Activity-based air pollution exposure assessment: Differences between homemakers and cycling commuters

Meng Lu; Oliver Schmitz; Ilonca Vaartjes; Derek Karssenberg

doi:10.1016/j.healthplace.2019.102233

Activity-based air pollution exposure assessment: Differences between homemakers and cycling commuters

Meng Lu, Oliver Schmitz, Ilonca Vaartjes, Derek Karssenberg

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Abstract

Long-term air pollution exposure may lead to an increase in incidences and mortality rates of chronic diseases and adversely affect human health. The effects of long-term air pollution exposure have not been comprehensively studied due to the lack of human mobility data collected over a long period. In this study, we develop and apply a personal mobility model to long-term hourly air pollution concentration predictions to quantify personal long-term air pollution exposure for all individuals. We implement our model assuming mobility patterns for commuters and homemakers, and separate between weekdays and weekend. Our results show that NO2 exposure of commuters are on average slightly higher and vary less spatially as they are exposed to NO2 at multiple locations.

Original language	English
Article number	102233
Journal	Health & place
Volume	60
DOIs	https://doi.org/10.1016/j.healthplace.2019.102233
Publication status	Published - Nov 2019

Keywords

Activity
Agent-based modelling
Air pollution
Data poor
Exposure
Space-time path

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title = "Activity-based air pollution exposure assessment: Differences between homemakers and cycling commuters",

abstract = "Long-term air pollution exposure may lead to an increase in incidences and mortality rates of chronic diseases and adversely affect human health. The effects of long-term air pollution exposure have not been comprehensively studied due to the lack of human mobility data collected over a long period. In this study, we develop and apply a personal mobility model to long-term hourly air pollution concentration predictions to quantify personal long-term air pollution exposure for all individuals. We implement our model assuming mobility patterns for commuters and homemakers, and separate between weekdays and weekend. Our results show that NO2 exposure of commuters are on average slightly higher and vary less spatially as they are exposed to NO2 at multiple locations.",

keywords = "Activity, Agent-based modelling, Air pollution, Data poor, Exposure, Space-time path",

author = "Meng Lu and Oliver Schmitz and Ilonca Vaartjes and Derek Karssenberg",

note = "Funding Information: This research is funded by the Global Geo Health Data Center (Utrecht University) and the Startimpulsprogramma Meten en Detecteren van Gezond Gedrag (Dutch Science Foundation). We are grateful to the contributions from the reviewers. We thank Ton Marcus for his advises and contributions on improving the figures. Funding Information: This research is funded by the Global Geo Health Data Center ( Utrecht University ) and the Startimpulsprogramma Meten en Detecteren van Gezond Gedrag ( Dutch Science Foundation ). We are grateful to the contributions from the reviewers. We thank Ton Marcus for his advises and contributions on improving the figures. Publisher Copyright: {\textcopyright} 2019 Elsevier Ltd",

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doi = "10.1016/j.healthplace.2019.102233",

language = "English",

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T2 - Differences between homemakers and cycling commuters

AU - Lu, Meng

AU - Schmitz, Oliver

AU - Vaartjes, Ilonca

AU - Karssenberg, Derek

N1 - Funding Information: This research is funded by the Global Geo Health Data Center (Utrecht University) and the Startimpulsprogramma Meten en Detecteren van Gezond Gedrag (Dutch Science Foundation). We are grateful to the contributions from the reviewers. We thank Ton Marcus for his advises and contributions on improving the figures. Funding Information: This research is funded by the Global Geo Health Data Center ( Utrecht University ) and the Startimpulsprogramma Meten en Detecteren van Gezond Gedrag ( Dutch Science Foundation ). We are grateful to the contributions from the reviewers. We thank Ton Marcus for his advises and contributions on improving the figures. Publisher Copyright: © 2019 Elsevier Ltd

PY - 2019/11

Y1 - 2019/11

N2 - Long-term air pollution exposure may lead to an increase in incidences and mortality rates of chronic diseases and adversely affect human health. The effects of long-term air pollution exposure have not been comprehensively studied due to the lack of human mobility data collected over a long period. In this study, we develop and apply a personal mobility model to long-term hourly air pollution concentration predictions to quantify personal long-term air pollution exposure for all individuals. We implement our model assuming mobility patterns for commuters and homemakers, and separate between weekdays and weekend. Our results show that NO2 exposure of commuters are on average slightly higher and vary less spatially as they are exposed to NO2 at multiple locations.

AB - Long-term air pollution exposure may lead to an increase in incidences and mortality rates of chronic diseases and adversely affect human health. The effects of long-term air pollution exposure have not been comprehensively studied due to the lack of human mobility data collected over a long period. In this study, we develop and apply a personal mobility model to long-term hourly air pollution concentration predictions to quantify personal long-term air pollution exposure for all individuals. We implement our model assuming mobility patterns for commuters and homemakers, and separate between weekdays and weekend. Our results show that NO2 exposure of commuters are on average slightly higher and vary less spatially as they are exposed to NO2 at multiple locations.

KW - Activity

KW - Agent-based modelling

KW - Air pollution

KW - Data poor

KW - Exposure

KW - Space-time path

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SN - 1353-8292

VL - 60

JO - Health & place

JF - Health & place

M1 - 102233

ER -

Activity-based air pollution exposure assessment: Differences between homemakers and cycling commuters

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