The military engineering of

Ancient Rome In modern historiography, ancient Rome refers to Roman people, Roman civilisation from the founding of the city of Rome in the 8th century BC to the collapse of the Western Roman Empire in the 5th century AD. It encompasses the Roman Kingdom ...

's armed forces was of a scale and frequency far beyond that of any of its contemporaries. Indeed, military engineering was in many ways institutionally endemic in Roman military culture, as demonstrated by each

Roman legionary The Roman legionary (in Latin ''legionarius'', plural ''legionarii'') was a professional heavy infantryman of the Roman army after the Marian reforms. These soldiers would conquer and defend the territories of ancient Rome during the late Repub ...

having as part of his equipment a shovel, alongside his ''

gladius ''Gladius'' () is a Latin word meaning "sword" (of any type), but in its narrow sense it refers to the sword of ancient Roman foot soldiers. Early ancient Roman swords were similar to those of the Greeks, called '' xiphe'' (plural; singular ''xi ...

'' (sword) and '' pila'' (spears). Fabri were workers, craftsmen or artisans in Roman society and descriptions of early Roman army structure (Phalanx, the Legion came around the conquest of Greece) attributed to king Servius Tullius describe there being two centuriae of fabri under an officer, the praefectus fabrum. Roman military engineering took both routine and extraordinary forms, the former a proactive part of standard military procedure, and the latter of an extraordinary or reactionary nature.

Proactive and routine military engineering

The Roman legionary fortified camp

Each

Roman legion The Roman legion ( la, legiō, ) was the largest military unit of the Roman army, composed of 5,200 infantry and 300 equites (cavalry) in the period of the Roman Republic (509 BC–27 BC) and of 5,600 infantry and 200 auxilia in the period o ...

had a military legionary fort as its permanent base. However, when on the march, particularly in enemy territory, the legion would, after a day's marching, construct a fortified camp or ''

castra In the Roman Republic and the Roman Empire, the Latin word ''castrum'', plural ''castra'', was a military-related term. In Latin usage, the singular form ''castrum'' meant 'fort', while the plural form ''castra'' meant 'camp'. The singular a ...

'', requiring as raw materials only earth, turf and timber. Camp construction was the responsibility of special engineering units to which specialists of many types belonged, officered by '' architecti'' (engineers), from a class of troops known as '' immunes'' since they were excused from or, literally, immune from, regular duties. These engineers would requisition manual labour from the soldiers at large as required. A legion could throw up a camp under enemy attack in as little as a few hours. Judging from the names, they probably used a repertory of camp plans from a set textbook, selecting the one appropriate to the length of time a legion would spend in it: ''tertia

'', ''quarta

'': "a camp of three days", "four days", etc.

Bridge building

Roman Pontoon Bridge, Column of Marcus Aurelius, Rome, Italy

The engineers also built bridges from both timber and stone depending on required permanence, time available etc. Some Roman stone bridges survive to this day. Stone bridges were made possible by the innovative use of the keystone to allow an arch construction. One of the most notable examples of military bridge-building in the Roman Empire was Julius Caesar's Bridge over the Rhine River. This bridge was completed in only ten days and is conservatively estimated to have been more than 100 m (300 feet) long. The construction was deliberately over-engineered for Caesar's stated purpose of impressing the Germanic tribes, who had little experience of engineering, and to emphasise that Rome could travel wherever she wished. Caesar was able to cross over the completed bridge and explore the area uncontested, before crossing back over and dismantling the bridge. Caesar relates in his '' War in Gaul'' that he "sent messengers to the Sugambri to demand the surrender of those who had made war on me and on Gaul, they replied that the Rhine was the limit of Roman power". The bridge was intended to show otherwise.

Engineering siege machines

Although most

Roman siege engines Roman siege engines were, for the most part, adapted from Hellenistic siege technology. Relatively small efforts were made to develop the technology; however, the Romans brought an unrelentingly aggressive style to siege warfareGoldsworthy 2000: 1 ...

were adaptations from earlier Greek designs, the Romans were adept at engineering them swiftly and efficiently, as well as innovating variations such as the repeating ballista. The 1st century BC army engineer

Vitruvius Vitruvius (; c. 80–70 BC – after c. 15 BC) was a Roman architect and engineer during the 1st century BC, known for his multi-volume work entitled '' De architectura''. He originated the idea that all buildings should have three attribut ...

describes in detail many of the Roman siege machines in his manuscript

De Architectura (''On architecture'', published as ''Ten Books on Architecture'') is a treatise on architecture written by the Roman architect and military engineer Marcus Vitruvius Pollio and dedicated to his patron, the emperor Caesar Augustus, as a guide ...

Road making

When invading enemy territories, the Roman army would often construct roads as they went, to allow swift reinforcement and resupply, as well as a path for easy retreat if necessary. Roman road-making skills are such that some Roman roads survive to this day. Michael Grant credits the Roman building of the

Via Appia The Appian Way (Latin and Italian: ''Via Appia'') is one of the earliest and strategically most important Roman roads of the ancient republic. It connected Rome to Brindisi, in southeast Italy. Its importance is indicated by its common name, ...

with winning them the

Second Samnite War The First, Second, and Third Samnite Wars (343–341 BC, 326–304 BC, and 298–290 BC) were fought between the Roman Republic and the Samnites, who lived on a stretch of the Apennine Mountains south of Rome and north of the Lucanian tribe. ...

.Michael Grant, The History of Rome, p. 52

Civilian engineering by military troops

The Roman army also took part in building projects for civilian use. There were sound reasons for the use of the army in building projects: primarily, that if they weren't directly engaged in military campaigns, the legions were largely unproductive, costing the Roman state large sums of money. But the involvement of the soldiers in building works, kept them not only well accustomed to hard physical labour, but also kept them busy, since it was the widely held belief that busy armies weren't plotting to mutiny, whereas idle armies were. Of both military and civilian use was the construction of roads within the boundaries of the Empire, in which the army was heavily involved. But so too were soldiers put to use in the construction of town walls, the digging of shipping canals, the drainage of land, aqueducts, harbours, even in the cultivation of vineyards. In some rare cases soldiers were even used in mining work.

Mining operations

They were also skilled in conducting mining operations such as building the many aqueducts needed for prospecting for metal veins, in methods like

hydraulic mining Hydraulic mining is a form of mining that uses high-pressure jets of water to dislodge rock material or move sediment.Paul W. Thrush, ''A Dictionary of Mining, Mineral, and Related Terms'', US Bureau of Mines, 1968, p.560. In the placer mining of ...

, and the building of reservoirs to hold the water at the minehead. It is likely that they were also capable of building and operating mine equipment such as

water mill A watermill or water mill is a mill that uses hydropower. It is a structure that uses a water wheel or water turbine to drive a mechanical process such as milling (grinding), rolling, or hammering. Such processes are needed in the production ...

stamp mill A stamp mill (or stamp battery or stamping mill) is a type of mill machine that crushes material by pounding rather than grinding, either for further processing or for extraction of metallic ores. Breaking material down is a type of unit operati ...

s and dewatering machines. It is likely that they were closely involved in exploiting

gold Gold is a chemical element with the symbol Au (from la, aurum) and atomic number 79. This makes it one of the higher atomic number elements that occur naturally. It is a bright, slightly orange-yellow, dense, soft, malleable, and ductile ...

resources such as those at

Dolaucothi The Dolaucothi Gold Mines (; cy, Mwynfeydd Aur Dolaucothi) (), also known as the Ogofau Gold Mine, are ancient Roman surface and underground mines located in the valley of the River Cothi, near Pumsaint, Carmarthenshire, Wales. The gold mi ...

in south west

Wales Wales ( cy, Cymru ) is a country that is part of the United Kingdom. It is bordered by England to the east, the Irish Sea to the north and west, the Celtic Sea to the south west and the Bristol Channel to the south. It had a population in ...

. It was developed soon after conquest of the region under

Frontinus Sextus Julius Frontinus (c. 40 – 103 AD) was a prominent Roman civil engineer, author, soldier and senator of the late 1st century AD. He was a successful general under Domitian, commanding forces in Roman Britain, and on the Rhine and Danube ...

, and the local auxiliary troop came from north-west Spain, a country where gold mining developed on a very large scale in the early part of the first century AD.

Reactive and extraordinary engineering

The knowledge and experience learned through such routine engineering lent itself readily to any extraordinary engineering foot projects required by the army, and it is here that the scale of Roman military engineering exceeded that of any of its contemporaries in both imagination and scope. One of the most famous of such extraordinary constructions was the

circumvallation Investment is the military process of surrounding an enemy fort (or town) with armed forces to prevent entry or escape. It serves both to cut communications with the outside world and to prevent supplies and reinforcements from being introduced ...

of the entire city of Alesia and its Celtic leader

Vercingetorix Vercingetorix (; Greek: Οὐερκιγγετόριξ; – 46 BC) was a Gallic king and chieftain of the Arverni tribe who united the Gauls in a failed revolt against Roman forces during the last phase of Julius Caesar's Gallic Wars. Despite ha ...

, within a massive length of double-wall – one inward-facing to prevent escape or offensive sallies from the city, and one outward-facing to prevent attack by Celtic reinforcements. This wall is estimated to have been over long. A second example would be the massive ramp built using thousands of tons of stones and beaten earth up to the invested city of

Masada Masada ( he, מְצָדָה ', "fortress") is an ancient fortification in the Southern District of Israel situated on top of an isolated rock plateau, akin to a mesa. It is located on the eastern edge of the Judaean Desert, overlooking the D ...

in the Jewish Revolt. The siege works and the ramp remain in a remarkable state of preservation today.

Notes

External links

Traianus
- Technical investigation of Roman public works {{DEFAULTSORT:Roman Military Engineering Military engineering