Researchers with the help of miniaturized satellite-based tags have revealed that during drier periods desert bats must fly further and longer to fulfill their nightly needs.
Researchers used 1g GPS devices to reconstruct the movement of yellow-winged bats, one of two false vampire bats occurring in Africa and one of the few desert bats large enough to carry this innovative technology.
“GPS tags have seen up to now a limited use with insectivorous bats due to weight constraints and low success in data collection — we achieved great results in tracking such a light species,” said Irene Conenna, a PhD candidate at the University of Helsinki and the lead author of the study published in the journal — Movement Ecology.
“Bats are some of the most successful desert mammals. Powered flight allows them to efficiently track scarce resources and their nocturnal lifestyle buffers them from the baking sun. However, they still struggle to find enough resources during the drier periods of the year,” said Ricardo Rocha, one of the co-authors of the paper. The study was conducted in Sibiloi National Park, Northern Kenya, along the shores of Lake Turkana, the world’s largest desert lake. Researchers placed GPS loggers in 29 bats, 15 in the rainy season and 14 in the dry and, for one week.
Their whereabouts were recorded every 30 to 60 minutes every night. This revealed that during dry periods bats used larger home ranges and had extended activity periods, potentially to compensate for a shortage in food resources.
Wildlife tracking has revolutionised the study of animal movement and their behavior. Yet, tracking small, flying animals such as desert bats remained challenging. Now a new generation of miniaturised satellite-based tags is allowing unique insights into the life of these mysterious mammals.
Bats comprise roughly one-fifth of all mammal species and deserts are home to over 150 bat species. They display wide variation in morphology, foraging behavior, and habitat use, making them an excellent indicator group for assessing how species respond to changes in their habitats.
“The responses exhibited by bats offer important insights into the responses of other taxonomic groups. These new miniaturised satellite-based tags now allow us to better understand how increased aridity affects bats foraging efficiency, leading us one step forward to understanding limits in aridity tolerance and impacts of climate change,” explained Conenna.
“Understanding how animals cope with seasonal changes is key to understand how they might react to the challenges in the horizon. New technological devices, such as miniaturised satellite-based loggers, go a long way to help us in this task,” added Mar Cabeza, senior author of the study, University of Helsinki. (ANI)
