Articles citing this paper
Cladistic biogeography of waratahs (Proteaceae, Embothrieae) and their allies across the pacific
PH Weston and MD Crisp
7(3) pp.225 - 249
34 articles found in Crossref database.
A new model Gondwanan taxon: systematics and biogeography of the harvestman family Pettalidae (Arachnida, Opiliones, Cyphophthalmi), with a taxonomic revision of genera from Australia and New Zealand
Boyer Sarah L., Giribet Gonzalo
Cladistics. 2007 23(4). p.337
Isolation and characterization of microsatellite markers for the waratah, Telopea speciosissima (Proteaceae)
PORTER CAROLYN,
RYMER PAUL D., ROSSETTO MAURIZIO
Molecular Ecology Notes. 2006 6(2). p.446
Taxonomic patterns in the distribution of polyols within the Proteaceae
Bieleski R. L., Briggs B. G.
Australian Journal of Botany. 2005 53(3). p.205
Microsatellite variation for phylogenetic, phylogeographic and population-genetic studies in Lomatia (Proteaceae)
Milner Melita L.,
McIntosh Emma J.,
Crisp Michael D.,
Weston Peter H., Rossetto Maurizio
Australian Systematic Botany. 2013 26(3). p.186
A cladistic scenario of Southern Pacific bio-geographical history based on Nothofagus dis-persal and vicariance analysis
ZHANG MingLi
Journal of Arid Land. 2011 3(2). p.104
A Southern Hemisphere origin for campanulid angiosperms, with traces of the break-up of Gondwana
Beaulieu Jeremy M,
Tank David C, Donoghue Michael J
BMC Evolutionary Biology. 2013 13(1). p.80
Biogeography of the Gondwanan genus Lomatia (Proteaceae): vicariance at continental and intercontinental scales
Milner Melita L.,
Weston Peter H.,
Rossetto Maurizio, Crisp Michael D.
Journal of Biogeography. 2015 42(12). p.2440
Proteaceae Leaf Fossils: Phylogeny, Diversity, Ecology and Austral Distributions
Carpenter Raymond J.
The Botanical Review. 2012 78(3). p.261
Areas and algorithms: evaluating numerical approaches for the delimitation of areas of endemism in the Canary Islands archipelago
Carine Mark A.,
Humphries Christopher J.,
Guma I. Rosana,
Reyes‐Betancort J. Alfredo, Santos Guerra Arnoldo
Journal of Biogeography. 2009 36(4). p.593
Phylogeny of Henicopidae (Chilopoda: Lithobiomorpha): a combined analysis of morphology and five molecular loci
Edgecombe Gregory D.,
Giribet Gonzalo, Wheeler Ward C.
Systematic Entomology. 2002 27(1). p.31
Do phytogeographic patterns reveal biomes or biotic regions?
Murphy Daniel J.,
Ebach Malte C.,
Miller Joseph T.,
Laffan Shawn W.,
Cassis Gerasimos,
Ung Visotheary,
Thornhill Andrew H.,
Kerr Nunzio, Tursky Melinda L.
Cladistics. 2019 35(6). p.654
Systematic studies in Lepidosperma (Cyperaceae: Schoeneae) with particular reference to L. laterale
Hodgon John,
Bruhl Jeremy J., Wilson Karen L.
Australian Systematic Botany. 2006 19(3). p.273
NOTHOFAGUSAND PACIFIC BIOGEOGRAPHY
Linder H. Peter, Crisp Michael D.
Cladistics. 1995 11(1). p.5
A REVISION AND PHYLOGENETIC ANALYSIS OF THE NERTHRA ELONGATA SPECIES-GROUP (HETEROPTERA: GELASTOCORIDAE: NERTHRINAE)
Cassis Gerasimos, Silveira Rossana
Journal of the New York Entomological Society. 2002 110(2). p.143
A smaller Macadamia from a more vagile tribe: inference of phylogenetic relationships, divergence times, and diaspore evolution in Macadamia and relatives (tribe Macadamieae; Proteaceae)
Mast Austin R.,
Willis Crystal L.,
Jones Eric H.,
Downs Katherine M., Weston Peter H.
American Journal of Botany. 2008 95(7). p.843
The importance of looking at small-scale patterns when inferring Gondwanan biogeography: a case study of the centipedeParalamyctes(Chilopoda, Lithobiomorpha, Henicopidae)
GIRIBET GONZALO, EDGECOMBE GREGORY D.
Biological Journal of the Linnean Society. 2006 89(1). p.65
Predominantly Eastward Long-Distance Dispersal in Pantropical Ochnaceae Inferred From Ancestral Range Estimation and Phylogenomics
Schneider Julio V.,
Jungcurt Tanja,
Cardoso Domingos,
Amorim André M.,
Paule Juraj, Zizka Georg
Frontiers in Ecology and Evolution. 2022 10
Southern Hemisphere Biogeography Inferred by Event-Based Models: Plant versus Animal Patterns
Sanmartín Isabel,
Ronquist Fredrik, Cunningham Cliff
Systematic Biology. 2004 53(2). p.216
Explosive radiation of the genus Schizopera on a small subterranean island in Western Australia (Copepoda:Harpacticoida): unravelling the cases of cryptic speciation, size differentiation and multiple invasions
Karanovic Tomislav, Cooper Steven J. B.
Invertebrate Systematics. 2012 26(2). p.115
Cuticular morphology and aspects of the ecology and fossil history of North Queensland rainforest Proteaceae
CARPENTER RAYMOND J.
Botanical Journal of the Linnean Society. 1994 116(4). p.249
Phylogeny and biogeography of the Chileanpseudopanax laetevirens
Mitchell Anthony D., Wagstaff Steven J.
New Zealand Journal of Botany. 2000 38(3). p.409
Maintenance of strong morphological differentiation despite ongoing natural hybridization between sympatric species of Lomatia (Proteaceae)
McIntosh Emma J.,
Rossetto Maurizio,
Weston Peter H., Wardle Glenda M.
Annals of Botany. 2014 113(5). p.861
Early-Middle Pleistocene leaves of extinct and extant Proteaceae from western Tasmania, Australia
JORDAN GREGORY J.
Botanical Journal of the Linnean Society. 1995 118(1). p.19
Bud and shoot structure may relate to the distribution area of South American Proteaceae tree species
Magnin Amaru,
Grosfeld Javier,
Barthélémy Daniel, Puntieri Javier
Flora - Morphology, Distribution, Functional Ecology of Plants. 2012 207(8). p.599
Dispersal largely explains the Gondwanan distribution of the ancient tropical clusioid plant clade
Ruhfel Brad R.,
Bove Claudia P.,
Philbrick C. Thomas, Davis Charles C.
American Journal of Botany. 2016 103(6). p.1117
Unique and highly specific cyanogenic glycoside localization in stigmatic cells and pollen in the genus Lomatia (Proteaceae)
Ritmejerytė Edita,
Boughton Berin A,
Bayly Michael J, Miller Rebecca E
Annals of Botany. 2020 126(3). p.387
Elevated temperature is more effective than elevated [CO2] in exposing genotypic variation in Telopea speciosissima growth plasticity: implications for woody plant populations under climate change
Huang Guomin,
Rymer Paul D.,
Duan Honglang,
Smith Renee A., Tissue David T.
Global Change Biology. 2015 21(10). p.3800
Leaf Architecture and Epidermal Characters of the Argentinean Species of Proteaceae
Gonzalez C. C.,
Gandolfo M. A., Cúneo R. N.
International Journal of Plant Sciences. 2004 165(4). p.521
Palynostratigraphy of the murray basin, inland Southeastern Australia
Macphail M.K.
Palynology. 1999 23(1). p.197
Chromosome‐level de novo genome assembly of Telopea speciosissima (New South Wales waratah) using long‐reads, linked‐reads and Hi‐C
Chen Stephanie H.,
Rossetto Maurizio,
van der Merwe Marlien,
Lu‐Irving Patricia,
Yap Jia‐Yee S.,
Sauquet Hervé,
Bourke Greg,
Amos Timothy G.,
Bragg Jason G., Edwards Richard J.
Molecular Ecology Resources. 2022 22(5). p.1836
Molecular dating of the ‘Gondwanan’ plant family Proteaceae is only partially congruent with the timing of the break‐up of Gondwana
Barker Nigel P.,
Weston Peter H.,
Rutschmann Frank, Sauquet Hervé
Journal of Biogeography. 2007 34(12). p.2012
The impact of multiple biogeographic barriers and hybridization on species‐level differentiation
Milner Melita L.,
Rossetto Maurizio,
Crisp Michael D., Weston Peter H.
American Journal of Botany. 2012 99(12). p.2045
Leaf fossils of Banksia (Proteaceae) from New Zealand: An Australian abroad
Carpenter Raymond J.,
Jordan Gregory J.,
Lee Daphne E., Hill Robert S.
American Journal of Botany. 2010 97(2). p.288
Solar radiation as a factor in the evolution of scleromorphic leaf anatomy in Proteaceae
Jordan Gregory J.,
Dillon Rebecca A., Weston Peter H.
American Journal of Botany. 2005 92(5). p.789
