A new study led by scientists at the Max Planck Institute of Geoanthropology challenges traditional ideas about the habitability of ancient tropical forests and suggests that West Africa may be an important center of the evolution of our species. Homo sapiens.
The Bete I site in Ivory Coast and other African sites from around 130,000-190,000 years ago. Image credits: Awakening et al. , doi: 10.1038/s41586-025-08613-y.
Homo sapiens It is believed that it appeared in Africa about 300,000 years ago before it was dispersed around the world.
Humans lived in the rainforests in Asia and Oceania 45,000 years ago, but there was the earliest evidence to connect people to the rainforests in Africa about 18,000 years ago.
“Our species are thought to have emerged in Africa 300,000 years ago before they were dispersed to occupy all the biomes of the world, from deserts to densely populated rainforests,” says Dr. Eslem Ben Araus, a researcher at the National Center for Human Evolution and a geographer at the Max Planck Institute.
“While grasslands and coasts are usually given advantages in studying the cultural and environmental contexts of human emergence and spread, recent evidence relates several regions and ecosystems during the early prehistoric periods of our species.”
“The tropical rainforest settlements in Asia and Oceania have been well documented as early as 45,000 years ago, and perhaps 73,000 years ago.”
“However, despite evidence that central Stone Age assembly is widespread in modern African rainforest regions, the oldest safe and close human associations with such damp tropical forests in Africa are not more than about 18,000.”
In their study, in the Agnama region of Côte de Iboir in West Africa, Dr. Auros and co-authors focused on the archaeological site of Bethe I.
The site is 150,000 years old and contains signs of human occupation, such as stone tools such as picks and small objects.
“Several recent climate models suggest that even during the arid season of forest fragmentation, the area may have been a refuge for rainforests,” said Professor Eleanor Serli, a researcher at the Max Planck Institute.
“We knew this site offered the best possible opportunity to know how much it has returned to past rainforest settlements.”
Researchers investigated sediment samples of precipitated plants called pollen, silicid plant plants, and investigated wax isotopes in the leaves.
Their analysis shows that the area is rich in woodland and has pollen and leaf wax typical of wet West African rainforests.
Low levels of grass pollen showed that this site was not in narrow forest strips and not in dense forests.
“This exciting discovery is the first in a long list, as there are other Koiboria sites waiting to be investigated to study the human presence associated with rainforests.”
“Convergent evidence shows that there is no doubt that ecological diversity is at the heart of our species,” added Professor Scerri.
“This reflects the complex history of the population plots in which different populations lived in different regions and habitat types.”
“We now need to ask how these early human niche expansions affected the flora and fauna that shared the same niche space with humans.”
“In other words, how much will human changes in human nature's habitat return?”
study Today I'll be appearing in the journal Nature.
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E. Ben Aurus et al. A man from a wet tropical forest in Africa 150,000 years ago. NaturePublished online on February 26th, 2025. doi:10.1038/s41586-025-08613-y
Source: www.sci.news
