Did Nomads and their Herds Carve Out the Silk Road?
Nearly 5,000 years ago, long before Marco Polo traversed the vast east-west trade routes of the Great Silk Road, nomads were carving the foundations for these trans-Asian interaction networks.
“Our model shows that long-term strategies of mobility by highland nomadic herders structured enduring routes for seasonal migrations to summer pastures, which correspond significantly with the evolving geography of ‘Silk Road’ interaction across Asia’s mountains,” says Michael Frachetti, associate professor of anthropology at Washington University in St. Louis.
The study, published in the journal Nature, combines satellite analysis, human geography, archaeology, and Geographic Information Systems (GIS) to show that 75 percent of ancient Silk Road sites across highland Inner Asia fall along the paths its model simulates as optimal for moving herds to and from prime mountain meadows.
The model’s innovative approach of tracing pasture-driven pathways suggests a number of alternate routes to many known Silk Road sites. It also provides a high-resolution mapping of other possibly important Silk Road routes that are previously unidentified and little researched, including an unexplored corridor into the Tibetan Plateau to the south of Dunhuang, China.
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Shifting lines in this animation of the Pastoralist Participation Model show the routes predicted to be most likely used by herders descending from highland pastures (white shading) to an array of lowland sites (darker shading). The routes predicted to be traveled most heavily appear red. (Credit: M. Frachetti)
Connect the dots
For over a century, the Silk Road—a term coined in 1877 by German explorer Baron von Richthofen—has intrigued modern historians and archaeologists who wish to understand the emergence of what many consider the world’s most complex ancient overland trade system.
“The locations of ancient cities, towns, shrines, and caravan stops have long illustrated key points of interaction along this vast network, but defining its many routes has been far more elusive,” Frachetti says. “As a result, there is little known of the detailed pathways used for millennia by merchants, monks, and pilgrims to navigate and interact across the highlands of Inner Asia.”
Scholars have previously traced Silk Road trade corridors by modeling the shortest “least-cost” paths between major settlements and trade hubs. This connect-the-dots approach makes sense in lowland areas where direct routes across arid plains and open deserts correlate with ease of travel between trade centers. But it’s not the way highland pastoralists traditionally move in rugged mountain regions, Frachetti argues.
A nomadic pastoralist moves cattle across the foothills of Kazakhstan. (Credit: Michael Frachetti)
“The routes of Silk Road interaction were never static, and certainly not in the mountains. Caravans traversing Asia were oriented by diverse factors, yet in the mountains their routes likely grew out of historically ingrained pathways of nomads, who were knowledgeable and strategic in mountain mobility.”
Though Inner Asia’s massive mountains separated oasis societies living in hot, arid lowlands, the region’s mountain nomads were united by a shared ecological challenge: hot summers that left lowland pastures parched and barren. In response, mobile pastoralists evolved a similar strategy for success across the entire mountain corridor: escaping the grass-withering summer heat by driving flocks to higher elevations.
“Archaeology documents the development of mountain-herding economies in highland Asia as early as 3000 BC, and we argue that centuries of ecologically strategic mobility on the part of these herders etched the foundational routes and geography of ancient trans-Asian trade networks,” Frachetti says.
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Extent of Silk Route/Silk Road. Red is land route and the blue is the sea/water route. (Public Domain)
To test the theory, researchers designed a model that simulates highland herding mobility as “flows” directed by seasonally available meadows. Although the model is generated without using Silk Road sites in its calculations, the pathways it projects show remarkable geographic overlap with known Silk Road locations compiled independently by Tim Williams, a leading Silk Road scholar at the Institute of Archaeology, University College London.
“The development of the Silk Roads through lowland deserts, fertile piedmonts, and oases was influenced by many factors. However, the overlay of pasture-driven routes and known Silk Road sites indicate that the highland Silk Roads networks (750 m to 4,000 m) emerged in relation to long-established seasonal mobility patterns used by nomadic herders in the mountains of Inner Asia,” Williams says.
Frachetti, who directs the Spatial Analysis, Interpretation, and Exploration (SAIE) laboratory, has studied nomadic herding cultures and their ancient trade networks around the world. He has led excavations at sites in Uzbekistan, Kazakhstan, and other Central Asian countries.
His field work documents that these societies had inter-continental connections spanning thousands of years, a phenomenon he traces to the antiquity of cross-valley pathways that, once engrained, formed the grassroots network that became the Silk Road.
Caravan on the Silk Road, 1380. (Public Domain)
Proving that theory is challenging because the Silk Road’s central corridor runs through some of Inner Asia’s most remote mountain ranges: the Hindu Kush in Northern Afghanistan; the Pamir in Tajikistan; the Dzhungar in Kazakhstan; the Tian Shan in Kyrgyzstan, Kazakhstan, and Xinjiang (China); and the Altai Mountains in Kazakhstan, Russia, and Mongolia.
His approach relies on the creative application of GIS and Remote Sensing tools normally used to simulate the flow of streams, rivers and other drainage through watersheds. In hydrological applications, “flow accumulation” relies on the known properties of water being pulled to lower elevations by gravity, generating calculations that show how runoff feeds into a network of ever-larger streams and rivers.
Frachetti swaps gravity for grass and uses the flow accumulation algorithm to calculate how the quality of lush pasture might channel flows of seasonally nomadic herders across a massive, 4,000-kilometer-wide cross-section of Asia’s mountainous corridor.
The study area, which spans portions of Iran, India, Russia, Mongolia, and China, was divided into a grid of one-kilometer cells, each of which received a numerical rating for grass productivity based on the reflectance of vegetation detected in multi-spectral satellite imagery. GIS software was used to calculate paths highland herders likely followed as pursuit of best-available grazing pulled them toward lowland settlements. The most likely routes were defined as those with the greatest cumulative flow over top pastures.
Geography of Inner Asian study zone (in color) and location of main Silk Road cities across Asia. (Credit: Michael Frachetti)
As Frachetti has found in earlier research, nomads do not wander aimlessly. Pastoralist movement through the mountains is rooted in local knowledge of the landscape and is guided by ecological factors, like the seasonal productivity of grassy meadows. Most confine their migrations to a small regular orbit that is closely repeated from year to year.
His flow model accommodates variation through time in the scale and distribution of prime highland grasslands, but suggests that the broad geography of mountain pasture has not changed drastically over the past several thousand years. Routes oriented for the best grazing would be well known to nomads making similar seasonal migrations over many generations.
Varying the simulated mobility model over 500 iterations (the rough equivalent of 20 generations), well-defined, grass-driven mobility patterns emerged. When the route-building process is shown dynamically, small pasture-based paths appear as rivulets and streams that converge over zones of rich pasture to form rivers of nomadic mobility.
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Channels, not barriers
While the study provides broad support for Frachetti’s theories about the early evolution of the Silk Road, it also provides a roadmap for future research aimed at uncovering ancient structures of social participation across the mountains of Central Asia.
It also offers lessons about the importance of participation and connectivity in overcoming the great challenges that continue to confront civilizations.
“This model demonstrates that these rugged mountains were not huge barriers that forced regional communities into isolation, but acted as channels for economic and political forms of participation that supported long-standing connections between neighboring communities,” Frachetti says.
“It illustrates that civilization’s greatest accomplishments—evidenced in the amazing scale of Silk Road connectivity—often arise organically in environments where connectivity is the norm; isolation here would be a formula for disaster.”
Overland on the Ancient Silk Road. (Public Domain)
Top Image: An aggregate “flow accumulation” model finds that nearly 75 percent of ancient Silk Road sites in the Inner Asian highlands fall along pathways (shown in red) that ancient Central Asian nomads likely used to move herds to prime summer pastures. Source: M.Frachetti/ T. Bukowski
The article ‘Did Nomads and their Herds Carve Out the Silk Road?’ by Gerry Everding-WUSTL was originally published on Futurity and has been republished under a Creative Commons license.