Why we're watching the giant Australian cuttlefish

Juvenile giant Australian cuttlefish developing under rocks in the waters of South Australia. Fred Bavendam, Author provided

Australia is home to the world’s only known site where cuttlefish gather to mate en masse.

From May to August, if you head into the water around Point Lowly, South Australia, it will be a chilly 12℃. But you’ll be able to observe what look like aliens – hundreds, even thousands of tentacled organisms with their unusual distinctive W-shaped eye pupils, and pulsating colours moving across their body.

Intent on mating, the cuttlefish will be totally oblivious to your presence.

But this population of cuttlefish dropped in abundance from an estimated 150,000 animals in the late 1990s to only 13,492 in 2013.

Although counts in recent years suggest the creatures have recovered, my research aims to determine what sorts of factors influence this very unique cuttlefish population. This may allow us to better manage and protect the species – important not just for science, but also for the local environment and economy.

Giant Australian cuttlefish can change the colour and texture of their skin. David Wiltshire, Author provided

Giant Australian cuttlefish can change the colour and texture of their skin. David Wiltshire, Author provided

Rockstars of the sea

Every time I head to the Point Lowly coastline and dive with the giant Australian cuttlefish I’m amazed and excited by their antics.

The name “giant” is perhaps a misnomer. Giant Australian cuttlefish only ever reach about one metre in size. Most animals are much smaller, especially in South Australia.

Cephalopods have been described as rockstars of the sea for their “live fast, die young” life history strategy – they grow rapidly, reproduce early and die following reproduction. Giant Australian cuttlefish live for 1-2 years.

Although they are found in waters across southern Australia, giant Australian cuttlefish live in distinct populations that do not interact. We know from genetic studies that those breeding along that small area of Upper Spencer Gulf coastline are restricted to an area north from a line across the gulf from Wallaroo to Arno Bay (around 6,500 km²).

Outside the breeding season of May to August they are distributed throughout this northern region. Come May they start to move towards a narrow 8km stretch of rocky coastline. At their peak you see literally one cuttlefish per square metre. It’s the sheer numbers that are impressive!

They come solely for one purpose over winter – to find mates to reproduce.

Cuttlefish breeding map

The most northern waters of Upper Spencer Gulf in South Australia host a unique population of giant Australian cuttlefish. Ellen Rochelmeyer (using Google Maps), CC BY-NC-ND

Sudden drop in numbers

Around the late 1990s, the cuttlefish breeding aggregation in the Upper Spencer Gulf began to be targeted by fishers. Since then, a number of restrictions on taking cuttlefish and other cephalopods from these waters have been in place.

Around that time, a program of research through the University of Adelaide and SARDI Aquatic Sciences also began. Estimates of abundance and biomass of the breeding aggregation population suggested around 150,000 cuttlefish bred in the Upper Spencer Gulf. The surveys stopped after a few years.

Then in 2005 anecdotal reports from SCUBA divers suggested cuttlefish were less abundant. A survey at that time and continual data collected since 2008 confirmed that numbers had dropped. In 2013 less than 15,000 individuals were estimated on the breeding aggregation.

Significant resources were put towards studying the cuttlefish to determine what might be causing such a decline. Changes in water temperature and salinity may be involved.

We looked at data for other cephalopods over a similar time frame, and found no such decline. In fact, over the last 60 years many different types of cephalopod have been increasing in abundance – it’s not yet clear why.

The low numbers of 2013 seem to be unique to the giant Australian cuttlefish on the Upper Spencer Gulf.

Since this time there has been a recovery in this population, with numbers bouncing back towards their late 1990s levels.

Cuttlefish eggs deposited on the underside of rocks. Fred Bavendam, Author provided

Cuttlefish eggs deposited on the underside of rocks. Fred Bavendam, Author provided

How cuttlefish breed

We know that cuttlefish come to this breeding aggregation to mate using a range of amazing strategies and behaviours – for example, small males impersonate females to avoid detection by larger males and gain access “under cover”.

Because the population on the breeding aggregation is skewed towards males (an average of four to one), females have some choice over who they mate with. After mating takes place, females deposit eggs on the underside of rocks.

Cuttlefish eggs take three to five months to develop, hatching from mid-September through to early November. They emerge as miniature adults about the size of your thumbnail. Baby cuttlefish disperse within the Upper Spencer Gulf with an even sex ratio.

To work out why there was a difference in sex ratio between the broader region (1 male:1 female) and the breeding aggregation (4 males:1 female), we tagged male and female cuttlefish using trackable acoustic markers. We discovered that males spend around four times the length of time on the breeding aggregation compared to females, and that individuals are not present for the whole breeding season.

So the breeding aggregation is likely larger in size than fixed time frame counting estimates allow us to measure.

Positive influence on local economy

Although the apparently low population size in 2013 caused great concern, we are now cautiously optimistic for our giant Australian cuttlefish in Upper Spencer Gulf.

These creatures attract tourists from around the world, who come and snorkel or SCUBA dive on a unique breeding aggregation. This in turn injects money into the local economy and diversifies business in the region.

The cuttlefish are just one “user” of our shared marine environment along with the other activities and industries of South Australia.

Tagged in Research, Marine Biology, School of Biological Sciences, Environment Institute, Environmental Science, Biological Science