Griffith University: Using whales to study Antarctica’s changing environment

Associate Professor Susan Bengtson Nash, Centre of Planetary Health and Food Security
The Humpback Whale Sentinel Program, headed by Associate Professor Susan Bengtson Nash from the Centre of Planetary Health and Food Security, uses whale health data, collected annually for the past 13 years from migrating whale populations across the southern hemisphere, to provide important clues about the status of the Antarctic sea-ice ecosystem.

“Conducting research in Antarctica is extremely challenging due to the travel logistics, the expense, and now with the number of expeditioners kept to an absolute minimum due to COVID-19,” says Associate Professor Bengtson Nash.

“The Humpback Whale Sentinel Program, however, avoids all of these problems by collecting whale-blubber samples from humpback whales during their winter migration to breeding grounds in warmer waters.”

Using a modified dart to take tiny samples of whale skin and blubber from humpback whales in their breeding grounds in Eastern and Western Australia, Colombia, New Caledonia, and Brazil, the team get a snapshot of the health of the whale populations, specifically the accumulated fat stores and pollution burdens, diet, and the number of pregnant females.

“The sampling technique is well-established and minimally invasive and often likened to a mosquito bite for the whale, with the blubber tissue having few nerves,” said Associate Professor Bengtson Nash.


Whale skin and blubber sample taken from humpback whales in their breeding grounds
“The small samples we get can tell us a lot about the whale population. The size of the fat cells shows us how much energy the whales managed to store during the Antarctic summer; the isotopes and fatty acids can tell us where their food (predominantly krill) has come from; the amount of organic chemicals is both a measure of the body condition of the whales, as well as environmental contamination; and the steroid hormones can identify the number of pregnant females making the migration.

Using these techniques, the Humpback Whale Sentinel Program team have observed a clear correlation between low levels of sea ice and poor whale health.

“The first signal we got of this link was in 2010/11, the year of the strongest La Nina event on record,” Associate Professor Bengtson Nash said.

“The reduced sea ice that year and changes to phytoplankton in the whale feeding grounds meant that the following season, the whales came up north in relatively poor body condition. They also seemed to switch diet, either prey or feeding location, in subsequent years.

“2017 was an anomalous year in Antarctica. The Larsen C ice shelf cleaved off to form a gigantic iceberg. Massive gaps appeared in the winter sea-ice, and overall sea-ice extent was the lowest on record.”

These oscillations in the physical environment were reflected in the records of the Humpback Whale Sentinel Program.

Associate Professor Bengtson Nash said the whales migrated up in very poor condition in 2017.


Antarctic krill could be the key link between lower levels of sea ice and poor whale health.
The researchers stated that the humpback whale’s dependence on Antarctic krill as the key link between lower levels of sea ice and poor whale health.

“Krill larvae use sea ice to shelter from predators, and as transport to productive waters, so their distribution is expected to change as sea ice decreases.

“Antarctic krill are what we call a keystone species. Everything depends on krill. Climate change scenarios forecast that as waters warm, the northern range of krill will contract southwards.

“A crash in krill will have huge repercussions for the Antarctic ecosystem as a whole. We’re looking at major cascades or collapses of ecosystems.”

Since 2017 temperatures have become more extreme, exceeding 20 degrees Celsius on the Antarctic Peninsular for the first time during the 2019/20 Australian summer.

Dr Bengtson Nash thinks humpback whales may adapt, but other, less mobile species may not.