Health and climate impacts of future United States land freight modelled with global-to-urban models

Liang Liu; Taesung Hwang; Sungwon Lee; Yanfeng Ouyang; Bumsoo Lee; Steven J. Smith; Christopher W. Tessum; Julian D. Marshall; Fang Yan; Kathryn Daenzer; Tami C. Bond

doi:10.1038/s41893-019-0224-3

Health and climate impacts of future United States land freight modelled with global-to-urban models

Liang Liu, Taesung Hwang, Sungwon Lee, Yanfeng Ouyang, Bumsoo Lee, Steven J. Smith, Christopher W. Tessum, Julian D. Marshall, Fang Yan, Kathryn Daenzer, Tami C. Bond

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

51 Scopus citations

Abstract

Driven by economic growth, globalization and e-commerce, freight per capita in the United States has been consistently increasing in recent decades. Projecting to 2050, we explore the emissions, and health and climate impacts of US freight truck and rail transport under various policy scenarios. We predict that, overall, air pollutant emissions and health impacts from the freight-truck-rail system will be greatly reduced from 2010 to 2030, while long-term climate forcing will continue to increase if petroleum is the fuel source. A carbon tax could shift freight shipments from trucking to energy-efficient rail, providing the greatest reduction in long-term forcing among all policies (24%), whereas a policy enforcing truck fleet maintenance would cause the largest reduction in air pollutant emissions, offering the largest reduction in mortalities (36%). Increasing urban compactness could reduce freight activity but increase population exposure per unit emission, offering slight health benefits over the current urban sprawl trend (13%).

Original language	English
Pages (from-to)	105-112
Number of pages	8
Journal	Nature Sustainability
Volume	2
Issue number	2
DOIs	https://doi.org/10.1038/s41893-019-0224-3
State	Published - 1 Feb 2019

Bibliographical note

Publisher Copyright:
© 2019, The Author(s), under exclusive licence to Springer Nature Limited.

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10.1038/s41893-019-0224-3

Cite this

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title = "Health and climate impacts of future United States land freight modelled with global-to-urban models",

abstract = "Driven by economic growth, globalization and e-commerce, freight per capita in the United States has been consistently increasing in recent decades. Projecting to 2050, we explore the emissions, and health and climate impacts of US freight truck and rail transport under various policy scenarios. We predict that, overall, air pollutant emissions and health impacts from the freight-truck-rail system will be greatly reduced from 2010 to 2030, while long-term climate forcing will continue to increase if petroleum is the fuel source. A carbon tax could shift freight shipments from trucking to energy-efficient rail, providing the greatest reduction in long-term forcing among all policies (24%), whereas a policy enforcing truck fleet maintenance would cause the largest reduction in air pollutant emissions, offering the largest reduction in mortalities (36%). Increasing urban compactness could reduce freight activity but increase population exposure per unit emission, offering slight health benefits over the current urban sprawl trend (13%).",

author = "Liang Liu and Taesung Hwang and Sungwon Lee and Yanfeng Ouyang and Bumsoo Lee and Smith, {Steven J.} and Tessum, {Christopher W.} and Marshall, {Julian D.} and Fang Yan and Kathryn Daenzer and Bond, {Tami C.}",

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AU - Liu, Liang

AU - Hwang, Taesung

AU - Lee, Sungwon

AU - Ouyang, Yanfeng

AU - Lee, Bumsoo

AU - Smith, Steven J.

AU - Tessum, Christopher W.

AU - Marshall, Julian D.

AU - Yan, Fang

AU - Daenzer, Kathryn

AU - Bond, Tami C.

PY - 2019/2/1

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N2 - Driven by economic growth, globalization and e-commerce, freight per capita in the United States has been consistently increasing in recent decades. Projecting to 2050, we explore the emissions, and health and climate impacts of US freight truck and rail transport under various policy scenarios. We predict that, overall, air pollutant emissions and health impacts from the freight-truck-rail system will be greatly reduced from 2010 to 2030, while long-term climate forcing will continue to increase if petroleum is the fuel source. A carbon tax could shift freight shipments from trucking to energy-efficient rail, providing the greatest reduction in long-term forcing among all policies (24%), whereas a policy enforcing truck fleet maintenance would cause the largest reduction in air pollutant emissions, offering the largest reduction in mortalities (36%). Increasing urban compactness could reduce freight activity but increase population exposure per unit emission, offering slight health benefits over the current urban sprawl trend (13%).

AB - Driven by economic growth, globalization and e-commerce, freight per capita in the United States has been consistently increasing in recent decades. Projecting to 2050, we explore the emissions, and health and climate impacts of US freight truck and rail transport under various policy scenarios. We predict that, overall, air pollutant emissions and health impacts from the freight-truck-rail system will be greatly reduced from 2010 to 2030, while long-term climate forcing will continue to increase if petroleum is the fuel source. A carbon tax could shift freight shipments from trucking to energy-efficient rail, providing the greatest reduction in long-term forcing among all policies (24%), whereas a policy enforcing truck fleet maintenance would cause the largest reduction in air pollutant emissions, offering the largest reduction in mortalities (36%). Increasing urban compactness could reduce freight activity but increase population exposure per unit emission, offering slight health benefits over the current urban sprawl trend (13%).

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Health and climate impacts of future United States land freight modelled with global-to-urban models

Abstract

Bibliographical note

UN SDGs

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