S.K. Hornby scite author profile

S.K. Hornby

2Publications

117Citation Statements Received

49Citation Statements Given

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Charles Darwin University, Charles Sturt University

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

et al. 2010

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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.

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Leaf Axil Anatomy and Bud Reserves in 21 Myrtaceae Species from Northern Australia

Burrows¹,

Hornby

Waters

et al. 2008

International Journal of Plant Sciences

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Dormant axillary buds allow plants to repair minor damage to their canopies. In woody plants, these buds subsequently develop into epicormic structures that may allow vegetative recovery after major disturbances. They are an essential but little-studied part of the persistence niche. We wondered what bud reserves were present in the leaf axils of northern Australian myrtaceous species, what levels of protection they have, and how this relates to the ecology of these species. Axillary buds of 21 species from 10 genera of northern Australian Myrtaceae were examined anatomically. All species possessed axillary buds in all axils examined, and accessory buds were recorded in 86% of species. The species exhibited an extremely wide range of variation-from axillary buds that consisted of only an apical dome with no leaf primordia (Calytrix exstipulata) to axils with a complex array of accessory buds and meristems located beneath the axil surface (Corymbia and Eucalyptus). The axils of the Eucalyptus and Corymbia species had a greater number of and better protected axillary buds and meristems than the other species studied, including some of their closest relatives, Arillastrum, Allosyncarpia, and Stockwellia. All investigated species had an excellent meristem reserve for recovery of photosynthetic capacity after minor canopy damage and for developing epicormic structures for sprouting after more severe damage. The complex and well-protected axillary bud or meristem structures of Corymbia and Eucalyptus may be an important component of the success of these genera in Australia.

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S.K. Hornby

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

Leaf Axil Anatomy and Bud Reserves in 21 Myrtaceae Species from Northern Australia

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