@article{6f300f24b1b241feb7f41009c24575ea,
title = "Synchronization of energy consumption by human societies throughout the Holocene",
abstract = "We conduct a global comparison of the consumption of energy by human populations throughout the Holocene and statistically quantify coincident changes in the consumption of energy over space and time-an ecological phenomenon known as synchrony. When populations synchronize, adverse changes in ecosystems and social systems may cascade from society to society. Thus, to develop policies that favor the sustained use of resources, we must understand the processes that cause the synchrony of human populations. To date, it is not clear whether human societies display long-term synchrony or, if they do, the potential causes. Our analysis begins to fill this knowledge gap by quantifying the long-term synchrony of human societies, and we hypothesize that the synchrony of human populations results from (i) the creation of social ties that couple populations over smaller scales and (ii) much larger scale, globally convergent trajectories of cultural evolution toward more energy-consuming political economies with higher carrying capacities. Our results suggest that the process of globalization is a natural consequence of evolutionary trajectories that increase the carrying capacities of human societies.",
keywords = "Globalization, Human ecology, Radiocarbon, Sustainability, Synchrony",
author = "Jacob Freeman and Baggio, {Jacopo A.} and Erick Robinson and Byers, {David A.} and Eugenia Gayo and Finley, {Judson Byrd} and Meyer, {Jack A.} and Kelly, {Robert L.} and John Anderies",
note = "Funding Information: This work was supported by the National Science Foundation. National Science Foundation Grants BCS 14-18858 and 16-24061 (to R.L.K.) supported the synthesis of North American radiocarbon dates, and National Science Foundation Grant SMA-1620457 (to J.F. and J.A.B.) supported this work through the development of new analytical frameworks. E.G. was supported by Center for Climate and Resilience Research 2 Project FONDAP 15110009 and Center of Applied Ecology and Sustainability Project FB-0002-2014. Funding Information: ACKNOWLEDGMENTS. We acknowledge the advice of three anonymous reviewers, whose efforts greatly improved the manuscript. We also thank the PEOPLE 3000 working group and Past Global Changes for supporting our work. This work was supported by the National Science Foundation. National Science Foundation Grants BCS 14-18858 and 16-24061 (to R.L.K.) supported the synthesis of North American radiocarbon dates, and National Science Foundation Grant SMA-1620457 (to J.F. and J.A.B.) supported this work through the development of new analytical frameworks. E.G. was supported by Center for Climate and Resilience Research 2 Project FONDAP 15110009 and Center of Applied Ecology and Sustainability Project FB-0002-2014. Publisher Copyright: {\textcopyright} 2018 National Academy of Sciences. All rights reserved.",
year = "2018",
month = oct,
day = "2",
doi = "10.1073/pnas.1802859115",
language = "English (US)",
volume = "115",
pages = "9962--9967",
journal = "Proceedings of the National Academy of Sciences of the United States of America",
issn = "0027-8424",
publisher = "National Academy of Sciences",
number = "40",
}