Critical factors for mitigating car traffic in cities

Car traffic in urban systems has been studied intensely in past decades but models are either limited to a specific aspect of traffic or applied to a specific region. Despite the importance and urgency of the problem we have a poor theoretical understanding of the parameters controlling urban car us...

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Veröffentlicht in:	PloS one 2019-07, Vol.14 (7), p.e0219559
Hauptverfasser:	Verbavatz, Vincent, Barthelemy, Marc
Format:	Artikel
Sprache:	eng
Schlagworte:	Air Pollution - analysis Asia Australia Automobiles Biology and Life Sciences Carbon Dioxide Carbon dioxide effects Carbon dioxide emissions Censuses Choice Behavior Cities Cities and towns Commuting Drivers Earth Sciences Ecology and Environmental Sciences Emissions Engineering and Technology Environmental Monitoring - methods Environmental policy Europe Gasoline Greenhouse gases Humans Land surveys Local transit Metropolitan areas Motor vehicle drivers North America Particulate Matter - analysis Physical Sciences Physics Population Population (statistical) Population Density Probability Public transportation Railroads Risk factors Social Sciences Traffic Traffic accidents Traffic congestion Transportation Urban areas Urban Population Urbanization Vehicle Emissions - analysis
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creator	Verbavatz, Vincent Barthelemy, Marc
description	Car traffic in urban systems has been studied intensely in past decades but models are either limited to a specific aspect of traffic or applied to a specific region. Despite the importance and urgency of the problem we have a poor theoretical understanding of the parameters controlling urban car use and congestion. Here, we combine economical and transport ingredients into a statistical physics approach and propose a generic model that predicts for different cities the share of car drivers, the CO2 emitted by cars and the average commuting time. We confirm these analytical predictions on 25 major urban areas in the world, and our results suggest that urban density is not the most relevant variable controlling car-related quantities but rather are the city's area size and the density of public transport. Mitigating the traffic (and its effect such as CO2 emissions) can then be obtained by reducing the urbanized area size or, more realistically, by improving either the public transport density or its access. In particular, increasing the population density is a good idea only if it also increases the fraction of individuals having access to public transport.
doi_str_mv	10.1371/journal.pone.0219559
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Despite the importance and urgency of the problem we have a poor theoretical understanding of the parameters controlling urban car use and congestion. Here, we combine economical and transport ingredients into a statistical physics approach and propose a generic model that predicts for different cities the share of car drivers, the CO2 emitted by cars and the average commuting time. We confirm these analytical predictions on 25 major urban areas in the world, and our results suggest that urban density is not the most relevant variable controlling car-related quantities but rather are the city's area size and the density of public transport. Mitigating the traffic (and its effect such as CO2 emissions) can then be obtained by reducing the urbanized area size or, more realistically, by improving either the public transport density or its access. 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subjects	Air Pollution - analysis Asia Australia Automobiles Biology and Life Sciences Carbon Dioxide Carbon dioxide effects Carbon dioxide emissions Censuses Choice Behavior Cities Cities and towns Commuting Drivers Earth Sciences Ecology and Environmental Sciences Emissions Engineering and Technology Environmental Monitoring - methods Environmental policy Europe Gasoline Greenhouse gases Humans Land surveys Local transit Metropolitan areas Motor vehicle drivers North America Particulate Matter - analysis Physical Sciences Physics Population Population (statistical) Population Density Probability Public transportation Railroads Risk factors Social Sciences Traffic Traffic accidents Traffic congestion Transportation Urban areas Urban Population Urbanization Vehicle Emissions - analysis
title	Critical factors for mitigating car traffic in cities
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