The data showed that Antarctic blue whales are distributed right around Antarctica and through the sub-Antarctic during summer.
“This analysis represents the most contemporary circumpolar information on the distribution of these rarely sighted and elusive animals, which were hunted to the brink of extinction during industrial whaling,” Dr Miller said.
“Our analysis and the collated datasets will serve as a baseline and springboard for future work.”
For almost two decades the team has been using free-floating ‘sonobuoys’ as ‘listening stations’, to detect, track and record Antarctic blue whale and other whale sounds.
Spending more than eight months at sea, on seven voyages*, they have travelled more than 145,510 kilometres, and monitored nearly 3900 hours of sound from listening stations all around Antarctica.
In combination with other study methods, including satellite tracking, video tracking, photography, DNA sampling, drones, and artificial intelligence, they are building a picture of the distribution, abundance and behaviour of the animals.
Dr Miller said that sonobuoys are one of the most cost-effective way of studying blue whales, but there are limits to what can be learnt from listening alone.
Each sonobuoy has a hydrophone that transmits sound back to the ship in real time via a VHF radio link.
Once blue whale calls are detected, the team can get a direction to the whales and then deploy more instruments to get a precise position.
“Over the last 20 years we’ve really honed our ability to locate and find these animals acoustically,” Dr Miller said.
“We can reliably listen for them, sail to them and visually sight them, then photograph and follow them, and even take small biopsies of their skin and blubber for further study.”
The newly published study focussed on recordings of loud, low frequency ‘songs’ that were specific to Antarctic blue whales – the ‘Z-call’ and part of the Z-call known as ‘Unit-A’.
The study also analysed the non-song ‘D-call’, which is made by all blue whale populations.
D-calls are thought to be ‘social’ calls made by male and female whales on feeding grounds, while the song calls are only made by males.
“Unit-A was the most widely distributed call detected on the largest number of sonobuoys throughout the Antarctic and sub-Antarctic,” Dr Miller said.
“We detected more of the non-song D calls earlier in the summer feeding season, and the Unit A and Z song calls later in summer and early autumn.”
The team said more research is needed to understand the relationship between the whales and their major food source, krill, in the face of environmental change and increasing krill fishing pressure.
This could involve a range of new study methods, including a fleet of uncrewed vehicles, equipped with hydrophones to detect the whales, and other instruments to study the whales’ prey.
Scientists could also attach ‘hydrophone accelerometry’ tags to whales, which record calls and measure swim speeds, to understand how the type and amount of vocalisation relates to foraging rates.
“Passive acoustic monitoring is poised to play a crucial role in future research addressing knowledge gaps about Antarctic blue whales,” Dr Miller said.
*Two voyages were supported by grants of sea time on RV Investigator from the CSIRO Marine National Facility.