Please use this identifier to cite or link to this item: https://hdl.handle.net/10419/234812 
Year of Publication: 
2020
Series/Report no.: 
Document de travail No. 2020-12
Publisher: 
Université du Québec à Montréal, École des sciences de la gestion (ESG UQAM), Département des sciences économiques, Montréal
Abstract: 
We harness big data to detect prime locations-large clusters of knowledge-based tradable services-in 125 global cities and track changes in the within-city geography of prime service jobs over a century. Historically smaller cities that did not develop early public transit networks are less concentrated today and have prime locations farther away from their historic cores. We rationalize these findings in an agent-based model that features extreme agglomeration, multiple equilibria, and path dependence. Both city size and public transit networks anchor city structure. Exploiting major disasters and using a novel instrument-subway potential-we provide causal evidence for these mechanisms and disentangle size- from transport network effects.
Subjects: 
Prime services
internal city structure
agent-based model
multiple equilibria and path dependence
transport networks
JEL: 
R38
R52
R58
Document Type: 
Working Paper

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