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07 February 2019

DNA provides insights into penguin evolution and reveals two new extinct penguins

NEW ZEALAND – New research has improved our understanding of when and why penguins evolved, and has identified two recently extinct penguins from New Zealand’s remote Chatham Islands.

Penguins. Artist: Sean Murtha.
The painting, created to mark this research,
shows Eudyptes warhami in the foreground,
with Megadyptes antipodes richdalei in the background.
In the study, published online in the scientific journal Molecular Biology and Evolution, an international team of researchers sequenced mitochondrial genomes from all living and recently extinct penguin species. By analysing the genetic relationships of species, and using ancient fossil penguins to put a time scale on these, the team showed that many penguin species arose soon after the geological formation of islands, including those inhabiting the Antipodes and Chatham Islands, Macquarie Island, Gough Island and Galápagos Islands.

Lead author of the study, Otago University PhD candidate Theresa Cole, said, “From an evolutionary perspective, it’s fascinating to understand how and why species evolve. We were able to provide a comprehensive framework for exploring these questions about penguins, and demonstrated for the first time that islands may have played a key role in penguin evolution.”

The study, which included sequencing DNA and examining hundreds of prehistoric bones across New Zealand, also confirmed that a now extinct, unique crested penguin species existed on the Chatham Islands until a few centuries ago. The former existence of this species had long been suspected by study co-author Alan Tennyson of New Zealand's national museum, Te Papa, who had previously examined penguin bones from these islands.

However the study also threw up a complete surprise – revealing that a previously unknown small subspecies of yellow-eyed penguin also once existed on the Chatham Islands.

Study authors, including Cole, Tennyson, Dr Daniel Thomas from Massey University, and Dr Dan Ksepka from the US Bruce Museum, named the two new penguins Eudyptes warhami and Megadyptes antipodes richdalei in honour of John Warham and Lance Richdale, who carried out pioneering studies on penguins in New Zealand.

“Evidence suggests Eudyptes warhami and Megadyptes antipodes richdalei inhabited the Chatham Islands up until the last few hundred years, and became extinct only after humans arrived,” Cole said.

“The discovery of these two new penguins adds greatly to our understanding of how humans impacted New Zealand’s marine biodiversity in the past.”

“The more we learn about New Zealand’s past ecosystems, the more we realise how dramatically they have changed since human arrival,” said Otago University Professor Jon Waters, who helped supervise the study.

This new study follows another led by Cole and published recently in the journal Molecular Phylogenetics and Evolution, which used ancient DNA to show that prehistoric penguin bones from New Zealand included several species that no longer breed there.

The researchers are now extending the study by sequencing whole genomes to explore penguin evolution and adaptation.

Source
University of Otago, DNA provides insights into penguin evolution and reveals two new extinct penguin species [news release], 7 February 2019

Journal citation
Cole, T.L.,  Ksepka, D.T.,  Mitchell, K.J.,  Tennyson, A.J.D., Thomas, D.B.,  Pan, H., Zhang, G., ... Waters, J.M. (2019). Mitogenomes uncover extinct penguin taxa and reveal island formation as a key driver of speciation. Molecular Biology and Evolution, 36(4), 784–797. https://doi.org/10.1093/molbev/msz017

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