Lechaion, Greece. Ancient Greek Engineering & Bronze Age Fossil Fuels

A recent publication in Marine Geology (“Harbour geoarchaeology of Lechaion (Corinth area, Greece)” (Volume 465) November 2023), details how scientists used deep sediment core analysis to uncover persistent lead contamination and traces of imported lignite (brown coal) beneath the harbour floor. These findings indicate that Bronze Age mariners were operating a substantial industrial port at Lechaion as early as 1381 BC, extending its origins by more than five centuries. Additionally, anoxic conditions below the seabed have resulted in the exceptional preservation of Roman engineering elements, including two-thousand-year-old wooden caissons, intact maritime implements, and environmental DNA from ancient Corinth.

The Mid-5th Century Defensive Revolution

During the period between the Greco-Persian Wars and the Peloponnesian War, major Greek city-states realised that traditional siege warfare could be rendered ineffective if a city maintained a secure, fortified corridor to the sea.

The Athenian Long Walls: Athens began constructing its Long Walls between 461 and 456 BC. These massive parallel fortifications connected the inland city of Athens to its primary ports at Piraeus and Phaleron. This ensured the Athenian navy could continuously supply the city with food and materials even if Spartan armies occupied and ravaged the surrounding countryside of Attica.

The Corinthian Long Walls: Recognising the strategic brilliance of the Athenian fortifications, Corinth followed suit almost immediately. Around 450 BC, Corinthian engineers constructed their own Long Walls spanning the 12 stadia (approximately 2.5 kilometres) between the inland city and the western port of Lechaion on the Corinthian Gulf.

Strategic Parallels and Vulnerabilities:Both sets of walls served the same purpose, to temporarily transform an inland city into a self-sustaining coastal fortress. As long as the city commanded the sea and the walls remained unbreached, the population could not be starved into submission. However, they both became massive targets during subsequent conflicts.

The Athenian walls became the ultimate symbol of Athenian imperial power. They were famously dismantled by the Spartans at the end of the Peloponnesian War in 404 BC, though the Athenians later rebuilt them with Persian financial backing.

The Corinthian walls were heavily contested during the Corinthian War (395–387 BC). The Spartans, led by King Agesilaus, successfully breached these walls and captured Lechaion to sever Corinth from its western maritime supplies.

Ancient Hydraulic Engineering

In contrast to natural harbours, Lechaion gives us an idea of what ancient hydraulic engineering looked like. Successive generations of labourers excavated substantial inland basins, known as cothons, from the coastal marshes to establish a large, sheltered maritime centre.

By the early Roman Empire, engineers laid gigantic ashlar blocks, weighing up to five tonnes each, to construct extensive seaward breakwaters. To build these deep-water moles, Roman construction crews prefabricated massive wooden barges, filled them with hydraulic concrete, and sank them into place. These huge structures shielded an outer harbour of 40,000 square metres and a sprawling inner complex that hosted naval fleets, mercantile vessels, and a sanctuary situated on an artificial island.

Geoarchaeologists track the timeline of human habitation by analysing chemical signatures deep within the sediment layers. Sudden spikes in anthropogenic lead highlight centuries of intense metallurgical activity long before classical texts ever mention the port. Scientists are able to extract ancient environmental DNA from these underwater deposits, allowing them to genetically reconstruct the specific plants, animals, and bacteria that thrived in the harbour throughout antiquity.

Establishing the Architectural Chronology

The architectural footprint of Lechaion reveals continuous, monumental adaptation across changing empires.

The Bronze Age to Archaic Origins: Core samples prove intensive protohistoric industrial use. By the seventh century BC, Corinthian tyrannos of the Cypselid dynasty (c 657 – 581 BC), notably Cypselus and Periander, dredged the coastal marsh to expand the inner harbour, creating a fortified naval base to project their formidable military fleets across the Greek world.

The Roman Refoundation (1st to 2nd Centuries AD): Following the Roman sack of Corinth in 146 BC and Julius Caesar's subsequent refounding of the city in 44 BC, administrators completely overhauled the port. They built a massive square monument on an artificial island within the inner basin and extended the outer moles. However, submerged debris indicates a devastating earthquake violently destroyed this island structure between AD 69 and AD 79.

Late Antique Expansion (5th to 6th Centuries AD): During the early Byzantine era, the state funded incredible new infrastructure, including a newly discovered 57-metre mole constructed using a series of six massive wooden caissons. Concurrently, Christians erected the enormous, 180-metre-long Basilica of St. Leonidas directly adjacent to the harbour, asserting Constantinopolitan authority over the wealth generating docks.

7th – 6th Century BC (Archaic Period): Corinthian rulers systematically dredge the coastal marshes to formalise an artificial inner harbour. Engineers connect Lechaion to Corinth via the fortified Long Walls.

146 BC: Roman general Lucius Mummius destroys Corinth, severely disrupting major commercial operations at Lechaion.

44 BC – 1st Century AD: Julius Caesar refounds the colony. Roman engineers conduct massive harbour renovations, constructing monumental ashlar moles, new inner harbour basins, and a prominent monument on an artificial island.

c. AD 69 – 79: A severe seismic event destroys the Roman island monument and alters the local coastal topography.

5th – 6th Century AD (Byzantine Era): Imperial authorities deploy large wooden caissons to build robust new moles, reflecting massive state investment. The community constructs the sprawling Basilica of St. Leonidas on the harbour front.

Late 6th Century AD: Catastrophic earthquakes and associated tsunamis strike the Gulf of Corinth. Violent tectonic uplift raises the land by over a metre, fatally silting the harbour basins, destroying the coastal basilica, and ultimately leading to the great port's abandonment.

Development and Strategic Mastery

To support the topography of the port, the construction of the Long Walls, and the massive Roman harbour engineering:

Engels, D. (1990) Roman Corinth: An Alternative Model for the Classical City. Chicago: University of Chicago Press.

Mourtzas, N., Kissas, K. and Ampatzidis, D. (2014) 'Palaeogeographic reconstruction of the ancient harbour of Lechaion, Gulf of Corinth, Greece', Zeitschrift für Geomorphologie, 58(4), pp. 455–480.

Parsons, A.W. (1932) 'The Long Walls to the Gulf of Corinth', Corinth, 3(2), pp. 84–125.

Tracing the Trade and Timeline

For the breakthrough deep-core geoarchaeology, the prehistoric lead pollution spikes, the ancient DNA extraction, and the specific discovery of imported Bronze Age lignite (brown coal):

Chabrol, A., Delile, H., Lovén, B., Athanasopoulos, P. et al. (2023) 'Harbour geoarchaeology of Lechaion (Corinth area, Greece) sheds new light on economics during the Late Bronze Age/Early Iron Age transition', Marine Geology, 465, p. 107167.

Schroeder, H. et al. (2020) 'Environmental DNA from the submerged harbour of Lechaion, Greece', Journal of Archaeological Science: Reports, 31, p. 102287.

Establishing the Architectural Chronology

To reference the chronological building phases, from the Archaic dredging to the massive wooden Roman and early Byzantine caissons discovered by the Lechaion Harbour Project (LHP):

Lovén, B., Athanasopoulos, P., Schowalter, D. and Rife, J. (2018) 'The Lechaion Harbour Project', Archaeological Reports, 64, pp. 21–32.

Rothaus, R.M. (1995) 'Lechaion, Western Port of Corinth: A Preliminary Archaeology and History', Oxford Journal of Archaeology, 14(3), pp. 293–306.

Exports and Imports

Slane, K.W. (2000) 'East-West Trade in Fine Wares and Commodities: The View from Corinth', Rei Cretariae Romanae Fautorum Acta, 36, pp. 299–312.

Williams, C.K. (1993) 'Roman Corinth as a Commercial Center', in Gregory, T.E. (ed.) The Corinthia in the Roman Period. Ann Arbor: Journal of Roman Archaeology, pp. 31–46.

Timeline

For the precise dating of the port's ultimate demise, specifically the seismic/tectonic uplift and tsunami events of the 6th century AD that silted the inner basins:

Riddick, N., Reinhardt, E.G., Boyce, J.I., Lovén, B. and Athanasopoulos, P. (2021) 'Multi-proxy palaeoenvironmental record of coastal tectonic uplift and abandonment (ca. 6th c. CE) of Lechaion's inner harbour, ancient Corinth, Greece', Quaternary Science Reviews, 267, p. 107080.

Stiros, S.C. (1998) 'Archaeological evidence for historical earthquakes and morphological changes in the Lechaion Harbour (Corinth, Greece)', in Earthquakes and Ancient Cities. Athens: Institute of Geology and Mineral Exploration (IGME), pp. 120–125.