Abstract
The New Zealand Dotterel (Charadrius obscurus), an endangered shorebird of the family Charadriidae, is endemic to New Zealand where two subspecies are recognized. These subspecies are not only separated geographically, with C. o. aquilonius being distributed in the New Zealand North Island and C. o. obscurus mostly restricted to Stewart Island, but also differ substantially in morphology and behavior. Despite these divergent traits, previous work has failed to detect genetic differentiation between the subspecies, and the question of when and where the two populations separated is still open. Here, we use mitochondrial and nuclear markers to address molecular divergence between the subspecies, and apply maximum likelihood and Bayesian methods to place C. obscurus within the non-monophyletic genus Charadrius. Despite very little overall differentiation, distinct haplotypes for the subspecies were detected, thus supporting molecular separation of the northern and southern populations. Phylogenetic analysis recovers a monophyletic clade combining the New Zealand Dotterel with two other New Zealand endemic shorebirds, the Wrybill and the Double-Banded Plover, thus suggesting a single dispersal event as the origin of this group. Divergence dates within Charadriidae were estimated with BEAST 2, and our results indicate a Middle Miocene origin of New Zealand endemic Charadriidae, a Late Miocene emergence of the lineage leading to the New Zealand Dotterel, and a Middle to Late Pleistocene divergence of the two New Zealand Dotterel subspecies.
Highlights
According to the IUCN Red List, the New Zealand Dotterel, or New Zealand Plover (Charadrius obscurus), is an endangered species and facing a very high risk of extinction in the wild [1]
In order to infer the phylogenetic placement of the New Zealand Dotterel (Charadrius obscurus) within the family of Charadriidae using molecular data, we sequenced mitochondrial and nuclear sequences
The control region (CR) sequences were excluded from the phylogenetic analysis since the interspecific CR data could not be aligned with confidence
Summary
According to the IUCN Red List, the New Zealand Dotterel, or New Zealand Plover (Charadrius obscurus), is an endangered species and facing a very high risk of extinction in the wild [1] These relatively large shorebirds of the family Charadriidae are endemic to New Zealand (NZ) and have not yet been molecularly placed in a phylogeny with their allies. Biochemical and molecular phylogenetic investigations disagreed on the relationships of shorebirds (Charadriiformes), several studies using a diverse choice of genetic markers have attempted to solve the shorebird phylogeny [2,3,4,5] These studies and a supertree approach focusing on the phylogeny of Charadriiformes left most nodes within Charadriidae unresolved [6]. This demonstrates the need for a better resolved and more comprehensive phylogeny in order to resolve the position of taxa assigned to the genus Charadrius, including the New Zealand Dotterel
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