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Extreme reversed sexual size dimorphism in the extinct New Zealand moa Dinornis

Michael Bunce, Trevor H. Worthy, Tom Ford, Will Hoppitt, Eske Willerslev, Alexei Drummond and Alan Cooper ()
Additional contact information
Michael Bunce: University of Oxford
Trevor H. Worthy: Palaeofaunal Surveys
Tom Ford: University of Oxford
Will Hoppitt: University of Oxford
Eske Willerslev: University of Copenhagen
Alexei Drummond: University of Oxford
Alan Cooper: University of Oxford

Nature, 2003, vol. 425, issue 6954, 172-175

Abstract: Abstract The ratite moa (Aves; Dinornithiformes) were massive graviportal browsers weighing up to 250 kg (ref. 1) that dominated the New Zealand biota until their extinction approximately 500 yr ago. Despite an extensive Quaternary fossil record, moa taxonomy remains problematic1,2,3,4 and currently 11 species are recognized. Three Dinornis species were found throughout New Zealand and differed markedly in size (1–2 m height at back) and mass (from ∼34 to 242 kg)1. Surprisingly, ancient mitochondrial DNA sequences show that the three species were genetically indistinguishable within each island, but formed separate North and South Island clades. Here we show, using the first sex-linked nuclear sequences from an extinct species, that on each island the three morphological forms actually represent just one species, whose size varied markedly according to sex and habitat. The largest females in this example of extreme reversed sexual size dimorphism were about 280% the weight and 150% the height of the largest males, which is unprecedented among birds and terrestrial mammals. The combination of molecular and palaeontological data highlights the difficulties of analysing extinct groups, even those with detailed fossil records.

Date: 2003
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DOI: 10.1038/nature01871

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