No, you can’t have a moa - the risks of resurrecting extinct species explored

09 May 2017

Can the huia escape the re-extinction vortex? The perils of resurrecting extinct species, such as the moa or huia, are discussed in a new paper led by University of Canterbury conservation geneticist Dr Tammy Steeves.

  • TammySteeves_SCI_block

    UC Senior Lecturer in Conservation and Evolutionary Genetics Dr Tammy Steeves says it is vital to consider evolutionary potential – the ability a species has to adapt to environmental change. “Small populations that lack genetic diversity are in danger of spiraling to the point of re-extinction. This scenario is called the re-extinction vortex.”

Can the huia escape the re-extinction vortex?

The perils of resurrecting extinct species, such as the moa or huia, will be discussed when a new paper, led by University of Canterbury conservation geneticist Dr Tammy Steeves, is published in international journal Functional Ecology this week.

The paper, written for a special feature on the ‘Ecology of De-extinction’, by Dr Steeves of UC’s School of Biological Sciences, along with Associate Professor Jeff Johnson, University of North Texas, and UC conservation geneticist Dr Marie Hale, highlights the perils of resurrecting species using only a few, genetically similar individuals.

“Simply put, the more genetic diversity a species has, the more likely it is that it will be able to adapt to a changing environment. Plus the more individuals a species has, the less likely it is to randomly lose genetic diversity over time,” Dr Steeves says.

The Senior Lecturer in Conservation and Evolutionary Genetics says it is vital to consider evolutionary potential – the ability a species has to adapt to environmental change.

“Small populations that lack genetic diversity are in danger of spiraling to the point of re-extinction. This scenario is called the re-extinction vortex.”

One of the key points considered in the journal’s special feature is that long extinct species, such as moa, are poor candidates for resurrection. More recently extinct species, such as the huia, may be better resurrection candidates. Aotearoa New Zealand’s largest wattlebird, the huia was made extinct in the early 20th century due to a combination of factors, including over-hunting for natural history collections and a fashion craze for its feathers.

Dr Steeves is not an advocate for or against de-extinction and she emphasises that meaningful conversations about resurrecting extinct treasured species will need to include relevant indigenous communities such as Māori iwi, rūnanga or hapū.

Maximising evolutionary potential in functional proxies for extinct species: a conservation genetic perspective on de-extinction by Tammy Steeves (University of Canterbury) et al, was published in Functional Ecology, May 2017.

Dr Steeves also wrote a primer on Conservation genetics of de-extinction for Sciblogs.

For further information please contact:

Margaret Agnew, Senior External Relations Advisor, University of Canterbury
Phone: +64 3 369 3631 | Mobile: +64 275 030 168margaret.agnew@canterbury.ac.nz
Tweet UC @UCNZ and follow UC on Facebook

Rock-climbing_EDU_block

To fall or not to fall: The Science of Rock-climbing

By their very nature, adventure sports involve managing risk, and rock climbing is no exception. This upcoming UC Connect public lecture will focus pr...

UCArts_ART_block

Student life returns to Christchurch’s Arts Centre

Student life has returned to the Arts Centre in Christchurch’s central city. The University of Canterbury’s Music and Classics programmes, along with...