They may be creatures of the night, but Australian bull ants have trouble finding their way home in the dark.
Scientists at Australia’s Vision Centre (VC) and the Australian National University’s Research School of Biology have found that bull ants that travel at night take much longer to reach home compared to those that return at dawn. The ‘night travelers’ are also less likely to find their nests, the study shows.
“To cope with dim or dark environments, night-active ants have larger lenses and wider photoreceptors – to capture light – compared to their day-active relatives,” said Dr Ajay Narendra.
“We found that even with this compensation, the nocturnal bull ants still take longer to get to their food sources or nests at night.
“Our study shows that this is because these ants rely predominantly on surrounding landmarks to navigate, and that landmark information is less salient in the dark.”
Using Differential GPS, the researchers tracked individual ants. A satellite base station was placed close to the ants’ nest providing precise spatial coordinates. The scientists then followed an ant using a roaming GPS. Information exchanged between the roaming GPS and the base station gave the ant’s position within a few centimetres.
The researchers found that bull ant workers left their nests during twilight to forage on a nearby Eucalyptus tree, and ants that left the nest early – within 10 minutes of sunset – reached the tree faster than those that left an hour after sunset.
“The ‘late’ ants walked more slowly, stopped more frequently and paused for longer compared to the early foragers,” Dr Narendra said.
“They were also less able to travel in a straight path.”
The study also showed that while most of the bull ants returned to the nest at dawn, 10 per cent of them started their journey home at midnight and took much longer to reach their nest.
For instance, one ant that returned home at midnight took four-and-a-half hours to reach her nest, but she needed only three minutes to cover the same distance when she went home at dawn on another day.
“The ants that return throughout the night are workers that have captured prey,” Dr Narendra said.
“Once they’ve found a spider or a wasp, there’s no point in hanging around. The best thing to do is to store the prey in a safe place, and the safest place is home.”
In contrast, bull ants that went on self-nourishing trips, where they fed on honeydew produced by sap-sucking insects, remained on a Eucalyptus tree during the dark periods of the night and travelled home in the dim light conditions of dawn.
To find out why ants travel more slowly at night, the researchers captured and displaced them in an area outside their typical foraging route in bright and dark conditions.
“If the displaced ants used a sky compass – the pattern of polarised skylight – for navigation, they would have travelled ignoring the displacement and headed to where the nest should be – even if it isn’t actually there,” Dr Narendra said.
“But once we released them, the ants that were let go in bright conditions went home directly and the ‘dark’ ants began searching for landmarks immediately.
“This means that bull ants rely heavily on the surrounding landmarks and less on sky compass for navigating during both bright and dark conditions. And in the dark conditions, landmarks are less salient. This is why they take much longer to complete their journey then.”
Dr Narendra says this may be why most of the bull ant workers travel in the dim light conditions of twilight or dawn, as they have just enough light to gather navigational information.
“The most efficient way of navigating is walking in a straight line to and from the food source,” he said.
“If their paths are less straight, they stay outside for longer and are exposed to predation, food-robbing and other threats.
“So travelling in the dark comes at an enormous cost to these bull ants. And given they are better navigators in bright light conditions, it raises the question of why they remain so stubbornly night-active throughout the year.”
The study 'Navigational efficiency of nocturnal Myrmecia ants suffers at low light levels' by Ajay Narendra, Samuel F. Reid and Chloé A. Raderschall was published in PLOS ONE.
The Vision Centre is funded by the Australian Research Council as the ARC Centre of Excellence in Vision Science.
Source: Ants pay a high price for nightlife, ANU News.