A new study challenged the belief that environmental factors were solely responsible for the shift from hunting and gathering to farming, revealing that humans played an active role in this transition. The research indicates that early farmers and hunter-gatherers influenced each other during this period, emphasizing the impact of human social interactions.
For hundreds of thousands of years, humans lived as hunters and gatherers, roaming in search of food. Approximately 12,000 years ago, a major change occurred as humans shifted to a more settled farming lifestyle, marking the end of the foraging lifestyle that had sustained humanity for millennia. This transition led to progress in human societies.
Researchers from the University of Bath, the Max Planck Institute for Evolutionary Anthropology, the University of Cambridge, and UCL developed a new mathematical model, originally designed to study predator-prey interactions, to examine the transition from hunter-gatherer societies to farming. By adapting this ecological model that mimics interactions between different species, they explored how population growth shaped history.
"Our study provides a new perspective on prehistoric societies," said Dr. Javier Rivas from the Department of Economics at the University of Bath, according to Science Daily. "By statistically fitting our theoretical predator-prey model to observed population dynamics inferred from radiocarbon dates, we explored how population growth shaped history and uncovered interesting patterns—such as how the spread of farming, whether by land or sea, influenced interactions between different groups."
The researchers used radiocarbon dating as a basis for their model. Radiocarbon dates, mostly from organic material, act as a demographic proxy: the more dates, the larger the population. In this context, farmers are considered the predators and hunter-gatherers the prey. Factors such as group migration and cultural assimilation were included in the analysis.
"By statistically fitting our model to observed population dynamics inferred from the radiocarbon dates, we can better understand how our variables relate to the existing archaeological record," explained co-author Enrico Crema from the University of Cambridge. This approach allowed the team to explore how conditions could have promoted a rapid diffusion of farming or a longer persistence of the hunter-gatherer lifestyle.
The study found that early farming societies spread through migration, competition, and cultural mixing, reshaping how hunter-gatherers lived and interacted with their environment. Differences in population growth and mortality, shaped by competition between hunter-gatherers and early farming communities, played a key role in how agriculture spread and developed across different regions.
"This led to a new form of coexistence among human groups, with different regions demonstrating their own characteristics in the spread of agriculture," noted the researchers. "In some areas, farmers displaced hunters, while in others, coexistence and mixing occurred."
Dr. Rivas added, "We hope the methods we've developed will eventually become a standard tool for understanding how populations interacted in the past, offering fresh insight into other key moments in history, not just the shift to farming." The research team plans to build on their model by adding more details and testing it in larger regions.
The article was written with the assistance of a news analysis system.