WEBVTT 00:00:01.040 --> 00:00:07.599 The Trevi Fountain is one of Rome’s most  spectacular sights. Across a pale green pool, 00:00:07.599 --> 00:00:11.679 between two tritons wrestling with  winged horses, from beneath the feet 00:00:11.679 --> 00:00:16.640 of the mighty sea-god Oceanus, a silver  cascade rushes over steps of stone. 00:00:17.760 --> 00:00:22.960 Impressive though all this is, the most  remarkable part lies behind the riot of statues, 00:00:22.960 --> 00:00:27.440 where the water that feeds the fountain flows,  as it has for more than two millennia, through 00:00:27.440 --> 00:00:33.280 the concrete channel of a Roman aqueduct. Greek engineers began building aqueducts 00:00:33.280 --> 00:00:39.760 as early as the sixth century BC. A stone-lined  channel carried spring water to Archaic Athens, 00:00:39.759 --> 00:00:44.559 and Samos was served by an aqueduct that plunged  through a tunnel two-thirds of a mile (1 km) long. 00:00:45.520 --> 00:00:49.680 Even more impressive systems appeared during  the Hellenistic era, when the acropolis of 00:00:49.679 --> 00:00:53.840 Pergamon was supplied with water flowing  under pressure through huge lead pipes. 00:00:55.119 --> 00:00:58.879 The Roman aqueducts differed from their  Greek predecessors in their use of arches 00:00:58.880 --> 00:01:05.600 and hydraulic concrete. But it was sheer number  and scale that truly set them apart. Hundreds of 00:01:05.599 --> 00:01:12.165 aqueducts were constructed across the Roman world,  some well over 50 miles (80 km) long and capable 00:01:12.165 --> 00:01:15.599 of delivering millions of gallons each day. Contrary to what you might assume, the majority of 00:01:15.599 --> 00:01:22.159 Roman aqueducts were not built to supply drinking  water. Most Roman cities existed for centuries 00:01:22.159 --> 00:01:27.439 before they constructed their first aqueduct, and  had established networks of wells and cisterns. 00:01:28.400 --> 00:01:33.680 More often than not, aqueducts were luxuries,  designed to supply bath complexes, ornate 00:01:33.680 --> 00:01:39.360 fountains, and the houses of the elite. The time-consuming and extremely expensive 00:01:39.359 --> 00:01:43.519 process of building an aqueduct began  with locating a usable water source. 00:01:44.560 --> 00:01:49.600 Lakes were almost never chosen – stagnant water  was regarded as unhealthy – and rivers were only 00:01:49.599 --> 00:01:55.679 tapped in exceptional cases, since they carried  sediment and fluctuated seasonally. Usually, 00:01:55.680 --> 00:02:00.720 the source was a hillside spring. A Roman aqueduct was an artificial river, 00:02:00.719 --> 00:02:08.080 flowing downhill from source to city. The channel  gradient had to be both gentle and consistent. If 00:02:08.080 --> 00:02:12.640 it was too steep, the mortar lining would  begin to erode; if it was too gentle, 00:02:12.639 --> 00:02:21.119 water would stagnate. Most Roman aqueducts descend  only five or ten feet every mile (1.5 – 3 m / km), 00:02:21.120 --> 00:02:26.319 and some have slopes as gradual as 1 in  20,000 – that is, a few inches per mile. 00:02:27.599 --> 00:02:32.319 To maintain such miniscule gradients,  Roman engineers relied on the dioptra 00:02:32.319 --> 00:02:38.799 and the chorobates. The dioptra – an ancestor of  the modern theodolite – was a sighting platform 00:02:38.800 --> 00:02:45.280 used to measure the relative position and height  of distant points. The chorobates, a long table 00:02:45.280 --> 00:02:50.800 with a central channel, was a water level.  With competent use of these instruments and 00:02:50.800 --> 00:02:55.280 adequate stocks of manpower and money, an  aqueduct could be built almost anywhere. 00:02:56.639 --> 00:02:59.919 For most of their length, Roman  aqueducts ran underground, 00:02:59.919 --> 00:03:03.839 following the contours of the landscape as  they slowly descended from their sources. 00:03:04.639 --> 00:03:09.119 Although the water flowing down them was rarely  more than knee-deep, their channels were made 00:03:09.120 --> 00:03:15.120 tall enough for maintenance workers to walk along  without stooping. To minimize leakage, the masonry 00:03:15.120 --> 00:03:20.560 walls were coated with waterproof cement. When an aqueduct had to cross a valley, 00:03:20.560 --> 00:03:24.560 its gradient was maintained by elevating  the channel on rows of masonry arches. 00:03:25.599 --> 00:03:30.000 Until the reign of Augustus, these arcades  were normally built with blocks of local stone. 00:03:30.879 --> 00:03:36.719 Later, they tended to be brick-faced concrete.  Exceptionally deep depressions might be bridged 00:03:36.719 --> 00:03:42.639 with two or even three tiers of arches. The most spectacular example is undoubtedly 00:03:42.639 --> 00:03:51.439 the Pont du Gard, just outside Nimes. No less  than 160 feet (50 m) high, it consists of huge 00:03:51.439 --> 00:03:56.560 blocks of limestone laid without mortar, which  support a channel so carefully graded that its 00:03:56.560 --> 00:04:03.199 level descends less than an inch from end to end. When an aqueduct crossed a valley too deep for a 00:04:03.199 --> 00:04:09.439 bridge, Roman engineers built an inverted siphon  – a pipe running at ground level from a header 00:04:09.439 --> 00:04:15.520 tank on one side of a valley to a receiving tank  on the other side. As long as the receiving tank 00:04:15.520 --> 00:04:19.920 was at least slightly lower than the header, the  water in the pipe would rise to its own level, 00:04:19.920 --> 00:04:25.680 flowing up the slope and out of the valley. The counterparts of the siphons and bridges 00:04:25.680 --> 00:04:30.400 that allowed aqueducts to traverse valleys were  the tunnels that carried them through hills. 00:04:31.439 --> 00:04:35.839 Unless the cutting was exceptionally deep, the  usual construction method involved excavating 00:04:35.839 --> 00:04:41.919 a series of shafts and boring in both directions  from the bottom. This didn’t always go as planned: 00:04:41.920 --> 00:04:46.640 an inscription from North Africa records how  two work gangs, tunneling from either side 00:04:46.639 --> 00:04:50.719 of a mountain, became disoriented and  began digging in opposite directions. 00:04:52.160 --> 00:04:57.200 When – having hewn through hills, vaulted  valleys, and marched majestically o’er 00:04:57.199 --> 00:05:01.920 the plains – an aqueduct finally  reached the city it was to supply, 00:05:01.920 --> 00:05:07.600 its terminus was often marked by a spectacular  fountain. Most of its water, however, 00:05:07.600 --> 00:05:13.760 was channeled into the distribution tanks that  the Romans called castella. These fed batteries of 00:05:13.759 --> 00:05:21.680 pipes, which in turn led to smaller distribution  tanks. Pompeii had 12 of these; Rome had 247. 00:05:22.959 --> 00:05:28.079 In the northwestern provinces, water pipes were  often made of tree trunks joined with iron bands. 00:05:29.040 --> 00:05:34.960 In the eastern Mediterranean, they might consist  of long lines of hollowed stone blocks. Most 00:05:34.959 --> 00:05:40.879 Roman pipes, however, were made of terracotta or  lead. Although they knew that lead caused health 00:05:40.879 --> 00:05:46.719 problems, the Romans persisted in making pipes  from it, simply because lead was cheap, easy to 00:05:46.720 --> 00:05:52.560 work, and didn’t rust. The Romans were only saved  from lead poisoning by the swiftness with which 00:05:52.560 --> 00:05:57.600 water flowed through the pipes, and by the calcium  deposits that tended to coat their insides. 00:05:58.959 --> 00:06:03.759 Although most cities with aqueducts drew some  of their drinking water from wells or cisterns, 00:06:03.759 --> 00:06:07.920 aqueduct water was – at least in the city  of Rome itself – regarded as healthier 00:06:07.920 --> 00:06:12.800 and better-tasting. Most households  accessed aqueduct water by drawing it 00:06:12.800 --> 00:06:15.600 from a public fountain or basin (or by paying a  water-carrier to fetch it for them). By one count, 00:06:15.600 --> 00:06:22.720 Rome had 1,352 fountains. In Pompeii, there  was one for about every 160 inhabitants. 00:06:24.240 --> 00:06:28.960 Baths were almost equally common. In  the city of Rome alone, aside from 00:06:28.959 --> 00:06:33.839 the colossal imperial thermae, there were more  than 850 neighborhood baths by late antiquity. 00:06:34.720 --> 00:06:39.520 The largest complexes used so much water  that they needed dedicated aqueducts. 00:06:40.560 --> 00:06:45.040 The Baths of Caracalla, for example,  were fed by a spur of the Aqua Marcia, 00:06:45.040 --> 00:06:51.200 and featured a reservoir with 32 chambers and a  capacity of more than 2,000,000 gallons (8,000,000 00:06:51.199 --> 00:06:57.519 L). The outflow of wastewater from these baths  was copious that it was used to power watermills. 00:06:58.879 --> 00:07:01.839 Private connections to aqueduct  water were relatively rare. 00:07:02.639 --> 00:07:06.879 In Rome, the process for installing a  tap involved appealing to the emperor, 00:07:07.680 --> 00:07:11.920 bringing the emperor’s authorization to the  water commissioner, and finally receiving 00:07:11.920 --> 00:07:17.680 a calix, a bronze nozzle stamped with the  owner’s name. The grant was not permanent: 00:07:17.680 --> 00:07:21.840 as soon as the recipient died or  sold his home, his calix was removed. 00:07:23.120 --> 00:07:27.040 Although some private connections were granted  to the owners of industrial facilities, 00:07:27.040 --> 00:07:32.080 most belonged to members of the elite, who used  the water to supply the gardens, fountains, 00:07:32.079 --> 00:07:37.839 and private baths of their mansions. The situation  seems to have been broadly similar in Pompeii, 00:07:37.839 --> 00:07:43.599 where only 10% of households had access to piped  water, but that 10% used it so extravagantly 00:07:43.600 --> 00:07:50.160 that one house had no fewer than 33 faucets. Maintaining the aqueducts was a constant struggle. 00:07:51.120 --> 00:07:57.280 In the city of Rome, a permanent staff of 700  installed new pipes, braced collapsed arches, 00:07:57.279 --> 00:08:01.279 and kept the channels clear. Mud and  stones had to be removed from the 00:08:01.279 --> 00:08:05.359 settling tanks – depressions in the  channel designed to catch suspended 00:08:05.360 --> 00:08:09.840 sediment and debris – and mineral deposits  were periodically scraped from the walls. 00:08:10.879 --> 00:08:15.600 Although Rome’s aqueducts seem to have been  fairly well-maintained until late antiquity, 00:08:15.600 --> 00:08:20.560 not all cities were so scrupulous, and some  aqueducts became completely clogged with debris. 00:08:22.000 --> 00:08:27.759 Speaking of clogs, this video is  sponsored by Whoosh Drains of New 00:08:27.759 --> 00:08:30.480 York City. Whoosh specializes in unclogging pipes  and drains. So, if you live in or near Queens, 00:08:30.480 --> 00:08:35.200 and want to keep your plumbing flowing free,  call Steve at Whoosh, and make it drain. 00:08:36.559 --> 00:08:41.759 When they weren’t clogged, the aqueducts were  awesome manifestations of the Roman knack 00:08:41.759 --> 00:08:48.799 for practical engineering on a monumental scale.  The aqueduct that served Carthage ran 55 miles 00:08:48.799 --> 00:08:54.000 (90 km) from a sacred spring to the  cavernous cisterns of the city’s great baths. 00:08:55.039 --> 00:08:59.039 The aqueduct that Augustus built along  the Bay of Naples was even longer, 00:08:59.039 --> 00:09:03.759 and featured at least a dozen branches  supplying the naval station at Misenum, 00:09:03.759 --> 00:09:08.559 the elaborate seaside villas at Baiae, and  the doomed cities of Pompeii and Herculaneum. 00:09:09.519 --> 00:09:14.399 The aqueduct of Constantinople, whose channels  had a combined length of over 300 miles 00:09:14.399 --> 00:09:20.159 (500 km), filled a vast series of  artificial lakes and covered reservoirs. 00:09:21.519 --> 00:09:24.879 Most impressive of all were  the eleven aqueducts of Rome, 00:09:24.879 --> 00:09:29.439 which may have collectively carried as much  as a million cubic meters of water each day. 00:09:30.399 --> 00:09:34.720 Tapping springs and streams in the surrounding  hills, and carried over suburban villas 00:09:34.720 --> 00:09:40.480 and market gardens on miles-long arcades, Rome’s  aqueducts entered the city proper in a spectacular 00:09:40.480 --> 00:09:47.600 web of pipes, conduits, and distribution tanks. Since only a few of the aqueducts were high enough 00:09:47.600 --> 00:09:53.120 to supply all 14 of the city’s regions, most  had a fairly localized distribution network. 00:09:54.080 --> 00:10:00.240 The whole system, however, was interconnected, so  that if one aqueduct were shut down for repairs, 00:10:00.240 --> 00:10:06.399 another could be diverted to replace it. This  feature was not always appreciated, since Rome’s 00:10:06.399 --> 00:10:12.399 aqueducts ranged in quality from the Aqua Marcia  – fed by the emerald pools of a delicious mountain 00:10:12.399 --> 00:10:17.840 spring – to the Aqua Alsietina, whose water was  so muddy that it was considered undrinkable. 00:10:19.120 --> 00:10:23.919 But thanks to hundreds of millions of sestertii in  funding, endless maintenance work, and the basic 00:10:23.919 --> 00:10:28.639 quality of their construction, the aqueducts  continued to flow long after the emperors were 00:10:28.639 --> 00:10:35.439 gone. A few, as we’ve seen, are still flowing  today, another living legacy of ancient Rome. 00:10:36.799 --> 00:10:42.559 If you enjoyed this video, please consider  supporting toldinstone on Patreon. You might also 00:10:42.559 --> 00:10:59.839 enjoy my book, Naked Statues, Fat Gladiators,  and War Elephants. Thanks for watching.