Latest news with #KristofferWild
9 News
18-07-2025
- Science
- 9 News
Researchers put tiny backpacks on lizards and made a bleak discovery
Your web browser is no longer supported. To improve your experience update it here When it comes to survival in the animal world, many people would assume the faster animals fare better. But a new study led by a University of Melbourne researcher turns this assumption on its head, revealing being too speedy may make Australian central bearded dragons more vulnerable to predators. The bearded d ragons were fitted with temperature and movement trackers. (Supplied) The small, high-tech devices contained tiny accelerometers and temperature-sensing radio transmitters to feed back data on the lizards' body temperature and acceleration. Similar to other lizards, the bearded dragons rely on external heat sources to regulate body temperature to grow, digest food and reproduce effectively. "Our study confirmed that these dragons are indeed masters at optimising behaviour according to seasonal shifts in air temperature," Dr Kristoffer Wild said. "Data showed the lizards strategically moving between sunny spots and shady retreats in a delicate balancing act called behavioural thermoregulation." Dr Kristoffer Wild holding a bearded dragon in south-west Queensland. (Supplied) During the study, Wild said the research team looked at the dragons' optimal temperature for achieving peak speed and how speed related to survival outcomes. The data, which was published this week in the Journal of Animal Ecology showed that lizards with higher speeds had a greater risk of mortality. "What we believe is happening is that speedy lizards are engaging in riskier behaviours, such as moving around more openly and frequently, making them vulnerable to predators like birds and cats," Wild said. "We found that increased risk was especially pronounced during spring, so this would make sense with dragons moving around a lot more looking for mates. "These findings highlight an important ecological reality, what is measured in controlled lab environments doesn't always reflect what is happening in real-world environments. "This research reminds us that in the wild, survival isn't just about physiology, but is deeply intertwined in the interplay with behaviour, predation risk and environmental variability." national Australia science Study Melbourne Victoria CONTACT US
ABC News
16-07-2025
- Science
- ABC News
Bearded dragons fitted with special backpacks showed animals that moved fast, died young
It takes skill and patience to design a tiny bespoke backpack and fit it onto an Australian bearded dragon. But Kristoffer Wild regularly found himself doing just that during his PhD at the Bowra Wildlife Sanctuary in Queensland. "I became a tailor during my PhD," the University of Melbourne ecologist joked. He'd measure the neck and chest of each lizard, before quickly setting up the sewing machine, cutting specially-designed material and stitching tiny, individually measured outfits. Dr Wild then wrangled the backpacks — which weighed about as much as an AAA battery — onto the Australian central bearded dragons (Pogona vitticeps). After the hour-long tailoring session, the lizards were set free sporting a new outfit stuffed with a GPS tracker, an accelerometer and a temperature tracker. "[The backpack records] every single second of what the animal is doing, and senses if it's accelerating forward, backward, up and down," Dr Wild said. The year-long study led to a wealth of data about how the lizards' temperature changed throughout the seasons, where they went and what they did. But of all the data — which has today been published in the Journal of Animal Ecology — one thing stood out. The speediest bearded dragons were the most likely to not survive to the end of the experiment. "We usually think animals that are faster are more likely to evade predation," Dr Wild said. Not only is this counterintuitive, but it goes against what prior research has found in the lab. So what is going on? Dr Wild and his team tracked 40 bearded dragons. Because the team lived close by, they could also quickly check on any lizards when there was a problem, or when they were eaten by a predator. "We could pinpoint the exact time of death and usually we could work out what caused it based off of how the carcass was left," Dr Wild said. At the end of the study, they found most of the bearded dragons were eaten in the spring, and females were much more likely than males to be eaten. "The males have to defend their territories, whereas the females have to hunker down and save all their energy for their eggs," he said. But why the speediest dragons were the most likely to die was — at first — a mystery. The Australian central bearded dragon is found throughout inland Australia, and at their largest can be up to 60 centimetres from tip to tail. Its beefy nature might explain some of the results, Dr Wild suggested. Because of their size, adult bearded dragons mostly use stealth, as opposed to speed to avoid predators. "What does a bearded dragon do when you see it in the field? They use their patterns to blend into the background," he said. This isn't the case for all lizards. Younger or smaller lizards instead try to use their speed to outrun a predator, but this makes them tasty targets. "Whereas when they're larger, they're relying more on blending into their environment." However, Martin Whiting, an animal behavioural researcher at Macquarie University who specialises in lizards, said although the paper was "valuable", larger sample sizes were needed to better understand survival in the wild. "We do predict that animals that can sprint faster have a greater chance of surviving in the wild," Professor Whiting said. "But this is still poorly understood, and this paper helps shake that paradigm a little." Although past research has shown in lab conditions that lizards that are faster are more successful, Professor Whiting said there hasn't been enough research to confirm that is actually the case. "What happens in nature is often not that black and white," he said. "There might be systems where being the fastest sprinter is good, like if you're an antelope and about to be eaten by a cheetah. And then there are other systems where you might need to be more cryptic." "You may not 'invest' in being a good sprinter." From getting a waterproof, smooth material made from a local outdoor company, to sewing the vests himself, Dr Wild did what he could to ensure the trackers didn't harm the animals. "We tracked the animals for a few days in a row just to make sure they were happy with the attachment, and they didn't get [stuck] on a fence or something. "It worked pretty great." But he also admits the vest isn't foolproof. "You do have to tell yourself, 'Yes, we are manipulating the animals' behaviour because we're putting tracking gear on it,'" he said. "But we're trying to minimise [the disruption] at all costs." This includes how long it takes to put the outfit onto a bearded dragon. "It's like putting a T-shirt on a toddler," he said. According to Dr Wild, at his best he could put the vest on a wriggling lizard in just a few seconds. And then, "once you get the T-shirt on, they're totally fine with it," he added. According to Professor Whiting, the "gold standard" for putting a tracker on almost any animal is for the tracker to weigh about 5 per cent of the creature's body weight. If the animal was human-sized, this could be anywhere in the region of 3 — 5 kilograms. Plenty of weight for a small tracker. But the smaller the animal, the harder it is to fit in the battery, sensors and anything else you might need without going over 5 per cent. An average bearded dragon female might be just 250 grams or so, meaning the whole kit needs to weigh under 12.5g. Smaller lizards are even harder to attach. "They are not that many studies where people attach this sort of technology to the animal and get this kind of data," Professor Whiting said. "It's true the technology is getting better. We're getting smaller batteries for example, but once you get a smaller battery, then it's going to run out faster as well." Dr Wild is looking to use this technology again in future research, and is optimistic about it being used on smaller and smaller species. "Five years ago, somebody would tell you you're absolutely crazy if you were going to put [a GPS tracker and accelerometer kit] on something smaller than a bearded dragon," he said. "But I was talking to somebody the other day, and they're putting accelerometers on little hatchling turtles to see how much movement they use when they're when they're hatching out of the nest."
