On the ecological impact of prehistoric hunter-gatherers in Europe: Early Holocene (Mesolithic) and Last Interglacial (Neanderthal) foragers compared

Anastasia Nikulina; Anhelina Zapolska; Maria Antonia Serge; Didier M. Roche; Florence Mazier; Marco Davoli; Elena A. Pearce; Jens Christian Svenning; Dave van Wees; Ralph Fyfe; Katharine MacDonald; Wil Roebroeks; Fulco Scherjon

doi:10.1371/journal.pone.0328218

On the ecological impact of prehistoric hunter-gatherers in Europe: Early Holocene (Mesolithic) and Last Interglacial (Neanderthal) foragers compared

Anastasia Nikulina^*, Anhelina Zapolska, Maria Antonia Serge, Didier M. Roche, Florence Mazier, Marco Davoli, Elena A. Pearce, Jens Christian Svenning, Dave van Wees, Ralph Fyfe, Katharine MacDonald, Wil Roebroeks, Fulco Scherjon

^*Corresponding author for this work

Earth Sciences

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

Recent studies have highlighted evidence of human impact on landscapes dating back to the Late Pleistocene–long before the advent of agriculture. Quantifying the extent of vegetation transformations by hunter-gatherers remains a major research challenge. We address this challenge by comparing climate-based potential natural vegetation cover with pollen-based vegetation reconstructions for the Last Interglacial and the Early Holocene. Differences between these datasets suggest that climate alone cannot fully explain the pollen-based vegetation patterns in Europe during these periods. To explore this issue, we used an upgraded version of the HUMan impact on LANDscapes (HUMLAND) agent-based model (ABM), combined with a genetic algorithm, to generate vegetation change scenarios. By comparing ABM outputs with pollen-based reconstructions, we aimed to identify parameter values that yield HUMLAND results closely matching the pollen-based vegetation cover. The updated ABM covers a broad temporal range, and incorporates the effects of hunting on herbivores and their influence on vegetation regeneration. The results show that the combined effects of megafauna, natural fires, and climatic fluctuations alone lead to vegetation cover estimates that are inconsistent with paleoecological reconstructions. Instead, anthropogenic burning played a key role, with modelling results suggesting that European landscapes were already substantially modified by humans by the Early Holocene. In scenarios where human-induced burning was minimal or absent, foragers still shaped landscapes indirectly through hunting, which influenced herbivore densities and their impact on vegetation dynamics. Our study revealed that Neanderthals and Mesolithic humans influenced similar-sized areas around their campsites and shared comparable preferences for vegetation openness. Our results challenge the assumption that pre-agricultural humans had minimal ecological impact. Instead, this study provides strong evidence that both Neanderthals and Mesolithic foragers actively shaped European interglacial ecosystems, influencing vegetation dynamics long before agriculture.

Original language	English
Article number	e0328218
Pages (from-to)	1-32
Number of pages	32
Journal	PLoS ONE
Volume	20
Issue number	10 October
Early online date	22 Oct 2025
DOIs	https://doi.org/10.1371/journal.pone.0328218
Publication status	Published - Oct 2025

Bibliographical note

Publisher Copyright:
© 2025 Nikulina et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Funding

The research is financed through the European Union’s Horizon 2020 research and innovation programme within the TERRANOVA project, No 813904, and supported by the Liveable Planet programme of Leiden University. The paper reflects the views only of the authors, and the European Union cannot be held responsible for any use which may be made of the information contained therein. Jens-Christian Svenning was further supported by the VILLUM Investigator project “Biodiversity Dynamics in a Changing World”, funded by VILLUM FONDEN (grant 16549), Center for Ecological Dynamics in a Novel Biosphere (ECONOVO), funded by Danish National Research Foundation (grant DNRF173), and the Independent Research Fund Denmark Natural Sciences project MegaComplexity (grant 0135–00225B). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. This work was performed using compute resources from the Academic Leiden Interdisciplinary Cluster Environment (ALICE) provided by Leiden University. We would like to thank Prof. Jan Kolen (Leiden University, The Netherlands), Prof. Corrie Bakels (Leiden University, The Netherlands), Dr. Tuna Kalayci (Leiden University, The Netherlands), Dr. Frank Arthur (University College of Southeast Norway, Norway), Prof. Hans Renssen (University College of Southeast Norway, Norway), Dr. Kim Cohen (Utrecht University, The Netherlands), Prof. Guido R. van der Werf (Vrije University, The Netherlands), Prof. Amanda Henry (Leiden University, The Netherlands), Oda Nuij (Leiden University, The Netherlands), and Isabeau Aurore Bertrix (Université Paris Saclay, France). We extend our gratitude to all the members of the Human Origins group at Leiden University (The Netherlands) for inspiring discussions. The authors would also like to thank Prof. Louis M. François (University of Liège, Belgium) for providing the CARAIB global dynamic vegetation model and his help in running it.

Funders	Funder number
University College of Southeast Norway
ECONOVO
VILLUM
Université Paris-Saclay
Isabeau Aurore Bertrix
European Commission
Center for Ecological Dynamics in a Novel Biosphere
Universiteit Leiden
Horizon 2020 Framework Programme	813904
Villum Fonden	16549
Danmarks Grundforskningsfond	DNRF173
Danmarks Frie Forskningsfond	0135–00225B

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Nikulina, A., Zapolska, A., Serge, M. A., Roche, D. M., Mazier, F., Davoli, M., Pearce, E. A., Svenning, J. C., van Wees, D., Fyfe, R., MacDonald, K., Roebroeks, W., & Scherjon, F. (2025). On the ecological impact of prehistoric hunter-gatherers in Europe: Early Holocene (Mesolithic) and Last Interglacial (Neanderthal) foragers compared. PLoS ONE, 20(10 October), 1-32. Article e0328218. https://doi.org/10.1371/journal.pone.0328218

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abstract = "Recent studies have highlighted evidence of human impact on landscapes dating back to the Late Pleistocene–long before the advent of agriculture. Quantifying the extent of vegetation transformations by hunter-gatherers remains a major research challenge. We address this challenge by comparing climate-based potential natural vegetation cover with pollen-based vegetation reconstructions for the Last Interglacial and the Early Holocene. Differences between these datasets suggest that climate alone cannot fully explain the pollen-based vegetation patterns in Europe during these periods. To explore this issue, we used an upgraded version of the HUMan impact on LANDscapes (HUMLAND) agent-based model (ABM), combined with a genetic algorithm, to generate vegetation change scenarios. By comparing ABM outputs with pollen-based reconstructions, we aimed to identify parameter values that yield HUMLAND results closely matching the pollen-based vegetation cover. The updated ABM covers a broad temporal range, and incorporates the effects of hunting on herbivores and their influence on vegetation regeneration. The results show that the combined effects of megafauna, natural fires, and climatic fluctuations alone lead to vegetation cover estimates that are inconsistent with paleoecological reconstructions. Instead, anthropogenic burning played a key role, with modelling results suggesting that European landscapes were already substantially modified by humans by the Early Holocene. In scenarios where human-induced burning was minimal or absent, foragers still shaped landscapes indirectly through hunting, which influenced herbivore densities and their impact on vegetation dynamics. Our study revealed that Neanderthals and Mesolithic humans influenced similar-sized areas around their campsites and shared comparable preferences for vegetation openness. Our results challenge the assumption that pre-agricultural humans had minimal ecological impact. Instead, this study provides strong evidence that both Neanderthals and Mesolithic foragers actively shaped European interglacial ecosystems, influencing vegetation dynamics long before agriculture.",

author = "Anastasia Nikulina and Anhelina Zapolska and Serge, \{Maria Antonia\} and Roche, \{Didier M.\} and Florence Mazier and Marco Davoli and Pearce, \{Elena A.\} and Svenning, \{Jens Christian\} and \{van Wees\}, Dave and Ralph Fyfe and Katharine MacDonald and Wil Roebroeks and Fulco Scherjon",

note = "Publisher Copyright: {\textcopyright} 2025 Nikulina et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.",

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Nikulina, A, Zapolska, A, Serge, MA, Roche, DM, Mazier, F, Davoli, M, Pearce, EA, Svenning, JC, van Wees, D, Fyfe, R, MacDonald, K, Roebroeks, W & Scherjon, F 2025, 'On the ecological impact of prehistoric hunter-gatherers in Europe: Early Holocene (Mesolithic) and Last Interglacial (Neanderthal) foragers compared', PLoS ONE, vol. 20, no. 10 October, e0328218, pp. 1-32. https://doi.org/10.1371/journal.pone.0328218

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T2 - Early Holocene (Mesolithic) and Last Interglacial (Neanderthal) foragers compared

AU - Nikulina, Anastasia

AU - Zapolska, Anhelina

AU - Serge, Maria Antonia

AU - Roche, Didier M.

AU - Mazier, Florence

AU - Davoli, Marco

AU - Pearce, Elena A.

AU - Svenning, Jens Christian

AU - van Wees, Dave

AU - Fyfe, Ralph

AU - MacDonald, Katharine

AU - Roebroeks, Wil

AU - Scherjon, Fulco

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PY - 2025/10

Y1 - 2025/10

N2 - Recent studies have highlighted evidence of human impact on landscapes dating back to the Late Pleistocene–long before the advent of agriculture. Quantifying the extent of vegetation transformations by hunter-gatherers remains a major research challenge. We address this challenge by comparing climate-based potential natural vegetation cover with pollen-based vegetation reconstructions for the Last Interglacial and the Early Holocene. Differences between these datasets suggest that climate alone cannot fully explain the pollen-based vegetation patterns in Europe during these periods. To explore this issue, we used an upgraded version of the HUMan impact on LANDscapes (HUMLAND) agent-based model (ABM), combined with a genetic algorithm, to generate vegetation change scenarios. By comparing ABM outputs with pollen-based reconstructions, we aimed to identify parameter values that yield HUMLAND results closely matching the pollen-based vegetation cover. The updated ABM covers a broad temporal range, and incorporates the effects of hunting on herbivores and their influence on vegetation regeneration. The results show that the combined effects of megafauna, natural fires, and climatic fluctuations alone lead to vegetation cover estimates that are inconsistent with paleoecological reconstructions. Instead, anthropogenic burning played a key role, with modelling results suggesting that European landscapes were already substantially modified by humans by the Early Holocene. In scenarios where human-induced burning was minimal or absent, foragers still shaped landscapes indirectly through hunting, which influenced herbivore densities and their impact on vegetation dynamics. Our study revealed that Neanderthals and Mesolithic humans influenced similar-sized areas around their campsites and shared comparable preferences for vegetation openness. Our results challenge the assumption that pre-agricultural humans had minimal ecological impact. Instead, this study provides strong evidence that both Neanderthals and Mesolithic foragers actively shaped European interglacial ecosystems, influencing vegetation dynamics long before agriculture.

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On the ecological impact of prehistoric hunter-gatherers in Europe: Early Holocene (Mesolithic) and Last Interglacial (Neanderthal) foragers compared

Abstract

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