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RESEARCH ARTICLE
Contents Vol 106(4)

Adaptive divergence in the Superb Fairy-wren (Malurus cyaneus): a mainland versus island comparison of morphology and foraging behaviour

Beth E. Schlotfeldt A and Sonia Kleindorfer A B
+ Author Affiliations
- Author Affiliations

A School of Biological Sciences, Flinders University, Bedford Park, SA 5042, Australia.

B Corresponding author. Email: sonia.kleindorfer@flinders.edu.au

Emu 106(4) 309-319 https://doi.org/10.1071/MU06004
Submitted: 27 January 2006  Accepted: 14 July 2006   Published: 16 November 2006

Abstract

Understanding patterns of adaptive divergence is a cornerstone for understanding the process of speciation. The theory of ecological speciation predicts that natural selection shapes adaptive divergence. In this observational study, we examined the first phase of ecological speciation, namely adaptive divergence in foraging behaviour and morphology across populations (island and mainland sites) of the sexually dimorphic Superb Fairy-wren (Malurus cyaneus) that have been separated for approximately 9000 years. Current island theory predicts larger body-size in island species, as well as more generalist foraging and occupation of a wider ecological niche that is favoured by large body-size. We examined the vegetation structure across replicate study areas on Kangaroo Island and the mainland Mount Lofty Ranges in South Australia and found significant differences in vegetation structure important for Superb Fairy-wrens (percentage bare earth, shrub size and shrub abundance). Compared with mainland birds, island birds of both sexes: (1) occupied a wider niche breadth; (2) were significantly larger in body-size; and (3) varied less in morphology. Between the sexes: (1) there were few inter-sexual foraging differences; (2) males had a larger body-size and bill-length at both island and mainland locations; and (3) females had larger bill-width and bill-depth at both locations. These findings support the hypothesis of adaptive divergence in this species, with evidence that vegetation structure is important in their foraging behaviour and affects their morphology across locations (niche breadth was potentially favoured by a different interspecific community). The lack of consistent sexual differences in foraging ecology suggests that the patterns of sexual dimorphism may be shaped by reproductive roles rather than vegetation structure in this species. The categorisation of the Kangaroo Island population as a separate subspecies (M. c. ashbyi) is supported by these findings.


Acknowledgments

This study was funded by the Conservation Council of South Australia and the South Australian Department for Environment and Heritage, with awards to S. Kleindorfer. Sincere thanks to Peggy Rismiller and Mike McKelvey at Pelican Lagoon Research Station for use of the research facility and stimulating discussion, staff at the Flinders Chase National Park for logistical support, and Diane Colombelli-Négrel, Sarah Lambert, and Margot Oorebeek for field assistance.


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