Written by Mariëtte Pretorius, PhD Candidate (Wildlife management), Mammal Research Institute, University of Pretoria
The lunar phobia theory suggests that nocturnal animals like bats are less active during brightly moonlit nights to avoid predators. For example, owls – known predators of bats – are more active during brightly lit nights, spend shorter times searching for prey animals and are more successful when hunting.
Prey like bats are then expected to change their behaviour accordingly. Some bat species shift their foraging from open to forested areas on brightly moonlit nights.
Animals may also have different activity schedules depending on their age and sex. Females spend more time foraging and less time worrying about predators because they need to feed their young. In contrast, males spend less time foraging to minimise the risk of being eaten.
To date, the lunar phobia theory has not been tested on the South African bat species. This is a glaring gap, given that South Africa has over 50 different species. Investigating different factors influencing the behaviour of South African bat species contributes to our understanding of these understudied animals.
Our team wanted to test whether the lunar phobia theory holds for a South African bat species, the Natal long-fingered bat. This is an abundant, cave-dwelling species found across southern Africa that feeds on a variety of insects.
Each spring, large numbers of bats migrate from caves in the Gauteng province to a cave in the Limpopo province, where females give birth and raise their young from November to February. This maternity cave, also known as the Madimatle cave, probably has the right temperature and humidity needed for raising young. It’s also well situated because the area has an abundance of insects. In late February, the bats leave the cave again to return to the wintering in caves in Gauteng.
Our study aimed to identify the peaks of foraging activity during this species’ breeding and non-breeding seasons, and establish whether they exhibited lunar phobia. If these bats did exhibit lunar phobia, we expected to see a decrease in their activity during nights with bright moonlight, indicating possible predator avoidance strategies.
To do this, we placed a bat detector close to the cave from March 2014 to March 2018. The detector allowed us to record continuously the echolocation calls of bats as they flew past the detector throughout each night, which could then be used as a measure of the relative activity.
Echolocation calls are sound waves produced through the mouth and nose of bats that bounce off objects in their flight path, telling them the shape, size and distance of the objects. The majority of bats echolocate at unique frequencies, allowing us to identify a species. Natal long-fingered bats in northeastern South Africa echolocate at a unique frequency and this allowed us to identify and sum up all of their calls recorded for each night.
Based on previous studies, we could classify our samples into the breeding season (1 September to 28 February) and non-breeding season (1 March to 31 August). From another one of our previous studies, we also knew that the majority of bats at the cave during the breeding season are female. Males predominantly occupy the cave during the non-breeding season when the females migrate to the wintering caves.
During the breeding season, bats displayed two peaks of high activity: first, early evening soon after sunset; and the second, early morning, a few hours before sunrise.
In the non-breeding season, bats had only a single peak of activity in the early evening, with decreasing activity levels as the night progressed across all nights sampled. Activity was suppressed on brightly lit nights during the non-breeding season, but in the breeding season, bright moonlight had no effect on the activity of the bats.
The change in behaviour during moonlit nights is in response to predators. Barn owls are predators of various bat species, including Natal long-fingered bats. Moonlit nights likely increased predation, necessitating predator-avoidance strategies, like decreasing activity during bright moonlit nights, therefore surviving to feed another night.
During the breeding season, lactating female bats have to produce enough milk for their ever-growing young. They therefore must consume more food each evening, as shown by one of our previous studies.
Lactating females are then forced to feed, even if under high predation risk, to maximise their food intake. But the large population size of these bats at the cave during the breeding season probably provides them with safety in numbers and more pairs of eyes to spot danger.
Our study showed that Natal long-fingered bats only display lunar phobia during the non-breeding season when males likely try to maximise their long-term survival prospects. However, during the breeding season, females need to maximise their food intake and the need to feed likely outweighs the risk of predation in bright lunar illuminations.
These findings differ from studies of Northern-latitude insectivorous bats, which generally don’t alter their behaviour due to changes in moonlight. This shows that bats from different regions have different behaviours depending on their immediate survival needs.
In a country with a rich bat biodiversity, there are still many exciting avenues for further research on these interesting, yet understudied animals. Understanding the basic ecology, physiology and behaviour of South African bat species will ultimately help us to protect them better.