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Figure 1. Main geological characteristics of south-central Italy, where the cities of Rome and Naples are located (modified from Butler et al., 2004).
to live, with far fewer incidences of marsh fever, which largely Rome), at least 23 natural springs, with an average flow rate of GSA TODAY | www.geosociety.org/gsatoday
affected the alluvial areas. The hills were created by the fluvial more than 80 L/s, provided Rome with water. In addition,
erosion of an ignimbrite plateau sloping gently from the Alban Romans drank water from the Tiber and Aniene rivers. These
Hills volcano to the southeast. Because of this geomorphology, rivers were also highly navigable and so represented an easy and
and the presence of the Monte Mario–Gianicolo ridge to the direct route for communication and trade with the hinterland.
northwest, Rome naturally expanded to the southeast. The topog- Conversely, the city of Naples did not have large freshwater
raphy in this direction provided an area of ~800 km2 for the resources and lacked natural springs. It also had no river and so
expansion of the city and agriculture and also provided an easy lacked this convenient means of delivering goods to the hinter-
route along which to construct aqueducts. land. Most of the water in Naples was collected from shallow aqui-
fers through a system of wells or water tanks, with a total surface
Naples, on the other hand, was located within an easily defend- area of ~10,000 m2, that stored rainwater (Kosso and Scott, 2009;
able bay that drove an economy dominated by sea trade. But the Montuono, 2010). The first aqueduct, the Serino, was built during
rugged geomorphology of its interior territory significantly the age of Augustus (B.C. 27–14 A.D.). However, it subsequently
limited any other potential of the city. The Vesuvius and suffered damage from the earthquakes that preceded and coin-
Phlegrean Field volcanoes defended the city from possible cided with the Vesuvius eruption of 79 A.D.
invaders, but they physically blocked any inland city expansion
and made communication and trade with the hinterland popula- The geological settings of Rome and Naples provided solid
tion difficult. Over time, Naples mostly grew vertically, using as foundations and large resources of several different types of
foundations the natural marine terraces bordering the coast. construction material. The ground layers for foundations both in
Geomorphology therefore played an important role in the deci- Rome and Naples were mostly made of tuffs and consolidated
sion of the city to develop an economy centered on the marine coastal or alluvial sediments. Rome’s foundations are mostly on
trade rather than agriculture. pyroclastic deposits from the Sabatini and the Alban Hills
volcanic districts (Fig. 1). Both volcanoes emplaced several large-
An economy based on agriculture was much better suited to volume ignimbrites, mostly comprising lithified tuffs that were
Rome, which had an abundance of fertile soils derived from often used as building stones. Over time, rocks with increasingly
volcanic and alluvial sediments. Farms were plentiful, even better physical-mechanical characteristics were chosen and exca-
inside the city walls, and were mostly on the alluvial plains; they vated at increasingly longer distances from building sites (de Rita
were small and family owned and ensured the self-sustenance of and Giampaolo, 2006). In the late Roman Republic, the use of
the city. pozzolana (loose scoria ignimbrites) to make concrete was intro-
duced. By mixing pozzolana with lime, Romans created a
Rome was also favored by an abundance of water resources, hydraulic cement that improved their ability to construct infra-
such as the Tiber and Aniene rivers, and several natural springs structure, even underwater. Rock lavas were used for road
present inside the city walls. Before the construction of the first
aqueduct, the Aqua Claudia (B.C. 312; 400 years after the birth of
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