To most people, complex technologies separate modern humans from their ancestors who lived in the Stone Age thousands or hundreds of thousands of years ago. In today’s fast-changing world, older technologies, even those from a few years ago, are often described dismissively as the “Stone Age.”
Such terms serve to disconnect us from our ancient relatives, who were much more sophisticated than we sometimes think they were.
A team led by archaeologist Larry Barham at the University of Liverpool recently published robust and well-dated evidence for the earliest known use of wood technology. The wooden structure, along with artifacts, date to 476,000 years ago and have been excavated from waterlogged deposits at Kalambo Falls, Zambia.
This archaeological site is famous for producing traces of human cultural development dating to hundreds of thousands of years ago.
The remarkably well-preserved evidence found by Barham and colleagues includes, among other things, a wedge (a type of wooden tool), a digging stick, a log cut with the help of tools, and a branch with a notch cut into it.
But why, in the age of AI and robotics, should wood technology from nearly half a million years ago generate so much interest from both scientists and the public?
The evidence from Kalambo Falls demonstrates the remarkable ability of early hominins (ancient human relatives) to source wood and shape it with tools. They were able to produce not only an assortment of other tools but also sophisticated wooden structures. We don’t know what species made the structure, but Homo heidelbergensis or a species similar to Homo naledi might be candidates, among others.
These results have far-reaching implications for our understanding of how sustainable materials were used in the Early Stone Age. It also sheds light on the capabilities of early hominins.
From speculation to fact
Archaeology is the study of deep and recent history using the remains of things left by people who came before us. However, these histories are biased in favor of things that have either survived the passage of time or decayed but left traces.
Humans lived in the era known as the Stone Age for nearly 99 percent of human history. The Early Stone Age is considered the earliest and perhaps longest “technological age,” stretching from nearly four million years ago to 300,000 years ago.
We know more about stone tools during this early phase of human development, in part because inorganic materials such as rocks are nearly indestructible compared to those made of perishable materials like wood.
Indeed, wood is very scarce in deposits belonging to the Early Stone Age, requiring exceptional conditions of preservation to avoid decaying. It survives only in extremely dry environments such as deserts or extremely wet conditions — as was the case at Kalambo Falls.
Given the scarcity of evidence, direct proof of the intentional use of wood from more than 400,000 years ago sharply transforms our understanding of the antiquity of wood as a technology — and how long hominins have been interacting with this versatile material. They used it to make tools, build shelters, obtain food, and perhaps even for fuel as they went about their daily lives.
Although researchers had suspected that wood technology was widely used by early hominins, without hard, direct evidence, we could not accept that as fact. Archaeology is a discovery and evidence-based field of study — seeing is believing. The Kalambo Falls discovery transformed speculation into fact, changing our understanding of the history of technology.
Benefiting the environment
However, part of the challenge comes from concepts of human history which could be described as progressivist or linear — that envisage history as an inevitable advance towards modernity through scientific and technological achievement.
In the past, some scientists considered the minds of early hominins to have been more limited compared to those of modern humans. They believed technology and culture improved in sophistication as human brain size increased, moving from a “simple” state to the complex, algorithm-dominated world we live in today.
Despite the fact that brain sizes have increased over time and that technology has changed, it is possible that those who came before us had an impressive understanding of the materials around them and cared for their surroundings.
The intentionally shaped wood construction from Kalambo Falls is an illustration of design, technology, and creativity — using what, in today’s world, we would call green technology.
Notions of “progress” are quite deeply embedded in culture. This can also be a proxy for the exceptionalism of modern humans (Homo sapiens) — the belief that there is something unique or exemplary about our species compared with earlier hominins. If we put these notions aside, we can recognize that so-called “backward technologies” can greatly benefit the environment and the planet.
The fact that wood is perishable makes it a more sustainable material, unlike some modern construction materials that are nearly indestructible and leave conspicuous ruins. Manufacturing these modern materials also emits greenhouse gases that contribute to climate change.
Of course, there are risks associated with using wood as a construction material, such as fire and decay. But in appropriate situations, we should continue our long tradition of building in wood. Perhaps the ancients were not so backward but more progressive than us when it came to looking after the planet through sound decision-making.
In summary, the Kalambo Falls evidence suggests that, at least sometimes, early hominins were able to take advantage of materials other than stone for their everyday needs, including tool-making and shelter. They might also have been able to use the resources in their environment for fuel and medicine.
However, we need more direct evidence, going back to the beginnings of the Stone Age, to demonstrate how those who came before us used and worked with wood. More discoveries like this might even lead us to rename the mighty Stone Age as the Wood Age.
This article was originally published on The Conversation by Shadreck Chirikure at the University of Oxford UCL. Read the original article here.