Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/csiro-publishing/taxonomic-resolution-of-the-tetratheca-hirsuta-elaeocarpaceae-species-XlC5mDGwuz
References (53)
-
J. Gower (1971)
A General Coefficient of Similarity and Some of Its PropertiesBiometrics, 27
-
(2008)
Phylogenetics and evolutionary dynamics ofTetratheca -
C. Parmesan (2006)
Ecological and Evolutionary Responses to Recent Climate ChangeAnnual Review of Ecology, Evolution, and Systematics, 37
-
T. Hall (1999)
BIOEDIT: A USER-FRIENDLY BIOLOGICAL SEQUENCE ALIGNMENT EDITOR AND ANALYSIS PROGRAM FOR WINDOWS 95/98/ NT -
(2004)
Use of nuclear genes for phylogeny -
M. Simmons, H. Ochoterena (2000)
Gaps as characters in sequence-based phylogenetic analyses.Systematic biology, 49 2
-
(1965)
Descriptive Catalogue of West Australian Plants. -
W. Jordan, Mark Courtney, J. Neigel (1996)
LOW LEVELS OF INTRASPECIFIC GENETIC VARIATION AT A RAPIDLY EVOLVING CHLOROPLAST DNA LOCUS IN NORTH AMERICAN DUCKWEEDS (LEMNACEAE)American Journal of Botany, 83
-
Small RL Cronn RC Wendel JF
Use of nuclear genes for phylogeny reconstruction in plants. -
(2015)
Threatened and Priority Flora list for Western Australia. -
Chia-Ying Chen, Bo-Kai Liang, Jeng‐Der Chung, Chung-Te Chang, Yi-Chiang Hsieh, T. Lin, S. Hwang (2014)
Demography of the upward-shifting temperate woody species of the Rhododendron pseudochrysanthum complex and ecologically relevant adaptive divergence in its trailing edge populationsTree Genetics & Genomes, 10
-
K. Queiroz (2007)
Species concepts and species delimitation.Systematic biology, 56 6
-
R. Cronn, R. Small, T. Haselkorn, J. Wendel (2002)
Rapid diversification of the cotton genus (Gossypium: Malvaceae) revealed by analysis of sixteen nuclear and chloroplast genes.American journal of botany, 89 4
-
Marti Anderson (2002)
Canonical Analysis of Principal coordinates -
F. Ronquist, J. Huelsenbeck (2003)
MrBayes 3: Bayesian phylogenetic inference under mixed modelsBioinformatics, 19 12
-
Joy Thompson (1976)
A revision of the genus Tetratheca (Tremandraceae)Telopea, 1
-
K. Müller (2005)
SeqState: primer design and sequence statistics for phylogenetic DNA datasets.Applied bioinformatics, 4 1
-
M. Kirkpatrick, N. Barton (1997)
Evolution of a Species' RangeThe American Naturalist, 150
-
T. Hardig, P. Soltis, D. Soltis (2000)
Diversification of the North American shrub genus Ceanothus (Rhamnaceae): conflicting phylogenies from nuclear ribosomal DNA and chloroplast DNA.American journal of botany, 87 1
-
G. Tyler (1987)
The Evolution of Species?Journal of the Operational Research Society, 38
-
B. Schlick-Steiner, F. Steiner, B. Seifert, C. Stauffer, E. Christian, R. Crozier (2010)
Integrative taxonomy: a multisource approach to exploring biodiversity.Annual review of entomology, 55
-
T. Abeli, R. Gentili, A. Mondoni, S. Orsenigo, G. Rossi (2014)
Effects of marginality on plant population performanceJournal of Biogeography, 41
-
R. Small, R. Cronn, J. Wendel (2004)
L. A. S. JOHNSON REVIEW No. 2 Use of nuclear genes for phylogeny reconstruction in plantsAustralian Systematic Botany, 17
-
(2005)
SeqState -
D. Levin (1993)
Local speciation in plants: the rule not the exceptionSystematic Botany, 18
-
P. Lange, R. Smissen, S. Wagstaff, D. Keeling, B. Murray, H. Toelken (2010)
A molecular phylogeny and infrageneric classification for Kunzea (Myrtaceae) inferred from rDNA ITS and ETS sequencesAustralian Systematic Botany, 23
-
N. Myers, R. Mittermeier, C. Mittermeier, G. Fonseca, J. Kent (2000)
Biodiversity hotspots for conservation prioritiesNature, 403
-
(1904)
Fragmenta PhytographiaeAustraliae occidentalis. Beitrage zur Kenntnis der Pflanzen Westaustraliens, ihrer Verbreitung und ihrer Lebensverhaltnisse -
M. Cummings, S. Handley, Daniel Myers, D. Reed, A. Rokas, K. Winka (2003)
Comparing bootstrap and posterior probability values in the four-taxon case.Systematic biology, 52 4
-
P. Erixon, B. Svennblad, T. Britton, B. Oxelman (2003)
Reliability of Bayesian posterior probabilities and bootstrap frequencies in phylogenetics.Systematic biology, 52 5
-
(2000)
SoltisDE (2000)Diversification of theNorthAmerican shrub genus Ceanothus (Rhamnaceae): conflicting phylogenies from nuclear ribosomal DNA and chloroplast DNA -
S. Hopper, P. Gioia (2004)
The Southwest Australian Floristic Region: Evolution and Conservation of a Global Hot Spot of BiodiversityAnnual Review of Ecology, Evolution, and Systematics, 35
-
S. Wichman, S. Wright, E. Cameron, D. Keeling, R. Gardner (2002)
Elevated genetic heterogeneity and Pleistocene climatic instability: inferences from nrDNA in New Zealand Coprosma (Rubiaceae)Journal of Biogeography, 29
-
M. Alfaro, S. Zoller, F. Lutzoni (2003)
Bayes or bootstrap? A simulation study comparing the performance of Bayesian Markov chain Monte Carlo sampling and bootstrapping in assessing phylogenetic confidence.Molecular biology and evolution, 20 2
-
Marti Anderson, T. Willis (2003)
CANONICAL ANALYSIS OF PRINCIPAL COORDINATES: A USEFUL METHOD OF CONSTRAINED ORDINATION FOR ECOLOGYEcology, 84
-
(1971)
Ageneral coef fi cient of similarity and someof its properties -
CHAD Watts, Amanda Fisher, CELENA Shrum, WENDY Newbold, Shannalee Hansen, Chang Liu, S. Kelchner (2008)
The D4 set: primers that target highly variable intron loops in plant chloroplast genomesMolecular Ecology Resources, 8
-
P. Pamilo, M. Nei (1988)
Relationships between gene trees and species trees.Molecular biology and evolution, 5 5
-
J. Thompson, D. Higgins, T. Gibson (1994)
CLUSTAL W: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, position-specific gap penalties and weight matrix choice.Nucleic acids research, 22 22
-
J. Felsenstein (2005)
Evolutionary trees from DNA sequences: A maximum likelihood approachJournal of Molecular Evolution, 17
-
Jordan WC Courtney MW Neigel JE
Low levels of intraspecific genetic variation at a rapidly evolving chloroplast DNA locus in North American -
J. Shaw, Edgar Lickey, J. Beck, S. Farmer, Wusheng Liu, Jermey Miller, K. Siripun, C. Winder, E. Schilling, R. Small (2005)
The tortoise and the hare II: relative utility of 21 noncoding chloroplast DNA sequences for phylogenetic analysis.American journal of botany, 92 1
-
D. Yeates, A. Seago, L. Nelson, S. Cameron, L. Joseph, J. Trueman (2011)
Integrative taxonomy, or iterative taxonomy?Systematic Entomology, 36
-
D. Posada (2008)
jModelTest: phylogenetic model averaging.Molecular biology and evolution, 25 7
-
C. Linder, L. Rieseberg, L. McDade, J. Palmer (2004)
Reconstructing patterns of reticulate evolution in plants.American journal of botany, 91 10
-
J. Shaw, Edgar Lickey, E. Schilling, R. Small (2007)
Comparison of whole chloroplast genome sequences to choose noncoding regions for phylogenetic studies in angiosperms: the tortoise and the hare III.American journal of botany, 94 3
-
C. Gardner (1931)
Ennumeratio Plantarum Australie Occidentalis. A Systematic Census of the Plants occurring in Western Australia. -
T. Downing, P. Ladiges, M. Duretto (2008)
Trichome morphology provides phylogenetically informative characters for Tremandra, Platytheca and Tetratheca (former Tremandraceae)Plant Systematics and Evolution, 271
-
Bryan Carstens, Tara Pelletier, N. Reid, Jordan Satler (2013)
How to fail at species delimitationMolecular Ecology, 22
-
M. Byrne, M. Hankinson (2012)
Testing the variability of chloroplast sequences for plant phylogeographyAustralian Journal of Botany, 60
-
C. Jeffrey, B. Grieve, W. Blackall (1975)
How to Know Western Australian WildflowersKew Bulletin, 30
-
P. Pamilo, M. Nei (1998)
Relationships between Gene Trees and Species Trees1 -
J. Wege, K. Thiele, K. Shepherd, R. Butcher, T. Macfarlane, D. Coates (2014)
Strategic taxonomy in a biodiverse landscape: a novel approach to maximizing conservation outcomes for rare and poorly known floraBiodiversity and Conservation, 24
- Publisher
- CSIRO Publishing
- Copyright
- Copyright © The Author(s). Published by CSIRO Publishing
- ISSN
- 1030-1887
- eISSN
- 1446-4701
- DOI
- 10.1071/SB16040
- Publisher site
- See Article on Publisher Site
Abstract
The Tetratheca hirsuta Lindl. species complex from south-west Western Australia is one of the last unresolved complexes in this Australian endemic genus, and comprises the highly variable T. hirsuta, two rare, phrase-named taxa, and the closely allied T. hispidissima Steetz. An integrative approach, incorporating multivariate morphometric analysis and molecular phylogenetic and phenetic analyses of nrDNA (ETS) and cpDNA (ndhFtrnL, rpl16, trnStrnG5ʹ2S), was used to investigate taxonomic boundaries within the complex. Morphological data showed clear divergence within the complex, and allowed several taxonomically uncertain individuals to be assigned. Phenetic and phylogenetic analyses of ETS showed substantial congruence with morphology, indicating that the groups recognised through morphometric analyses are also genetically divergent. By comparison, the chloroplast regions yielded incongruent gene trees, perhaps owing to incomplete lineage sorting, hybridisation or slow evolution of cpDNA. The present results support the recognition of the following four taxa: a morphologically and geographically expanded T. hispidissima, which is highly divergent from the remainder of the complex, and a closer grouping of T. hirsuta subsp. boonanarring Joyce & R.Butcher subsp. nov., T. hirsuta subsp. viminea (Lindl.) Joyce comb. et stat. nov. and T. hirsuta subsp. hirsuta.
Journal
Australian Systematic Botany – CSIRO Publishing
Published: May 31, 2017