The Sleepy Lizard — Cambridge IELTS 13 Academic 2018 TEST 3 — IELTS Test

Cambridge IELTS 13 Academic 2018 TEST 3

The Sleepy Lizard

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(0:02) You will hear part of a biology lecture about an animal called the sleepy lizard that is (0:09) common in parts of Australia. First, you have some time to look at questions (0:15) thirty-one to forty. Now listen carefully and answer questions thirty-one to forty.
(1:15) Last week we started looking at reptiles, including crocodiles and snakes. Today, I'd (1:22) like us to have a look at another reptile, the lizard, and in particular, at some studies (1:27) that have been done on a particular type of lizard whose Latin name is Tiliqua rugosa. (1:34) This is commonly known as the sleepy lizard because it's quite slow in its movements and (1:39) spends quite a lot of its time dozing under rocks or lying in the sun.
(1:45) I'll start with a general description. Sleepy lizards live in Western and South Australia, (1:52) where they're quite common. Unlike European lizards, which are mostly small, green and (1:57) fast-moving, sleepy lizards are brown, but what's particularly distinctive about them (2:02) is the colour of their tongue, which is dark blue, in contrast with the lining of their (2:08) mouth, which is bright pink.
And they're much bigger than most European lizards. They have
(2:15) quite a varied diet, including insects and even small animals, but they mostly eat plants (2:22) of varying kinds. Even though they're quite large and powerful, with strong jaws that (2:29) can crush beetles and snail shells, they still have quite a few predators.
Large birds like
(2:35) cassowaries were one of the main ones in the past, but nowadays they're more likely (2:41) to be caught and killed by snakes. Actually, another threat to their survival isn't a predator (2:48) at all, but is man-made. Quite a large number of sleepy lizards are killed by cars when they're (2:55) trying to cross highways.
One study carried out by Michael Freak at Flinders University
(3:02) investigated the methods of navigation of these lizards. Though they move slowly, (3:08) they can travel quite long distances, and he found that even if they were taken some distance (3:14) away from their home territory, they could usually find their way back home as long as (3:18) they could see the sky. They didn't need any other landmarks on the ground.
Observations of
(3:30) these lizards in the wild have also revealed that their mating habits are quite unusual. (3:35) Unlike most animals, it seems that they're relatively monogamous, returning to the same (3:41) partner year after year. And the male and female also stay together for a long time, (3:48) both before and after the birth of their young.
It's quite interesting to think about the possible
(3:55) reasons for this. It could be that it's to do with protecting their young. You'd expect them (4:01) to have a much better chance of survival if they have both parents around.
But in fact,
(4:07) observers have noted that once the babies have hatched out of their eggs, they have hardly any (4:12) contact with their parents. So there's not really any evidence to support that idea. (4:18) Another suggestion is based on the observation that male lizards in monogamous relationships (4:23) tend to be bigger and stronger than other males.
So maybe the male lizards stay around so they can
(4:30) give the female lizards protection from other males. But again, we're not really sure. Finally, (4:39) I'd like to mention another study that involved collecting data by tracking the lizards.
I was
(4:45) actually involved in this myself. So we caught some lizards in the wild, and we developed a tiny (4:51) GPS system that would allow us to track them, and we fixed this onto their tails. Then we set the (4:58) lizards free again, and we were able to track them for 12 days and gather data, not just about (5:04) their location, but even about how many steps they took during this period.
One surprising thing we
(5:12) discovered from this is that there were far fewer meetings between lizards than we expected. (5:17) It seems that they were actually trying to avoid one another. So why would that be? Well, again, (5:25) we have no clear evidence, but one hypothesis is that male lizards can cause quite serious (5:31) injuries to one another.
So maybe this avoidance is a way of preventing this, of self-preservation,
(5:38) if you like. But we need to collect a lot more data before we can be sure of any of this. (5:46) That is the end of section 4. You now have half a minute to check your answers.

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