Genetic history of endangered Australian songbird could inspire an encore

Genetic history of endangered Australian songbird could inspire an encore
Credit: David Stowe

The genetic history of a critically endangered songbird shows its best chance of survival is to protect its rapidly disappearing habitat.

Researchers from The Australian National University (ANU) used DNA samples from museums around the world, dating back to the 1800s, to study the genetic impact of severe decline on the regent honeyeater.

Their study shows that while the birds' genetic diversity remains intact, giving it a fighting chance, the best way to save the species from extinction is by protecting what little it still has access to.

Dr. Ross Crates and Dr. George Olah from the Difficult Bird Research Group say while regent honeyeaters were common less than 60 years ago, they're now critically endangered.

"Best estimates suggest there may be as few as 250 left in the wild," Dr. Crates said.

"The population has suffered a rapid decline due to the widespread loss of breeding habitat caused by land clearing, as well as competition with larger bird species for access to remaining habitat."

The birds can be found from northern Victoria to southern Queensland—an area of over 600,000 km2.

Because of this massive distance, studying the birds is difficult. That's why the researchers hunted down DNA in museums.

"It's a real challenge to locate so few birds over such a huge area," Dr. Crates said.

"Regent honeyeaters can travel hundreds of kilometres to find blossom nectar to feed on. We don't know where they will turn up and breed from one year to the next.

"If we are going to save this species from extinction, we need to know if there is anything we can do to help maintain genetic diversity in the remaining population."

The team compared the genetic makeup of the regent honeyeater when it was abundant and widespread, to the genetic makeup of the remaining population today.

"When populations become small and isolated, genetic diversity can be lost, reducing the survival of the remaining individuals. In some species, this can severely impact the chances of population recovery," Dr. Olah said.

The team extracted DNA from tiny fragments of tissue from specimens housed in museums. They also used collected by BirdLife Australia over the past 30 years.

They then sampled DNA from , and compared the patterns in the genetic data.

Despite the small numbers of birds left in the wild, the researchers found little genetic has been lost over time.

"Birds in the north of the range are closely related to both their near neighbours and birds in the south of the range," Dr. Crates said.

"This strongly suggests that small numbers of birds are travelling long distances to breed with each other."

The team says this is both "good news and bad news".

"The good news is the ' long-distance movements are naturally helping to maintain in the population," Dr. Crates said.

"The bad news is this means there's little we can actually do in terms of conservation action to help manage their genetic makeup.

"It means our best chance of saving regent honeyeaters from extinction is by protecting remaining breeding habitat, restoring as much lost breeding habitat as possible and protecting nests from predators."

The study has been published in PLOS ONE.

More information: Ross Crates et al. Genomic impact of severe population decline in a nomadic songbird, PLOS ONE (2019). DOI: 10.1371/journal.pone.0223953

Journal information: PLoS ONE

Citation: Genetic history of endangered Australian songbird could inspire an encore (2019, October 30) retrieved 14 July 2024 from
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