Cultural evolution caused broad-scale historical declines of large mammals across China

Cultural evolution caused broad-scale historical declines of large mammals across China
Map of the northern boundary of Asian elephant (Elephas maximus) in the study area over the past four millennia, based on multiple archaeological and historical sources. The distribution dynamics were inconsistent with the trend of mean annual temperature across the study area. Oracle bone scripts were used for divination by a cultural group recognized as Chinese ancestors ruling much of the North China Plain. The significant similarity between these scripts and their modern forms for the large mammals supports the past wide distribution of these taxa in ancient China. Credit: Shuqing Teng

Cultural evolution has been the dominant driver of range contractions in megafauna taxa across China since the beginning of the Common Era, with little or no direct importance of climate. A research team led by Aarhus University along with collaborators from Nanjing University analyzed maps of megafauna distribution dynamics and societal development based on Chinese archival records alongside data on climate across China from 2 to 1953 CE.

Human activities are now playing a dominant role in driving changes in Earth's biodiversity and are responsible for the incipient sixth mass extinction, but the historical processes leading to this situation are poorly understood, often without emphasis on as a potential key process underlying anthropogenic impacts. A team of researchers from Aarhus University and Nanjing University has now shown that cultural evolution overshadowed change in driving historical broad-scale biodiversity dynamics.

By mining the deep Chinese administrative records in relation to culturally important wild species as well as sociocultural development, the researchers identified the millennia-long spread of agricultural land and agricultural intensification, as well as the specific expansion of the Han culture, as the main cause of the extirpation of five megafauna species from much of China, with little or no direct importance of climate.

Cultural evolution, not climate change, as the main driver

"China's well-preserved written records for more than 2000 years provide a unique opportunity to reconstruct long-term dynamics of culture-nature interactions across large geographical extents," says senior author Professor Jens-Christian Svenning, director of Center for Biodiversity Dynamics in a Changing World (BIOCHANGE), Aarhus University. The five studied megafauna taxa include Asiatic elephant (Elephas maximus), Asian rhinoceroses (Rhinoceros sondaicus, R. unicornis and Dicerorhinus sumatrensis), tiger (Panthera tigris), Asiatic black bear (Ursus thibetanus), and brown bear (Ursus arctos), all of which were widely distributed across the study area and have played an important role in ancient China's cultural activities.

Cultural evolution caused broad-scale historical declines of large mammals across China
The Sumatran rhinoceros (Dicerorhinus sumatrensis) was widely distributed in eastern China in historical times, but was extirpated due to increasing human pressure -- and process that has continued to the present day in its remaining range in southeast Asia, threatening to cause the complete extinction of this species, with likely less than 80 individuals surviving, all in Indonesia. Credit: Drawing by Friedrich Wilhelm Kuhnert, CC0 Public Domain

"Ancient China used to host a highly biodiverse assemblage of large mammals even in its nowadays densely populated areas such as the North China Plain and the Middle-Lower Yangtze Plain. Our research shows that the relatively recent loss of this rich megafauna in large part can be attributed to the southward expansion of intensified agricultural practices with the Han culture, which originated in North China," explains postdoc Shuqing Teng from Aarhus University and Nanjing University, the first author of the study.

Regional extirpation of these taxa from the study area were consistent with the sociocultural dynamics described above, but inconsistent with climate change. There were at least two conspicuous cooling-warming cycles during the last 2,000 years, including the Medieval Warm Period and the Little Ice Age, with fluctuations of mean annual temperature around 1 to 1.5 °C, but neither had a conspicuous effect on the megafauna range dynamics.

Importance of cultural filtering

The study provides clear evidence that cultural evolution historically has overshadowed past climate change in shaping broad-scale megafauna patterns, in contrast to the common belief that human societies were unimportant in driving biodiversity dynamics at such large spatiotemporal scales until recent time frames such as the Industrial Revolution or the Great Acceleration of the 20th century.

This finding highlights the importance of culture's role in filtering current ecological assemblages from historical species pools. Perspectives through the lens of cultural filtering should also stimulate thoughts on what is natural—notably helping to overcome the Shifting Baseline Syndrome, the tendency to accept an already degraded state as natural due to lacking recognition of earlier declines—and which we aim to conserve or restore.

Furthermore, modification of cultural filters will be key to responding to the challenges of the Anthropocene biodiversity crisis, as it is fundamentally culturally driven, as shown by this study of historical China, and how to achieve this is an important research challenge.

Explore further

Study finds Chinese plant biodiversity at risk due to human activity

More information: Shuqing N. Teng el al., "Long-term effects of cultural filtering on megafauna species distributions across China," PNAS (2019).
Provided by Aarhus University
Citation: Cultural evolution caused broad-scale historical declines of large mammals across China (2019, December 23) retrieved 27 September 2022 from
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.

Feedback to editors