Hunt for sunken settlements — Cambridge IELTS 14 Academic 2019 TEST 4 — IELTS Test

Cambridge IELTS 14 Academic 2019 TEST 4

Hunt for sunken settlements

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(0:04) You will hear part of a lecture about a branch of archaeology called marine archaeology. (0:12) First, you have some time to look at questions 31 to 40. (1:07) Now listen carefully and answer questions 31 to 40.
(1:16) In today's class, I'm going to talk about marine archaeology, (1:21) the branch of archaeology focussing on human interaction with the sea, lakes, and rivers. (1:29) It's the study of ships, cargos, shipping facilities, and other physical remains. (1:36) I'll give you an example, then go on to show how this type of research is being transformed (1:43) by the use of the latest technology.
(1:47) Atlit Yam was a village on the coast of the eastern Mediterranean, (1:51) which seems to have been thriving until around 7000 BC. (1:58) The residents kept cattle, caught fish, and stored grain. (2:03) They had wells for fresh water.
(2:06) Many of their houses were built around a courtyard and were constructed of stone. (2:12) The village contained an impressive monument, (2:16) seven half-tonne stones standing in a semicircle around a spring (2:22) that might have been used for ceremonial purposes. (2:27) Atlit Yam may have been destroyed swiftly by a tsunami, (2:32) or climate change may have caused glaciers to melt and sea levels to rise, (2:38) flooding the village gradually.
(2:40) Whatever the cause, it now lies ten metres below the surface of the Mediterranean, (2:47) buried under sand at the bottom of the sea. (2:51) It's been described as the largest and best-preserved prehistoric settlement (2:56) ever found on the seabed. (3:00) For marine archaeologists, Atlit Yam is a treasure trove.
(3:05) Research on the buildings, tools, and the human remains (3:09) has revealed how the bustling village once functioned, (3:13) and even what diseases some of its residents suffered from. (3:18) But of course, this is only one small village, one window into a lost world. (3:26) For a fuller picture, researchers need more sunken settlements, (3:31) but the hard part is finding them.
(3:36) Underwater research used to require divers to find shipwrecks or artefacts, (3:42) but in the second half of the 20th century, (3:45) various types of underwater vehicles were developed, (3:49) some controlled from a ship on the surface, (3:52) and some of them autonomous, (3:54) which means they don't need to be operated by a person. (3:59) Autonomous underwater vehicles, or AUVs, (4:04) are used in the oil industry, for instance, (4:07) to create maps of the seabed before rigs and pipelines are installed. (4:14) To navigate, they use sensors, such as compasses and sonar.
(4:21) Until relatively recently, they were very expensive, (4:24) and so heavy that they had to be launched from a large vessel with a winch. (4:34) But the latest AUVs are much easier to manoeuvre. (4:39) They can be launched from the shore or a small ship, (4:44) and they're much cheaper, (4:46) which makes them more accessible to research teams.
(4:50) They are also very sophisticated. (4:54) They can communicate with each other, (4:56) and, for example, work out the most efficient way to survey a site, (5:02) or to find particular objects on the seabed. (5:06) Field tests show the approach can work.
(5:10) For example, in a trial in 2015, (5:14) three AUVs searched for wrecks at Marzimemi, off the coast of Sicily. (5:20) The site is the final resting place of an ancient Roman ship, (5:24) which sank in the 6th century AD, (5:28) while ferrying prefabricated marble elements for the construction of an early church. (5:35) The AUVs mapped the area in detail, (5:38) finding other ships carrying columns of the same material.
(5:43) Creating an internet in the sea for AUVs to communicate is no easy matter. (5:50) Wi-Fi networks on land use electromagnetic waves, (5:56) but in water these will only travel a few centimetres. (6:01) Instead, a more complex mix of technologies is required.
(6:06) For short distances, AUVs can share data using light, (6:12) while acoustic waves are used to communicate over long distances. (6:16) But more creative solutions are also being developed, (6:21) where an AUV working on the seabed offloads data to a second AUV, (6:28) which then surfaces and beams the data home to the research team using a satellite. (6:36) There's also a system that enables AUVs to share information from seabed scans and other data.
(6:44) So, if an AUV surveying the seabed finds an intriguing object, (6:51) it can share the coordinates of the object, that is, its position, (6:56) with a nearby AUV that carries superior cameras, (7:01) and arrange for that AUV to make a closer inspection of the object. (7:08) Marine archaeologists are excited about the huge potential of these AUVs for their discipline. (7:16) One site where they're going to be deployed is the Gulf of Berati off the Italian coast.
(7:23) In 1974, a 2,000-year-old Roman vessel was discovered here in 18 metres of water. (7:31) When it sank, it was carrying medical goods in wooden or tin receptacles. (7:40) Its cargo gives us insight into the treatments available all those years ago, (7:46) including tablets that are thought to have been dissolved to form a cleansing liquid for the eyes.
(7:54) Other Roman ships went down nearby, taking their cargoes with them. (7:58) Some held huge pots made of terracotta, (8:03) some were used for transporting cargoes of olive oil, (8:07) and others held wine. (8:10) In many cases, it's only these containers that remain, (8:14) while the wooden ships have been buried under silt on the seabed.
(8:20) Another project that's about to be... (8:25) That is the end of Section 4. (8:28) You now have half a minute to check your answers.

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