Ship Emission Impacts on Air Quality and Human Health in the Pearl River Delta (PRD) Region, China, in 2015, With Projections to 2030

Ship emissions contribute to air pollution, increasing the adverse health impacts on people living in coastal cities. We estimated the impacts caused by ship emissions, both on air quality and human health, in 2015 and future (2030) within the Pearl River Delta (PRD) region of China. In addition, we...

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Main Authors: Chen Chen, Eri Saikawa, Bryan Comer, Xiaoli Mao, Dan Rutherford
Format: Article
Language:English
Published: American Geophysical Union (AGU) 2019-09-01
Series:GeoHealth
Subjects:
PM
Online Access:https://doi.org/10.1029/2019GH000183
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spelling doaj-bd89eb6d4d7747e8a89adfbe96a1a5a12020-11-25T01:18:41ZengAmerican Geophysical Union (AGU)GeoHealth2471-14032019-09-013928430610.1029/2019GH000183Ship Emission Impacts on Air Quality and Human Health in the Pearl River Delta (PRD) Region, China, in 2015, With Projections to 2030Chen Chen0Eri Saikawa1Bryan Comer2Xiaoli Mao3Dan Rutherford4Department of Environmental Sciences Emory University Atlanta GA USADepartment of Environmental Sciences Emory University Atlanta GA USAInternational Council on Clean Transportation (ICCT) Washington DC USAInternational Council on Clean Transportation (ICCT) Washington DC USAInternational Council on Clean Transportation (ICCT) Washington DC USAShip emissions contribute to air pollution, increasing the adverse health impacts on people living in coastal cities. We estimated the impacts caused by ship emissions, both on air quality and human health, in 2015 and future (2030) within the Pearl River Delta (PRD) region of China. In addition, we assessed the potential health benefits of implementing an Emission Control Area (ECA) in the region by predicting avoided premature mortality with and without an ECA. In 2015, ship emissions increased PM2.5 concentrations and O3 mixing ratios by 1.4 μg/m3 and 1.9 ppb, respectively, within the PRD region. This resulted in 466 and 346 excess premature acute deaths from PM2.5 and O3, respectively. Premature mortality from chronic exposures was even more significant, with 2,085 and 852 premature deaths from ship‐related PM2.5 and O3, respectively. In 2030, we projected the future ship emissions with and without an ECA, using two possible land scenarios. With an ECA, we predicted 76% reductions in SO2 and 13% reductions in NOx from the shipping sector. Assuming constant land emissions from 2015 in 2030 (2030 Constant scenario), we found that an ECA could avoid 811 PM2.5‐related and 108 O3‐related deaths from chronic exposures. Using 2030 Projected scenario for land emissions, we found that an ECA would avoid 1,194 PM2.5‐related and 160 O3‐related premature deaths in 2030. In both scenarios, implementing an ECA resulted in 30% fewer PM2.5‐related premature deaths and 10% fewer O3‐related premature deaths, illustrating the importance of reducing ship emissions.https://doi.org/10.1029/2019GH000183air pollutionemissionsshiphealthChinaPM
collection DOAJ
language English
format Article
sources DOAJ
author Chen Chen
Eri Saikawa
Bryan Comer
Xiaoli Mao
Dan Rutherford
spellingShingle Chen Chen
Eri Saikawa
Bryan Comer
Xiaoli Mao
Dan Rutherford
Ship Emission Impacts on Air Quality and Human Health in the Pearl River Delta (PRD) Region, China, in 2015, With Projections to 2030
GeoHealth
air pollution
emissions
ship
health
China
PM
author_facet Chen Chen
Eri Saikawa
Bryan Comer
Xiaoli Mao
Dan Rutherford
author_sort Chen Chen
title Ship Emission Impacts on Air Quality and Human Health in the Pearl River Delta (PRD) Region, China, in 2015, With Projections to 2030
title_short Ship Emission Impacts on Air Quality and Human Health in the Pearl River Delta (PRD) Region, China, in 2015, With Projections to 2030
title_full Ship Emission Impacts on Air Quality and Human Health in the Pearl River Delta (PRD) Region, China, in 2015, With Projections to 2030
title_fullStr Ship Emission Impacts on Air Quality and Human Health in the Pearl River Delta (PRD) Region, China, in 2015, With Projections to 2030
title_full_unstemmed Ship Emission Impacts on Air Quality and Human Health in the Pearl River Delta (PRD) Region, China, in 2015, With Projections to 2030
title_sort ship emission impacts on air quality and human health in the pearl river delta (prd) region, china, in 2015, with projections to 2030
publisher American Geophysical Union (AGU)
series GeoHealth
issn 2471-1403
publishDate 2019-09-01
description Ship emissions contribute to air pollution, increasing the adverse health impacts on people living in coastal cities. We estimated the impacts caused by ship emissions, both on air quality and human health, in 2015 and future (2030) within the Pearl River Delta (PRD) region of China. In addition, we assessed the potential health benefits of implementing an Emission Control Area (ECA) in the region by predicting avoided premature mortality with and without an ECA. In 2015, ship emissions increased PM2.5 concentrations and O3 mixing ratios by 1.4 μg/m3 and 1.9 ppb, respectively, within the PRD region. This resulted in 466 and 346 excess premature acute deaths from PM2.5 and O3, respectively. Premature mortality from chronic exposures was even more significant, with 2,085 and 852 premature deaths from ship‐related PM2.5 and O3, respectively. In 2030, we projected the future ship emissions with and without an ECA, using two possible land scenarios. With an ECA, we predicted 76% reductions in SO2 and 13% reductions in NOx from the shipping sector. Assuming constant land emissions from 2015 in 2030 (2030 Constant scenario), we found that an ECA could avoid 811 PM2.5‐related and 108 O3‐related deaths from chronic exposures. Using 2030 Projected scenario for land emissions, we found that an ECA would avoid 1,194 PM2.5‐related and 160 O3‐related premature deaths in 2030. In both scenarios, implementing an ECA resulted in 30% fewer PM2.5‐related premature deaths and 10% fewer O3‐related premature deaths, illustrating the importance of reducing ship emissions.
topic air pollution
emissions
ship
health
China
PM
url https://doi.org/10.1029/2019GH000183
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