Phylogeny reconstruction of Callitris Vent. (Cupressaceae) and its allies leads to inclusion of Actinostrobus within Callitris

Relationships between Callitris, Actinostrobus and Neocallitropsis, members of the southern hemisphere ‘callitroid clade’ (Callitroideae sensu Gadek et al. 2000) of Cupressaceae, are estimated using a database of 42 morphological and anatomical characters. Callitris is paraphyletic, with Actinostrobus being closer to a large well supported clade of 15 Australian species of Callitris than are C. baileyi, C. macleayana and the New Caledonian taxa. The New Caledonian unispecific endemic, Neocallitropsis, is sister to the clade comprising all Callitris and Actinostrobus species. There are marked differences between this estimate of the phylogeny and two recent estimates based on nuclear encoded DNA sequence data and non-molecular data, respectively, but some simlarities to the molecular estimate are highlighted and lead us here to formally include Actinostrobus within Callitris. Further molecular data are needed to test these results and explore the cause of the conflict between these estimates of the phylogeny within the group, and the status of Neocallitropsis.

[1]  W. T. Saxton Contributions to the Life-history of Actinostrobus pyramidalis, Miq , 1913 .

[2]  P. Ladiges,et al.  Phylogeny, major clades and infrageneric classification of Corymbia (Myrtaceae), based on nuclear ribosomal DNA and morphology , 2009 .

[3]  P. Tomlinson,et al.  Cone and Ovule Development in Callitris (Cupressaceae-Callitroideae) , 1989, Botanical Gazette.

[4]  P. Gadek,et al.  Biflavones of the subfamily cupressoideae, cupressaceae , 1985 .

[5]  R. Bradstock,et al.  Demographic characteristics of mallee pine (Callitris verrucosa) in fire-prone mallee communities of central New South Wales , 2002 .

[6]  P. Forster,et al.  Chemistry of the Australian Gymnosperms. Part IX. The Leaf Oils of the Australian Members of the Genus Callitris (Cupressaceae) , 2007 .

[7]  P. Evans,et al.  Callitroid (callitrisoid) thickening in Callitris. , 2000 .

[8]  J. B. Hair The Chromosomes of the Cupressaceae , 1968 .

[9]  P. Gadek,et al.  Biflavones of the subfamily callitroideae, cupressaceae , 1983 .

[10]  Michael S. Y. Lee Molecular and morphological datasets have similar numbers of relevant phylogenetic characters , 2004 .

[11]  Daphne E. Lee,et al.  Calamoid fossil palm leaves and fruits (Arecaceae: Calamoideae) from Late Eocene Southland, New Zealand , 2010 .

[12]  C. Donnelly,et al.  Morphology of Warts in the Tracheids of Cypress Pine (Callitris Vent.) , 1994 .

[13]  V. Sosa,et al.  Coding Quantitative Character Data for Phylogenetic Analysis: A Comparison of Five Methods , 2006 .

[14]  K. Thiele THE HOLY GRAIL OF THE PERFECT CHARACTER: THE CLADISTIC TREATMENT OF MORPHOMETRIC DATA , 1993, Cladistics : the international journal of the Willi Hennig Society.

[15]  Joy Thompson,et al.  Callitris glaucophylla, Australia's 'White Cypress Pine' - a new name for an old species , 1986 .

[16]  P. Gadek,et al.  Amentoflavones from Callitris species , 1982 .

[17]  W. T. Saxton Contributions to the Life-History of Callitris , 1910 .

[18]  J. Kirkpatrick,et al.  The distributions, dynamics and ecological differentiation of Callitris species in Tasmania , 1991 .

[19]  J. Felsenstein CONFIDENCE LIMITS ON PHYLOGENIES: AN APPROACH USING THE BOOTSTRAP , 1985, Evolution; international journal of organic evolution.

[20]  R. Olmstead,et al.  Phylogeny reconstruction: the role of morphology. , 2003, Systematic biology.

[21]  P. Gadek,et al.  Divergence, diversity and species of the Australasian Callitris (Cupressaceae) and allied genera: evidence from ITS sequence data , 2003 .

[22]  Christopher J. Quinn,et al.  Relationships within Cupressaceae sensu lato: a combined morphological and molecular approach. , 2000, American journal of botany.

[23]  R. Brummitt Further dogged defense of paraphyletic taxa , 2003 .