Nomadic ecology shaped the highland geography of Asia's Silk Roads

Michael D. Frachetti; C. Evan Smith; Cynthia M. Traub; Tim Williams

doi:10.1038/nature21696

Nomadic ecology shaped the highland geography of Asia's Silk Roads

Michael D. Frachetti
, C. Evan Smith
, Cynthia M. Traub
, Tim Williams

Arts & Sciences

Research output: Contribution to journal › Article › peer-review

209 Scopus citations

Abstract

There are many unanswered questions about the evolution of the ancient 'Silk Roads' across Asia. This is especially the case in their mountainous stretches, where harsh terrain is seen as an impediment to travel. Considering the ecology and mobility of inner Asian mountain pastoralists, we use 'flow accumulation' modelling to calculate the annual routes of nomadic societies (from 750 m to 4,000 m elevation). Aggregating 500 iterations of the model reveals a high-resolution flow network that simulates how centuries of seasonal nomadic herding could shape discrete routes of connectivity across the mountains of Asia. We then compare the locations of known high-elevation Silk Road sites with the geography of these optimized herding flows, and find a significant correspondence in mountainous regions. Thus, we argue that highland Silk Road networks (from 750 m to 4,000 m) emerged slowly in relation to long-established mobility patterns of nomadic herders in the mountains of inner Asia.

Original language	English
Pages (from-to)	193-198
Number of pages	6
Journal	Nature
Volume	543
Issue number	7644
DOIs	https://doi.org/10.1038/nature21696
State	Published - Mar 8 2017

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abstract = "There are many unanswered questions about the evolution of the ancient 'Silk Roads' across Asia. This is especially the case in their mountainous stretches, where harsh terrain is seen as an impediment to travel. Considering the ecology and mobility of inner Asian mountain pastoralists, we use 'flow accumulation' modelling to calculate the annual routes of nomadic societies (from 750 m to 4,000 m elevation). Aggregating 500 iterations of the model reveals a high-resolution flow network that simulates how centuries of seasonal nomadic herding could shape discrete routes of connectivity across the mountains of Asia. We then compare the locations of known high-elevation Silk Road sites with the geography of these optimized herding flows, and find a significant correspondence in mountainous regions. Thus, we argue that highland Silk Road networks (from 750 m to 4,000 m) emerged slowly in relation to long-established mobility patterns of nomadic herders in the mountains of inner Asia.",

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Nomadic ecology shaped the highland geography of Asia's Silk Roads

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