the Great Dividing Range. A close relationship was found between the outlying northernmost population (near West Wyalong) and those in the Victorian Goldfields despite a large disjunction between them. Patterns of genetic variation are consistent with a history of vicariant differentiation of disjunct populations. We infer that an early disjunction to develop in the species distribution was that across the Lower Murray Basin, an important biogeographical barrier separating many dry sclerophyll plant taxa in southeastern Australia. Additionally, our results suggest that the western populations fragmented earlier than the eastern ones. Fragmentation, both west and east of the Murray Basin, is likely tied to climatic changes associated with glacial‐interglacial cycles although it remains possible that major geological events including uplift of the Mount Lofty Ranges and basalt flows in the Newer Volcanics Province also played a role.
Publisher: Springer Science and Business Media LLC
Date: 22-08-2016
Publisher: Springer Science and Business Media LLC
Date: 24-05-2019
Publisher: CSIRO Publishing
Date: 2008
DOI: 10.1071/SB07038
Abstract: Sequences of the internal transcribed spacers (ITS) of nuclear rDNA were obtained for a broad range of dendrobium orchids for phylogenetic analysis using parsimony. A progressive approach was used to identify functional outgroups for analysis of all taxa in Dendrobium sect. Dendrocoryne. Our first, broadest analysis confirmed the results of other workers that Dendrobium sensu lato includes a major Australasian clade and a sister Asian clade. In the Australasian clade, the New Zealand species D. cunninghamii (=gen. Winika, Clements et al. 1997) was identified as the sister group to a well supported clade that includes the genera Cadetia, Diplocaulobium and Flickingeria, and Dendrobium sects Grastidium, Latouria, Spatulata, Australorchis (=gen. Australorchis), Rhizobium (= gen. Dockrillia) and Dendrocoryne. Sect. Dendrocoryne is probably polyphyletic, with two species, D. aemulum and D. callitrophilum (=gen. Tropilis), outside the main group and sect. Rhizobium (= gen. Dockrillia) nested within it. Sect. Australorchis (= gen. Australorchis) is possibly the sister group to the clade of Rhizobium plus the main group of Dendrocoryne. Thelychiton (a genus reinstated for several species in Dendrocoryne) is polyphyletic, given that Tetrabaculum (=D. tetragonum complex) and Dockrillia fall within the same clade. The splitting of the Australasian dendrobiums into various genera by other authors is excessive and unnecessary, and alternative taxonomic treatments are offered here for debate. Our study included accessions for all varieties in the following three widespread eastern Australian species: D. speciosum, D. kingianum and D. tetragonum. Each of these species showed significant sequence ergence between particular geographic regions, but some varieties had identical sequences. The splitting of D. speciosum into 11 species is not supported. We identified pseudogenes in the ITS region for D. fleckeri and D. finniganense, which appear to have evolved before these two species erged, but support their sister relationship. Sequences for D. callitrophilum and D. (Grastidium) baileyi (the latter from GenBank) also appear to be pseudogenes, and these taxa need further study.
Publisher: Magnolia Press
Date: 19-09-2016
DOI: 10.11646/PHYTOTAXA.275.2.2
Abstract: Chamaescilla is an endemic Australian genus, currently placed in the Asparagaceae, alongside other Australian endemic taxa in the tribe Lomandroideae. A recent molecular phylogeny indicated a relationship with another partly Australian family, the Xanthorrhoeaceae, but was not commented on by the authors. Here we added DNA sequence data for a single Chamaescilla specimen to an alignment representing all families in the Asparagales and performed parsimony and Bayesian phylogenetic analyses. Chamaescilla was strongly resolved as belonging to Xanthorrhoeaceae, subfamily Hemerocallidoideae, alongside two non-Australian members, Simethis and Hemerocallis in the hemerocallid clade. This position is corroborated by morphological characters, including pollen grain shape. We also produced an age-calibrated phylogeny and infer that the geographic distribution of the clade is the result of long distance dispersal between the Eocene and Miocene.
Publisher: Springer Science and Business Media LLC
Date: 15-04-2023
DOI: 10.1007/S00606-023-01851-5
Abstract: Spyridium parvifolium is a widespread and morphologically variable shrub from south-eastern Australia. Several varieties have been recognised, and there is disagreement on the accepted taxonomy between Australian states. This study investigated the phylogeography of the species and assessed genetic distinctiveness of its morphological variants. Nuclear ribosomal DNA and complete chloroplast genomes from seventy-two s les of S. parvifolium and seven s les from closely related species were sequenced and analysed using both Bayesian and maximum likelihood phylogenetic methods. The results showed incongruence in the placement of several associated taxa ( S. cinereum , S. obcordatum and S. daltonii ), plausibly due to long branch attraction, introgression or incomplete lineage sorting. Spyridium parvifolium was resolved as paraphyletic in both phylogenies, with accessions from west of the Murray Darling Depression ergent from those east of the Depression. We found evidence of isolation within S. parvifolium on the inland side of the Great Dividing Range and recent gene flow across Bass Strait. The variants of S. parvifolium were not supported as genetically distinct, and with the prevalence of several variants at single sites and morphological intergrades between variants, we conclude that the taxon is a single, morphologically variable species and that no infraspecific classification is warranted.
Publisher: CSIRO Publishing
Date: 2010
DOI: 10.1071/SB10028
Abstract: The fern Asplenium hookerianum Colenso (Aspleniaceae) is indigenous to New Zealand and Australia. In New Zealand, it is widespread and genetically erse, with 26 haplotypes previously identified for the chloroplast trnL–trnF locus. In Australia, A. hookerianum is currently known only from two small populations in Victoria and two in Tasmania. The present study assessed the ersity, relationships and biogeographic history of the Australian populations. A single trnL–trnF haplotype was identified in Tasmanian populations, and it was shared with populations in south-western New Zealand. The single haplotype found in Victorian populations was unique and most similar to a haplotype found in populations from central and eastern North Island, New Zealand. Relationships among haplotypes suggest that the two Australian haplotypes are derived within the group (not close to the root of the haplotype network) and only distantly related. This pattern is consistent with two independent dispersals of A. hookerianum from New Zealand to Australia. These findings are unique in providing evidence for more than one trans-Tasman dispersal event in a species of vascular plant.
Publisher: Wiley
Date: 23-07-2022
DOI: 10.1111/TPJ.15866
Abstract: In a cross‐continental research initiative, including researchers working in Australia and Denmark, and based on joint external funding by a 3‐year grant from the Novo Nordisk Foundation, we have used DNA sequencing, extensive chemical profiling and molecular networking analyses across the entire Eremophila genus to provide new knowledge on the presence of natural products and their bioactivities using polypharmocological screens. Sesquiterpenoids, diterpenoids and dimers of branched‐chain fatty acids with previously unknown chemical structures were identified. The collection of plant material from the Eremophila genus was carried out according to a ‘bioprospecting agreement’ with the Government of Western Australia. We recognize that several Eremophila species hold immense cultural significance to Australia's First Peoples. In spite of our best intentions to ensure that new knowledge gained about the genus Eremophila and any potential future benefits are shared in an equitable manner, in accordance with the Nagoya Protocol, we encounter serious dilemmas and potential conflicts in making benefit sharing with Australia's First Peoples a reality.
Publisher: CSIRO Publishing
Date: 1994
DOI: 10.1071/SB9940275
Abstract: Queensland populations of Eriostemon angustifolius P.G. Wilson subsp. angustifolius are recognised as a new species, E. sporadicus. This taxon is characterised by the sporadic pattern of cork formation on branchlets, shortly clavate leaves with rounded, glandular apices, and solitary, shortly pedicellate flowers not subtended by basal bracts. Illustrations, photographs and photomicrographs of the new taxon are included.
Publisher: Wiley
Date: 17-06-2013
DOI: 10.1111/JBI.12145
Publisher: Wiley
Date: 25-09-2008
Publisher: Wiley
Date: 04-01-2011
Publisher: CSIRO Publishing
Date: 2015
DOI: 10.1071/SB15008
Abstract: As currently circumscribed, Boronia (Rutaceae) is a large Australian genus of 148 species distributed in all states and mainland territories, and Boronella is confined to New Caledonia and contains ~four species. We present molecular phylogenetic analyses of these genera, based on chloroplast (trnL–trnF) and nuclear (ITS, ETS) DNA sequences, to assess their relationships and infrageneric classification. Analyses strongly support the monophyly of a Boronia+Boronella clade and that Boronella is nested within Boronia. They also support the monophyly of Boronella and Boronia sections Algidae, Valvatae and Cyanothamnus, and ser. Pedunculatae (sect. Boronia), but resolve sect. Boronia and ser. Boronia as polyphyletic. On the basis of these results, we propose a new classification wherein Boronella is transferred to Boronia and recognised at the rank of section, and a new name and two new combinations in Boronia are provided for the following three species: Boronia hartleyi Duretto & Bayly, Boronia pancheri (Baill.) Duretto & Bayly and Boronia parvifolia (Baker f.) Duretto & Bayly. A revised circumscription is presented for Boronia sect. Boronia, and Pedunculatae is elevated from a series to a section. The relationships and classification of some taxa require further clarification, either because of limited taxon s ling, or because some nodes in phylogenetic analyses are poorly resolved or supported.
Publisher: Informa UK Limited
Date: 12-2013
Publisher: Public Library of Science (PLoS)
Date: 18-04-2018
Publisher: CSIRO Publishing
Date: 2014
DOI: 10.1071/SB14033
Abstract: This study presents a molecular phylogeny of Zieria Sm., a genus of shrubs and small trees, with 59 species in Australia and one endemic to New Caledonia. The phylogeny is based on four cpDNA markers and 116 s les representing all species of Zieria except one, and the monotypic outgroup Neobyrnesia suberosa. The New Caledonian species, Z. chevalieri, was resolved as sister to a well supported clade of all Australian taxa. There was widespread incongruence between the cpDNA tree and species-level taxonomy, with 14 species shown as polyphyletic or paraphyletic. These included widespread species (e.g. Z. smithii and Z. arborescens, each falling in at least four well supported clades) and some with narrow geographic ranges (e.g. Z. alata and Z. oreocena). No species represented by three or more s les was resolved as monophyletic. We suggest that a combination of factors explains this incongruence, including regional cpDNA introgression (chloroplast capture), incomplete lineage sorting and inappropriate taxonomic boundaries. The cpDNA phylogeny provides useful insight into the evolution of Zieria but, because of its complexity, does not provide a clear basis for assessing phylogenetic relationships and monophyly of taxa. Better understanding of relationships, taxon limits and evolutionary processes in Zieria will require comparisons with nuclear DNA markers and critical assessment of morphological and genetic variation in widespread species.
Publisher: Springer Science and Business Media LLC
Date: 10-07-2021
No related grants have been discovered for Michael Bayly.