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The Conversation
The Conversation
Anna K. Behrensmeyer, Senior Research Geologist and Curator of Vertebrate Paleontology, Smithsonian Institution

Fossilized footprints reveal 2 extinct hominin species living side by side 1.5 million years ago

Excavating the new trackway site, with footprints from hominins, birds and other animals visible in foreground. Neil Roach

Human footprints stir the imagination. They invite you to follow, to guess what someone was doing and where they were going. Fossilized footprints preserved in rock do the same – they record instants in the lives of many different extinct organisms, back to the earliest creatures that walked on four feet, 380 million years ago.

Discoveries in eastern Africa of tracks made by hominins – our ancient relatives – are telling paleontologists like ourselves about the behavior of hominin species that walked on two feet and resembled us but were not yet human like we are today. Our new research focuses on footprints that amazingly record two different species of hominins walking along the same Kenyan lakeshore at the same time, roughly 1.5 million years ago.

Studying ancient tracks like these fills in exciting pieces of the human evolution story because they provide evidence for hominin behavior and locomotion that scientists cannot learn from fossilized bones.

Finding first fossilized footprints in Kenya

The first discovery of tracks of early hominins in Kenya’s Lake Turkana region happened by chance in 1978. A team led by one of us (Behrensmeyer) and paleoecologist Léo Laporte was exploring the geology and fossils of the rich paleontological record of East Turkana. We focused on documenting the animals and environments represented in one “time slice” of widespread sediments deposited about 1.5 million years ago.

man squats on excavation surface, brushing with paintbrush
Kimolo Mulwa at the site of the first hominin footprint discovery in 1978. Deep, sand-filled depressions to his left show hippopotamus tracks in cross section. Anna K. Behrensmeyer

We collected fossils from the surface and dug geological step trenches to document the sediment layers that preserved the fossils. The back wall of one of the trenches showed deep depressions in a layer of solidified mud that we thought might be hippo tracks. We were curious about what they looked like from the top down – what scientists call the “plan view” – so we decided to expose 1 square meter of the footprint surface next to the trench.

When I returned from more fossil bone surveys, Kimolo Mulwa, one of the expert Kenyan field assistants on the project, had carefully excavated the top of the mudstone layer and there was a broad smile on his face. He said, “Mutu!” – meaning “person” – and pointed to a shallow humanlike print in among the deep hippo tracks.

indentations on flat sediment surface
The excavated surface shows the hominin trackway along with footprints of hippos, a large bird and other animals. For the photo, scientists filled the hominin tracks and a few other footprints with dark sand so they would stand out against the light-colored sediment. Anna K. Behrensmeyer

I could hardly believe it, but, yes, a humanlike footprint was clearly recognizable on the excavated surface. And there were more hominin tracks, coming our way out of the strata. It was awe-inspiring to realize we were connecting with a moment in the life of a hominin that walked here 1½ million years ago.

We excavated more of the surface and eventually found seven footprints in a line, showing that the hominin had walked eastward out of softer mud onto a harder, likely shallower surface. At one point the individual’s left foot had slipped into a deep hippo print and the hominin caught itself on its right foot to avoid falling – we could see this clearly along the trackway.

Comparison of a fossil footprint and a modern one
Comparison of the best-preserved 1978 hominin track, left, with a modern track (women’s size 7) made by Behrensmeyer on the muddy shoreline of Lake Turkana. The white objects inside the fossil footprint are calcified fillings of worm burrows or roots that formed in the sediment after the track was buried. Anna K. Behrensmeyer

Even today on the shore of modern Lake Turkana, it’s easy to slip into hippo prints, especially if the water is a bit cloudy. We joked about being sorry our hominin track-maker didn’t fall on its hands, or face, so we could have a record of those parts, too.

Another set of tracks

Over four decades later, in 2021, paleontologist Louise Leakey and her Kenyan research team were excavating hominin fossils discovered in the same area when team member Richard Loki uncovered a portion of another hominin trackway. Leakey invited one of us (Hatala) and paleoanthropologist Neil Roach to excavate and study the new trackway, because of our experience working on other hominin footprint sites.

3D image of footprints pressed into a surface
A 3D image of part of the 2021 excavated surface made by photogrammetry, which shows the tracks of two hominin species crossing. Kevin Hatala

The team, including 10 expert Kenyan field researchers led by Cyprian Nyete, excavated the surface and documented the tracks with photogrammetry – a method for 3D imaging. This is the best way to collect track surfaces because the sediments are not hard enough – what geologists call lithified – to remove from the ground safely and take to a museum.

The newly discovered tracks were made approximately 1.5 million years ago. They occur at an earlier stratigraphic level than the ones we found in 1978 and are about a hundred thousand years older, based on dating of volcanic deposits in the East Turkana strata.

aerial view of about a dozen people standing in a curve on a rocky bare landscape
Research team members along the perimeter of the ancient footprint trackway. Louise N. Leakey

Who was passing through?

These footprints are especially exciting because careful anatomical and functional analysis of their shapes shows that two different kinds of hominins made tracks on the same lakeshore, within hours to a few days of each other, possibly even within minutes!

We know the footprints were made very close together in time because experiments on the modern shoreline of Lake Turkana show that a muddy surface suitable for preserving clear tracks doesn’t last long before being destroyed by waves or cracked by exposure to the Sun.

fossilized indentations of footprints receding into distance on sandy-looking ground
A trackway of footprints scientists hypothesize were created by a Paranthropus boisei individual. Neil T. Roach

This is the first time ever that scientists have been able to say that Homo erectus and Paranthropus boisei – one our likely ancestor and the other a more distant relative – actually coexisted at the same time and place. Along with many different species of mammals, they were both members of the ancient community that inhabited the Turkana Basin.

Not only that, but with the new tracks as references, our analyses suggest that other previously described hominin tracks in the same region indicate that these two hominins coexisted in this area of the Turkana Basin for at least 200,000 years, repeatedly leaving their footprints in the shallow lake margin habitat.

Other animals left tracks there as well – giant storks, smaller birds such as pelicans, antelope and zebra, hippos and elephants – but hominin tracks are surprisingly common for a land-based species. What were they doing, returning again and again to this habitat, when other primates, such as baboons, apparently did not visit the lakeshore and leave tracks there?

silhouette of a tree with circles for about 20 hominin species, showing their relationships
The track-making species Homo erectus and Paranthropus boisei are on two different branches of the hominin family tree. Smithsonian Human Origins Program, modified by author from original artwork

These footprints provoke new thoughts and questions about our early relatives. Were they eating plants that grew on the lakeshore? Some paleontologists have proposed this possibility for the robust Paranthropus boisei because the chemistry of its teeth indicate a specific herbivorous diet of grasslike and reedlike plants. The same chemical tests on teeth of Homo erectus – the ancestral species to Homo sapiens – show a mixed diet that likely included animal protein as well as plants.

The lake margin habitat offered food in the form of reeds, freshwater bivalves, fish, birds and reptiles such as turtles and crocodiles, though it could have been dangerous for bipedal primates 4 or 5 feet (1.2 to 1.5 meters) tall. Even today, people living along the shore occasionally are attacked by crocodiles, and local hippos can be aggressive as well. So, whatever drew the hominins to the lakeshore must have been worth some risk.

For now it’s impossible to know exactly how the two species interacted. New clues about their behavior could be revealed with future excavations of more trackway surfaces. But it is fascinating to imagine these two hominin “cousins” being close neighbors for hundreds of thousands of years.

people carrying water buckets at a sandy construction site in open landscape
Construction of the Ileret footprint site museum, with Daasanach women carrying water for mixing concrete. National Museums of Kenya Audio Visual

Ancient footprints you can visit

Earlier excavations of hominin trackways near a village called Ileret, 25 miles (40 km) to the north of our new site, are being developed as a museum through a project by the National Museums of Kenya. The public, the local Daasanach people, educational groups and tourists will be able to see a large number of 1.5-million-year-old hominin footprints on one excavated surface.

That layer preserves tracks of at least eight hominin individuals, and we now believe they represent members of both Homo erectus and Paranthropus boisei. Among these is a subset of individuals, all about the same adult size, who were moving in the same direction and appear to have been traveling as a group along the lake margin.

The museum built over the track site is designed to prevent erosion of the site and to protect it from seasonal rains. A community outreach and education center associated with the museum aims to engage local educational groups and young people in learning and teaching others about this exceptional record of human prehistory preserved in their backyard. The new site museum is scheduled to open in January 2025.

The Conversation

Anna K. Behrensmeyer currently receives funding for her research from the Smithsonian Institution, the Turkana Basin Institute, and the Leakey Foundation. Fieldwork that discovered the first hominin trackway at East Turkana was supported by National Science Foundation Grant EAR77-23149 to Behrensmeyer and Léo Laporte, and by the Faculty Research Committee, University of California, Santa Cruz.

Kevin Hatala currently receives research grant funding from the National Science Foundation. His work described here was supported by NSF grants BCS-2335894 and BCS-1825403, and by the Turkana Basin Institute. He has received prior research funding from the National Science Foundation, Leakey Foundation, Wenner Gren Foundation, and Evolving Earth Foundation.

Purity Kiura has received funding from the British Council Cultural Protection Fund for cultural protection and conservation works at the Ileret Footprint site. The project also received funding from Gordon Getty for education and public programs in prehistory. Other partners in the project include the International Centre for the Study in the Preservaton and Restoration of Cultural Protection (ICCROM, Rome), George Washington Unversity, Chatham University and the Technical University of Kenya.

This article was originally published on The Conversation. Read the original article.

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