PSITTACIFORMES WAGLER, 1830 STRIGOPOIDEA BONAPARTE, 1849
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publication ID |
https://doi.org/ 10.1111/zoj.12164 |
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persistent identifier |
https://treatment.plazi.org/id/8E467904-FFEE-FFE5-2DB5-FD82E022F92C |
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treatment provided by |
Carolina |
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scientific name |
PSITTACIFORMES WAGLER, 1830 STRIGOPOIDEA BONAPARTE, 1849 |
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PSITTACIFORMES WAGLER, 1830 STRIGOPOIDEA BONAPARTE, 1849 View in CoL
PHYLOGENETIC ANALYSES
Phylogenetic analyses unequivocally group the Chatham Islands parrot with the kaka ( Fig. 5). This node receives high support from Bayesian (Bayesian posterior probablity = 1.0), maximum-likelihood [bootstrap proportion (BS) = 99%], and parsimony (BS = 99%) approaches. Amongst the alignment sites covered by our Chatham Islands parrot contigs, the kaka and the Chatham Islands parrot share eight synapomorphic nucleotide changes whereas only a single homoplastic site is shared between the Chatham Islands parrot and the kea.
We infer the mean age of the kaka/ Chatham Islands parrot node to be 1.74 Myr [0.53–3.29 Myr 95% highest posterior density (HPD)]. Furthermore, we estimate a mean age of 5.13 Myr (2.74–7.96 Myr 95% HPD) for the divergence between the kea and kaka/ Chatham Islands parrot lineages. Our results do not appear to be biased by the inclusion of the extinct Chatham Islands parrot; analysis of the data with this taxa excluded yielded a comparable mean estimate of 4.96 Myr (2.60– 7.74 Myr 95% HPD) for the divergence between kea and kaka.
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