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RESEARCH ARTICLE
Contents Vol 58(6)

A wide diversity of epicormic structures is present in Myrtaceae species in the northern Australian savanna biome – implications for adaptation to fire

G. E. Burrows A D , S. K. Hornby B , D. A. Waters A , S. M. Bellairs B , L. D. Prior C and D. M. J. S. Bowman C
+ Author Affiliations
- Author Affiliations

A Institute for Land, Water and Society, Charles Sturt University, Locked Bag 588, Wagga Wagga, NSW 2678, Australia.

B School of Environmental and Life Sciences, Charles Darwin University, Darwin, NT 0909, Australia.

C School of Plant Science, Private Bag 55, Hobart, Tas. 7001, Australia.

D Corresponding author. Email: gburrows@csu.edu.au

Australian Journal of Botany 58(6) 493-507 https://doi.org/10.1071/BT10107
Submitted: 6 May 2010  Accepted: 21 July 2010   Published: 8 September 2010

Abstract

Recent research has shown that the eucalypts of southern Australia have an unusual and apparently fire-adapted epicormic structure. By studying a range of myrtaceous species from northern Australia we hoped to determine if this structure was also present in northern eucalypts. We anatomically examined the epicormic structures from 21 myrtaceous species in 11 genera from the north of the Northern Territory, Australia. An extremely wide diversity of epicormic structures was found, ranging from buds absent, buds at or near the bark surface, to bud-forming meristems in the innermost bark. These Myrtaceae species displayed a far greater variation in epicormic structure than recorded in any other family. This is possibly a reflection of the importance of the resprouter strategy, a long fire history in Australia and the ecological diversification of the Myrtaceae. Nonetheless, all the investigated eucalypts (northern and southern) possessed the same specialised, apparently fire-adapted, epicormic structure. This is remarkably consistent given the taxonomic, geographical and morphological diversity of the eucalypts.


Acknowledgements

We thank Chris Weston for cutting some of the sections. We thank CSIRO Atherton Arboretum for providing material of Allosyncarpia ternata and Stockwellia quadrifida. We thank Guy and Dimity Boggs and Ray Petherick Snr for permission to sample on their properties. We thank the Hermon Slade Foundation for financial support and Charles Darwin University for the salary of SKH and some operational funding.


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