Humpback whale sightings off the Far South Coast should only increase as numbers recover, as indicated by a new scientific report from the CSIRO.
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Reports of increased humpback whale sightings in recent years off Narooma and Bermagui seeming to confirm the latest scientific research.
Related story: ‘Super-pod’ of whales spotted at Mystery Bay
The 2017 whale watching season is just about to start in earnest as the humpbacks begin their more southerly migration from the tropics back to Antarctic waters for the summer.
Although humpbacks are currently at 33 per cent of their pre-whaling numbers, it is predicted they will make a full recovery by 2050. Other whales species encountered in Far South Coast waters are not so fortunate.
By 2100, some Southern Hemisphere whale species will not have reached half their pre-whaling numbers, while other species are expected to recover by 2050.
The findings are part of new CSIRO and University of Queensland research, which looks at the interaction of historical whaling, food availability and future climate changes to predict whale numbers to 2100.
University of Queensland and CSIRO PhD student Viv Tulloch, affiliated with the ARC Centre of Excellence for Environmental Decisions, said this was the first time researchers had used this approach to predict future Southern Hemisphere whale numbers.
"We predict that Antarctic blue, southern right and fin whales will be at less than half their pre-exploitation numbers by 2100 because of slow growth rates and heavy historical whaling," Ms Tulloch said.
"Although humpbacks are currently at 33 per cent of their pre-whaling numbers, we predict they will make a full recovery by 2050."
Southern right whales, which were reported to have declined to 300 before anti-whaling laws were established, raise one calf every two to three years, compared to humpback whales which generally raise a calf per year.
CSIRO senior scientist and co-author of the paper, Dr Eva Plaganyi said the research was enabled through a complex ecosystem model nicknamed 'MICE', an acronym for Model of Intermediate Complexity for Ecosystem Assessments.
"Our MICE model uses whale numbers dating back from 1890 to now and then couples this with food availability and ocean physics to understand the changes to ocean conditions that whales are likely to experience," Dr Plaganyi said.
"Projections of Southern Hemisphere whale numbers are crucial for management and conservation and this research helps answer some of the uncertainties regarding their recovery."