House sparrows adapt to Mount Isa lead levels

LEAD ADAPTORS: House sparrows have been seen in Mount Isa for 50 years. Photo: supplied.
LEAD ADAPTORS: House sparrows have been seen in Mount Isa for 50 years. Photo: supplied.

A new study of the genes of house sparrows has found the first evidence of animals adapting to contamination in high-lead areas of Australia.

House sparrows have been seen in Mount Isa for 50 years and have been in Broken Hill, New South Wales for around 100 years, providing a unique opportunity to examine how the introduced species has adapted to these environments.

Led by researchers from Macquarie University, the study compared the genomic data of sparrows from these areas of high lead concentrations with sparrows from other regional and urban centres.

The study found 12 genetic variants in the birds from the mining areas that have been previously associated with lead exposure in laboratory studies.

Scientists say the presence of these outlier genes suggests Mount Isa’s sparrows have adapted to avoid the uptake of lead into the body and to counter its negative impacts on neural and bone development.

The study’s lead author Samuel Andrew said this could be achieved by down-regulating the lead transporters on the surface of the body to reduce the amount of lead absorbed or by preventing it accumulating in the organs.

These genes and their associated pathways provide targets for observing how well other animal species are adapting to lead contamination.

“Adaptation to pollutants is vital to the future health of ecosystems in areas affected by human activity like mining, but we currently have very limited understanding of how animals can evolve to mitigate the negative impacts,” Mr Andrew said.

“House sparrows generally live in areas with humans, and have been in some mining towns for up to 50 generations, so they’re a perfect example to start analysing how wildlife more generally might be changing to cope with a contaminated environment”.

“We found clear indications of similar genetic adaptation in two separate populations in Broken Hill and Mount Isa, showing parallel evolution even after this relatively short period of time.”