Grantee Research Project Results
2017 Progress Report: SEARCH: Solutions to Energy, AiR, Climate, and Health
EPA Grant Number: R835871Center: Solutions for Energy, AiR, Climate and Health Center (SEARCH)
Center Director: Bell, Michelle L.
Title: SEARCH: Solutions to Energy, AiR, Climate, and Health
Investigators: Bell, Michelle L. , Zimmerman, Julie B. , Esty, Daniel C. , Deziel, Nicole Cardello , Peng, Roger D. , Hobbs, Benjamin F. , Streets, David G. , Eckelman, Matthew J. , Breysse, Patrick N. , Weyant, John P. , Gentner, Drew R. , Gentry, Bradford S. , Anastas, Paul T. , Wara, Michael W. , Zaitchik, Ben , Kerkez, Branko , Curriero, Frank , Katz, Howard , Ellis, J. Hugh , Son, Jiyoung , Peccia, Jordan , Gillingham, Kenneth , Koehler, Kirsten , Storelvmo, Trude , Zhang, Yang , Zhang, Yawei
Current Investigators: Bell, Michelle L. , Hobbs, Benjamin F. , Peng, Roger D. , Esty, Daniel C.
Institution: Yale University , Stanford University , The Johns Hopkins University , University of Michigan , North Carolina State University , Argonne National Laboratory
Current Institution: Yale University , Northeastern University , Stanford University , University of Chicago , University of Michigan , North Carolina State University , The Johns Hopkins University , Centers for Disease Control and Prevention , Pacific Northwest National Laboratory
EPA Project Officer: Callan, Richard
Project Period: October 1, 2015 through September 30, 2020 (Extended to September 30, 2022)
Project Period Covered by this Report: October 1, 2016 through September 30,2017
Project Amount: $9,999,990
RFA: Air, Climate And Energy (ACE) Centers: Science Supporting Solutions (2014) RFA Text | Recipients Lists
Research Category: Climate Change , Air Quality and Air Toxics , Airborne Particulate Matter Health Effects , Particulate Matter , Air
Objective:
The main objectives of the Solutions for Energy, AiR, Climate and Health (SEARCH) Center are to investigate energy-related transitions underway across the United States by combining state-of-the-science modeling of energy systems, air quality, climate and health. SEARCH aims to characterize factors contributing to emissions, air quality and health associated with key energy-related transitions to understand how these factors affect regional and local differences in air pollution and public health effects. In addition, we will identify key modifiable factors (e.g., transportation, land-use, power generation) and how those factors and their air pollution impacts are likely to change over time.
Progress Summary:
Project 1 (R835871C001) estimates how energy transitions in the United States affect emissions of air pollutants, including how modifiable factors influence regional emissions. This project uses detailed modeling of energy and emissions, including key feedbacks within the energy system and development of novel downscaling tools. Lifecycle Assessment will be used to estimate a broader set of emissions, such as those from manufacture of energy technologies.
Project 2 (R835871C002) assesses ambient levels and personal exposures of pollution corresponding to energy transitions taking place in a case study city by developing and deploying novel high-resolution monitors and considering modifiable factors, such as commuting patterns.
Project 3 (R835871C003) uses online coupled air quality modeling to estimate how energy transitions in Project 1 affect ambient concentrations. It also develops improved modeling tools to reduce uncertainty and better characterize temporal and spatial variation of pollutants and identify modifiable factors contributing to regional differences in pollution.
Project 4 (R835871C004) estimates the health consequences of energy transitions and incorporates key uncertainties and epidemiological analysis of understudied modifiable factors (e.g., urbanicity, land use). Climate change modeling (Project 3) will be used to estimate how the results of all the projects are affected by potential climate change. In addition, Project 4 estimates the climate change impact of emissions from the energy scenarios.
For project updates, please see individual project pages.
Support Unit Updates:
The Quantitative Methods Unit (QMU) for the SEARCH Center provides centralized statistical and data analytic services to all projects in the Center. The QMU brings extensive expertise in the analysis of environmental health and spatial-temporal data, and its investigators have long-standing collaborations with several members of the SEARCH research team. The objectives of the QMU are (1) Provide statistical analysis support for all four Center projects, including design consultation, analytical work and manuscript preparation; (2) Conduct statistical methodology research for application in all Center projects when existing approaches are insufficient to address the scientific questions of interest; and (3) Coordinate efforts across projects to ensure that all research findings are reproducible by making computer code and data sets available when possible.
We have completed a major study of the long-term chronic effects of coarse particulate matter on asthma prevalence and morbidity in children with Medicaid. This study was completed in conjunction with the simultaneous development of statistical methodology for examining the chronic effects of long-term exposure to air pollution. We also have made substantial progress on our methods development for the analysis of complex mixtures, which is relevant to Projects 2, 3 and 4. Our work on the weighted average fractions of likeness method (WAFL) can be used to examine the health effects of particulate matter composition
The Policy and Decision Making Facility Support Unit (Policy Unit) provides a way to bridge the gap between policymakers at the federal, state and local levels and the scientific community, as well as to ensure that the SEARCH research produces outputs that are beneficial for real-world decisions. In doing so, the Policy Unit helps to maximize the impact of the SEARCH contribution to public health and the environment. The Unit's specific objectives include (1) fostering policy-relevant science through an external Decision Making Team, (2) assisting SEARCH researchers with the development of specific energy policy scenarios for use in research projects using the Unit to connect to real-world policy and decision making, and (3) facilitating the dissemination of research findings in the policy arena and finding innovative ways to communicate with policymakers and the general public.
The Policy Unit continued to serve as a liaison between decisionmakers and the SEARCH researchers with regular meetings and other outreach with the policy community, particularly at the state level. Special emphasis was placed on working with the external Decision Making Team to ensure that the energy transition scenarios being used by the SEARCH researchers as part of Project 1 seemed relevant.
Through this collaboration with policymakers, the Policy Unit helped Project Team 1 to produce a refined set of relevant energy transitions scenarios to be considered in their data modeling. The set of energy transition scenarios to be analyzed include (1) increased distributed electricity generation and demand response, (2) high electric vehicle market penetration, (3) low long-term natural gas prices, (4) modernization of ports and marine shipping, and (5) innovations in building energy efficiency. Regular meetings were held with the investigators of Project 1 to discuss the policy implications and key assumptions of each transition scenario that will be built into their research models using the National Energy Modeling System.
Members of the Policy Unit met with a group of Northeastern state air directors at the Northeast States for Coordinated Use Air Management's annual meeting on April 27, 2017, to update them on the SEARCH project. Dan Esty delivered a summary presentation and then led an informal discussion. He also did a webinar organized by the National Association of Clean Air Agencies on August 9, 2017, that provided an opportunity to brief state and city air directors from across the country on the progress of the SEARCH research efforts. Ben Hobbs similarly briefed the Mid-Atlantic Regional Air Management Association on November 3, 2017.
Future Activities:
The QMU will continue work toward the successful completion of our specific objectives. We will be finalizing the development of the WAFL methods and will finalize our work investigating measurement error in air pollution exposure assessment in ecologic studies of health. We also will continue coordination with Project 3 in ongoing development of air pollution prediction methods for cohort studies and will work closely with Project 4 on investigating modifiable factors of air pollution health effects.
The Policy Unit will continue to work to connect the SEARCH Center to policymakers and ensure a robust flow of information and data between those who are making real-world environmental policy choices and the SEARCH project researchers. In doing so, the Policy Unit expects to advance the twin goals of producing policy-informed science and science-informed policy. The Policy Unit itself is not itself producing new scientific research, but instead is helping to sharpen the focus of the SEARCH research teams. It will continue to play an advisory role to the SEARCH Center by analyzing existing environmental policy reviews relevant to the various SEARCH projects and gathering insights from policymakers to better inform the hypotheses and experiments conducted by SEARCH researchers.
For future activities for projects, please see individual project pages.
Journal Articles: 74 Displayed | Download in RIS Format
Other center views: | All 119 publications | 74 publications in selected types | All 74 journal articles |
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Armstrong B, Bell ML, de Sousa Zanotti Stagliorio Coelho M, Leon Guo YL, Guo Y, Goodman P, Hashizume M, Honda Y, Kim H, Lavigne E, Michelozzi P. Longer-term impact of high and low temperature on mortality:an international study to clarify length of mortality displacement. Environmental Health Perspectives.2017 Oct 27;125(10):107009 |
R835871 (2018) R835871 (2020) |
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Bell M, Banerjee G, Pereira G. Residential mobility of pregnant women and implications for assessment of spatially-varying environmental exposures. JOURNAL OF EXPOSURE SCIENCE & ENVIRONMENTAL EPIDEMIOLOGY 2018;28(5):470-480. |
R835871 (2021) |
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Bravo MA, Anthopolos R, Bell ML, Miranda ML. Racial isolation and exposure to airborne particulate matter and ozone in understudied US populations: environmental justice applications of downscaled numerical model output. Environment International 2016;92-93:247-255. |
R835871 (2016) R835871 (2017) R835871 (2020) R835871C004 (2016) |
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Bravo MA, Ebisu K, Dominici F, Wang Y, Peng RD, Bell ML. Airborne fine particles and risk of hospital admissions for understudied populations: effects by urbanicity and short-term cumulative exposures in 708 U.S. counties. Environmental Health Perspectives 2017;125(4):594-601. |
R835871 (2016) R835871 (2017) R835871 (2018) R835871 (2020) R835871C004 (2016) R835871C004 (2017) R833863 (Final) R834798 (Final) |
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Gentner DR, Xiong F. Tracking pollutant emissions. Nature Geoscience 2017;10(12):883-884. |
R835871 (2018) R835871 (2019) R835871 (2020) R835871C002 (2017) |
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Glotfelty T, He J, Zhang Y. Improving organic aerosol treatments in CESM/CAM5: development, application, and evaluation. Journal of Advances in Modeling Earth Systems 2017;9(2):1506-1539. |
R835871 (2017) R835871 (2020) |
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Goldberg DL, Lamsal LN, Loughner CP, Swartz WH, Lu Z, Streets DG. A high-resolution and observationally constrained OMI NO2 satellite retrieval. Atmospheric Chemistry & Physics 2017;17(18):11403-11421. |
R835871 (2017) R835871 (2020) |
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Goldberg DL, Lu Z, Oda T, Lamsal LN, Liu F, Griffin D, McLinden CA, Krotkov NA, Duncan BN, Streets DG. Exploiting OMI NO2 satellite observations to infer fossil-fuel CO2 emissions from US megacities. Science of the Total Environment 2019;695:133805. |
R835871 (2019) R835871 (2020) |
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Guo Y, Gasparrini A, Li S, Sera F, Vicedo-Cabrera AM, Coelho MD, Saldiva PH, Lavigne E, Tawatsupa B, Punnasiri K, Overcenco A. Quantifying excess deaths related to heatwaves under climate change scenarios: a multicountry time series modelling study. PLoS Medicine 2018;15(7). |
R835871 (2019) R835871 (2020) |
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He J, He R, Zhang Y. Impacts of Air–sea Interactions on Regional Air Quality Predictions Using a Coupled Atmosphere-Ocean Model in Southeastern US. Aerosol and Air Quality Research. 2018 Apr 1;18:1044-67. |
R835871 (2018) R835871 (2020) |
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Heo S, Li L, Son J, Koutrakis P, Bell M. Associations Between Gestational Residential Radon Exposure and Term Low Birthweight in Connecticut, USA. EPIDEMIOLOGY 2024;35(6):834-843 |
R835871 (Final) |
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Humes M, Wang M, Kim S, Machesky J, Gentner D, Robinson A, Donahue N, Presto A. Limited Secondary Organic Aerosol Production from Acyclic Oxygenated Volatile Chemical Products. ENVIRONMENTAL SCIENCE TECHNOLOGY 2022;56(8):4806-4815. |
R835871 (2021) R835873 (2020) |
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Jin L, Berman JD, Warren JL, Levy JI, Thurston G, Zhang Y, Xu X, Wang S, Zhang Y, Bell ML. A land use regression model of nitrogen dioxide and fine particulate matter in a complex urban core in Lanzhou, China. Environmental Research 2019;177:108597. |
R835871 (2019) R835871 (2020) |
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Keet CA, Keller JP, Peng RD. Long-term coarse particulate matter exposure is associated with asthma among children in Medicaid. American Journal of Respiratory & Critical Care Medicine 2018;197(6):737-746. |
R835871 (2017) R835871 (2020) |
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Keller JP, Peng RD. Error in estimating area‐level air pollution exposures for epidemiology. Environmetrics 2019;30(8):e2573. |
R835871 (2019) R835871 (2020) |
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Khare P, Gentner DR. Considering the future of anthropogenic gas-phase organic compound emissions and the increasing influence of non-combustion sources on urban air quality. Atmospheric Chemistry and Physics 2018;18(8):5391-5413. |
R835871 (2018) R835871 (2019) R835871 (2020) |
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Krall JR, Hackstadt AJ, Peng RD. A hierarchical modeling approach to estimate regional acute health effects of particulate matter sources. Statistics in Medicine 2017;36(9):1461-1475. |
R835871 (2017) R835871 (2020) |
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Li H, Dailey J, Kale T, Besar K, Koehler K, Katz HE. Sensitive and selective NO2 sensing based on alkyl- and alkylthio-thiophene polymer conductance and conductance ratio changes from differential chemical doping. ACS Applied Materials & Interfaces 2017;9(24):20501-20507. |
R835871 (2017) R835871 (2018) R835871 (2019) R835871 (2020) R835871C002 (2017) |
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Li L, Blomberg A, Lawrence J, Requia W, Wei Y, Liu M, Peralta A, Koutrakis P. A spatiotemporal ensemble model to predict gross beta particulate radioactivity across the contiguos United States. ENVIRONMENTAL INTERNATIONAL 2021;456(106643). |
R835871 (2021) |
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Lim CC, Hayes RB, Ahn J, Shao Y, Silverman DT, Jones RR, Garcia C, Bell ML, Thurston GD. Long-term exposure to ozone and cause-specific mortality risk in the United States. American Journal of Respiratory and Critical Care Medicine 2019;200(8):1022-1031. |
R835871 (2019) R835871 (2020) R831697 (Final) R838300 (2020) |
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Liu JC, Wilson A, Mickley LJ, Dominici F, Ebisu K, Wang Y, Sulprizio MP, Peng RD, Yue X, Son JY, Anderson GB, Bell ML. Wildfire-specific fine particulate matter and risk of hospital admissions in urban and rural counties. Epidemiology 2017;28(1):77-85. |
R835871 (2017) R835871 (2018) R835871 (2020) R834798 (Final) |
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Liu JC, Wilson A, Mickley LJ, Ebisu K, Sulprizio MP, Wang Y, Peng RD, Yue X, Dominici F, Bell ML. Who among the elderly is most vulnerable to exposure to and health risks of fine particulate matter from wildfire smoke? American Journal of Epidemiology 2017;186(6):730-735. |
R835871 (2017) R835871 (2018) R835871 (2020) R834798 (Final) R835875 (2017) R835875 (2018) R835875 (2019) |
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Liu JC, Peng RD. The impact of wildfire smoke on compositions of fine particulate matter by ecoregion in the Western US. Journal of exposure science & environmental epidemiology. 2018 Sep 5:1. |
R835871 (2018) R835871 (2020) |
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Shi W, Zheng Y, Taylor AD, Yu J, Katz HE. Increased mobility and on/off ratio in organic field-effect transistors using low-cost guanine-pentacene multilayers. Applied Physics Letters 2017;111(4):043301. |
R835871 (2017) R835871 (2020) |
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Shi W, Yu J, Katz HE. Sensitive and selective pentacene-guanine field-effect transistor sensing of nitrogen dioxide and interferent vapor analytes. Sensors and Actuators B: Chemical 2018;254:940-948. |
R835871 (2017) R835871 (2020) |
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Silva GS, Warren JL, Deziel NC. Spatial modeling to identify sociodemographic predictors of hydraulic fracturing wastewater injection wells in Ohio census block groups. Environmental Health Perspectives 2018;126(6):067008 (8 pp.). |
R835871 (2018) R835871 (2020) CR839249 (2018) CR839249 (2019) CR839249 (Final) |
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Son JY, Liu JC, Bell ML. Temperature-related mortality:a systematic review and investigation of effect modifiers. Environmental Research Letters 2019;14(7):073004. |
R835871 (2019) R835871 (2020) R835871 (2021) |
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Son J-Y, Lane KJ, Lee J-T, Bell ML. Urban vegetation and heat-related mortality in Seoul, Korea. Environmental Research 2016;151:728-733. |
R835871 (2017) R835871 (2020) |
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Son J-Y, Lee HJ, Koutrakis P, Bell ML. Pregnancy and lifetime exposure to fine particulate matter and infant mortality in Massachusetts, 2001–2007. American Journal of Epidemiology 2017;186(11):1268-1276. |
R835871 (2017) R835871 (2018) R835871 (2020) |
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Son J-Y, Lee J-T, Bell ML. Is ambient temperature associated with risk of infant mortality? A multi-city study in Korea. Environmental Research 2017;158:748-752. |
R835871 (2017) R835871 (2020) |
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Vicedo-Cabrera A, Guo Y, Sera F, Huber V, Schlesner C, Mitchell D, Tong S, Coelho M, Saldiva P, Lavigne E, Correa P, Ortega N, Kan H, Osorio S, Kysely J, Urban A, Jaakkola J, Ryti N, Pascal M, Goodman PG, Zeka A, Michelozzi P, Scortichini M, Hashizume M, Honda Y, Hurtado-Diaz M, Cruz J, Seposo X, Kim H, Tobias A, Iniguez C, Forsberg B, Astrom DO, Ragettli MS, Roosli M, Guo YL, Wu CF, Zanobetti A, Schwartz J, Bell ML, Dang TN, Van DD, Heaviside C, Vardoulakis S, Hajat S, Haines A, Armstrong B, Ebi KL, Gasparrini A. Temperature-related mortality impacts under and beyond Paris Agreement climate change scenarios. CLIMATIC CHANGE 2018;150(3-4):391-402. |
R835871 (2021) |
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Warren J, Son JY, Leaderer BP, Bell ML. Investigating the impact of maternal residential mobility on identifying critical windows of susceptibility to ambient air pollution during pregnancy. American Journal of Epidemiology 2017; 187(5):992-1000. |
R835871 (2018) R835871 (2019) R835871 (2020) |
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Yahya K, Glotfelty T, Wang K, Zhang Y, Nenes A. Modeling regional air quality and climate: improving organic aerosol and aerosol activation processes in WRF/Chem version 3.7.1. Geoscientific Model Development 2017;10(6):2333-2363. |
R835871 (2017) R835871 (2020) |
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Zhang J, Gao Y, Luo K, Leung LR, Zhang Y, Wang K, Fan J. Impacts of compound extreme weather events on ozone in the present and future. Atmospheric Chemistry and Physics (Online). 2018 Jul 13;18(PNNL-SA-135886). |
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Esty DC, ML Bell. Business Leadership in Global Climate Change Responses . American Journal of Public Health2018;108(S2):S80-S84. |
R835871 (2018) R835871 (2020) |
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Levy Zamora M, Xiong F, Gentner D, Kerkez B, Kohrman-Glaser J, Koehler K. Field and laboratory evaluations of the low-cost plantower particulate matter sensor. Environmental Science & Technology 2018;53(2):838-849. |
R835871 (2018) R835871 (2019) R835871 (2020) |
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Keet CA, Keller JP, Peng RD. Long-term coarse particulate matter exposure is associated with asthma among children in Medicaid. American Journal of Respiratory and Critical Care Medicine. 2018 Mar 15;197(6):737-46. |
R835871 (2018) R835871 (2020) |
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Gong X, Lin Y, Bell ML, Zhan FB. Associations between maternal residential proximity to air emissions from industrial facilities and low birth weight in Texas, USA. Environment International 2018;120:181-198. |
R835871 (2019) R835871 (2020) |
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Tang Z, Zhang H, Bai H, Chen Y, Zhao N, Zhou M, Cui H, Lerro C, Lin X, Lv L, Zhang C. Residential mobility during pregnancy in Urban Gansu, China. Health & Place 2018;53:258-263. |
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Heo S, Bell ML, Lee JT. Comparison of health risks by heat wave definition: applicability of wet-bulb globe temperature for heat wave criteria. Environmental Research 2019;168:158-170. |
R835871 (2018) R835871 (2019) R835871 (2020) |
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Gillingham K, Huang P. Is abundant natural gas a bridge to a low-carbon future or a dead-end?. The Energy Journal 2019;40(2). |
R835871 (2018) R835871 (2019) R835871 (2020) |
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Nori-Sarma A, Benmarhnia T, Rajiva A, Azhar GS, Gupta P, Pednekar MS, Bell ML. Advancing our understanding of heat wave criteria and associated health impacts to improve heat wave alerts in developing country settings. International Journal of Environmental Research and Public Health 2019;16(12):2089. |
R835871 (2019) R835871 (2020) |
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Berman JD, Jin L, Bell ML, Curriero FC. Developing a geostatistical simulation method to inform the quantity and placement of new monitors for a follow-up air sampling campaign. Journal of exposure science & environmental epidemiology. 2019 Mar;29(2):248. |
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Berman JD, Jin L, Bell ML, Curriero FC. Developing a geostatistical simulation method to inform the quantity and placement of new monitors for a follow-up air sampling campaign. Journal of Exposure Science & Environmental Epidemiology 2019;29(2):248-257. |
R835871 (2019) |
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Goldberg DL, Lu Z, Streets DG, de Foy B, Griffin D, McLinden CA, Lamsal LN, Krotkov NA, Eskes H. Enhanced capabilities of TROPOMI NO2:estimating NOx from North American cities and power plants. Environmental Science & Technology 2019;53(21):12594-12601. |
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Heo S, Bell ML. Heat waves in South Korea:differences of heat wave characteristics by thermal indices. Journal of Exposure Science & Environmental Epidemiology 2019;29(6):790-805. |
R835871 (2019) R835871 (2020) |
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Sera F, Armstrong B, Tobias A, Vicedo-Cabrera AM, Åström C, Bell ML, Chen BY, de Sousa Zanotti Stagliorio Coelho M, Matus Correa P, Cruz JC, Dang TN. How urban characteristics affect vulnerability to heat and cold:a multi-country analysis. International Journal of Epidemiology 2019;48(4):1101-1112. |
R835871 (2019) R835871 (2020) |
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Son JY, Lee JT, Lane KJ, Bell ML. Impacts of high temperature on adverse birth outcomes in Seoul, Korea:disparities by individual-and community-level characteristics. Environmental Research 2019;168:460-466. |
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Chen G, Wang A, Li S, Zhao X, Wang Y, Li H, Meng X, Knibbs LD, Bell ML, Abramson MJ, Wang Y. Long-term exposure to air pollution and survival after ischemic stroke:the China national stroke registry cohort. Stroke 2019;50(3):563-570. |
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Heo S, Fong KC, Bell ML. Risk of particulate matter on birth outcomes in relation to maternal socio-economic factors:a systematic review. Environmental Research Letters 2019;14(12):123004. |
R835871 (2019) R835871 (2020) |
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Anderson GB, Barnes EA, Bell ML, Dominici F. The future of climate epidemiology:opportunities for advancing health research in the context of climate change. American Journal of Epidemiology 2019;188(5):866-872. |
R835871 (2019) R835871 (2020) R835872 (2019) |
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Nori-Sarma A, Anderson GB, Rajiva A, ShahAzhar G, Gupta P, Pednekar MS, Son JY, Peng RD, Bell ML. The impact of heat waves on mortality in Northwest India. Environmental Research 2019;176:108546. |
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Heo S, Bell ML. The influence of green space on the short-term effects of particulate matter on hospitalization in the US for 2000–2013. Environmental Research 2019;174:61-68. |
R835871 (2019) R835871 (2020) |
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Yan M, Wilson A, Bell ML, Peng RD, Sun Q, Pu W, Yin X, Li T, Anderson GB. The shape of the concentration-response association between fine particulate matter pollution and human mortality in Beijing, China, and its implications for health impact assessment. Environmental Health Perspectives 2019;127(6):067007. |
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Heo S, Nori-Sarma A, Lee K, Benmarhnia T, Dominici F, Bell ML. The use of a quasi-experimental study on the mortality effect of a heat wave warning system in Korea. International Journal of Environmental Research and Public Health 2019;16(12):2245. |
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Goldberg DL, Gupta P, Wang K, Jena C, Zhang Y, Lu Z, Streets DG. Using gap-filled MAIAC AOD and WRF-Chem to estimate daily PM2.5 concentrations at 1 km resolution in the Eastern United States. Atmospheric Environment 2019;199:443-452. |
R835871 (2019) R835871 (2020) |
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Baklanov A, Zhang Y. Advances in air quality modeling and forecasting. Global Transitions 2020;2:261-70. |
R835871 (2020) |
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Woo SH, Liu JC, Yue X, Mickley LJ, Bell ML. Air pollution from wildfires and human health vulnerability in Alaskan communities under climate change. Environmental Research Letters 2020;15(9):094019. |
R835871 (2020) |
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Khare P, Machesky J, Soto R, He M, Presto AA, Gentner DR. Asphalt-related emissions are a major missing nontraditional source of secondary organic aerosol precursors. Science advances 2020;6(36):eabb9785. |
R835871 (2020) |
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Fong KC, Mehta NK, Bell ML. Disparities in exposure to surrounding greenness related to proportion of the population that were immigrants to the United States. International Journal of Hygiene and Environmental Health 2020;224:113434. |
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Rogers HM, Ditto JC, Gentner DR. Evidence for impacts on surface-level air quality in the northeastern US from long-distance transport of smoke from North American fires during the Long Island Sound Tropospheric Ozone Study (LISTOS) 2018. Atmospheric Chemistry and Physics 2020;20(2):671-82. |
R835871 (2020) |
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Zhang Y, Yang P, Gao Y, Leung RL, Bell ML. Health and economic impacts of air pollution induced by weather extremes over the continental US. Environment International 2020;143:105921. |
R835871 (2020) |
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Sheu R, Stonner C, Ditto JC, Klüpfel T, Williams J, Gentner DR. Human transport of thirdhand tobacco smoke:a prominent source of hazardous air pollutants into indoor nonsmoking environments. Science Advances 2020;6(10):eaay4109. |
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Gillingham KT, Huang P. Long-Run Environmental and Economic Impacts of Electrifying Waterborne Shipping in the United States. Environmental Science & Technology 2020;54(16):9824-33. |
R835871 (2020) |
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Nori-Sarma A, Thimmulappa RK, Venkataramana GV, Fauzie AK, Dey SK, Venkareddy LK, Berman JD, Lane KJ, Fong KC, Warren JL, Bell ML. Low-cost NO2 monitoring and predictions of urban exposure using universal kriging and land-use regression modelling in Mysore, India. Atmospheric Environment 2020;226:117395. |
R835871 (2020) |
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Shinozuka Y, Saide PE, Ferrada GA, Burton SP, Ferrare R, Doherty SJ, Gordon H, Longo K, Mallet M, Feng Y, Wang Q. Modeling the smoky troposphere of the southeast Atlantic:a comparison to ORACLES airborne observations from September of 2016. Atmospheric Chemistry and Physics 2020;20(19):11491-526. |
R835871 (2020) |
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Gao Y, Zhang J, Yan F, Leung LR, Luo K, Zhang Y, Bell ML. Nonlinear effect of compound extreme weather events on ozone formation over the United States. Weather and Climate Extremes 2020;30:100285. |
R835871 (2020) |
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Heo S, Lim CC, Bell ML. Relationships between Local Green Space and Human Mobility Patterns during COVID-19 for Maryland and California, USA. Sustainability 2020;12(22):9401. |
R835871 (2020) |
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Datta A, Saha A, Zamora ML, Buehler C, Hao L, Xiong F, Gentner DR, Koehler K. Statistical field calibration of a low-cost PM2. 5 monitoring network in Baltimore. Atmospheric Environment 2020;242:117761. |
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Schilling K, Gentner DR, Wilen L, Medina A, Buehler C, Perez-Lorenzo LJ, Pollitt KJ, Bergemann R, Bernardo N, Peccia J, Wilczynski V. An accessible method for screening aerosol filtration identifies poor-performing commercial masks and respirators. Journal of exposure science & environmental epidemiology 2020:1-0. |
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Berman JD, Ebisu K, Peng RD, Dominici F, Bell ML. Drought and the risk of hospital admissions and mortality in older adults in western USA from 2000 to 2013:a retrospective study. The Lancet Planetary Health. 2017 Apr 1;1(1):e17-25. |
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Son JY, Lane KJ, Miranda ML, Bell ML. Health disparities attributable to air pollutant exposure in North Carolina:Influence of residential environmental and social factors. Health & Place 2020;62:102287. |
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Gasparrini A, Guo Y, Sera F, Vicedo-Cabrera AM, Huber V, Tong S, Coelho MD, Saldiva PH, Lavigne E, Correa PM, Ortega NV. Projections of temperature-related excess mortality under climate change scenarios. The Lancet Planetary Health. 2017 Dec 1;1(9):e360-7. |
R835871 (2018) R835871 (2020) |
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Armstrong B, Sera F, Vicedo-Cabrera AM, Abrutzky R, Åström DO, Bell ML, Chen BY, de Sousa Zanotti Stagliorio Coelho M, Correa PM, Dang TN, Diaz MH. The role of humidity in associations of high temperature with mortality:a multicountry, multicity study. Environmental Health Perspectives 2019;127(9):097007. |
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Supplemental Keywords:
air pollution, air quality, ambient air quality, climate extremes, criteria pollutants, diagnostic analysis, emissions downscaling, energy, energy transitions, energy-economic modeling, enhanced satellite retrievals, environmental health, exposure assessment, fossil fuel, global and regional modeling, health effects, heat wave, human exposure, lifecycle assessment, LCA, mixtures, model improvement, National Energy Modeling System, NEMS, oxidative stress, ozone, O3, particulate matter, PM2.5, policy, pollution prevention, renewable, sensitivity simulation, social science, source apportionment, statistical methods, systems analysis, transportRelevant Websites:
Progress and Final Reports:
Original Abstract Subprojects under this Center: (EPA does not fund or establish subprojects; EPA awards and manages the overall grant for this center).
R835871C001 Project 1: Modeling Emissions from Energy Transitions
R835871C002 Project 2: Assessment of Energy-Related Sources, Factors and Transitions Using Novel High-Resolution Ambient Air Monitoring Networks and Personal Monitors
R835871C003 Project 3: Air Quality and Climate Change Modeling: Improving Projections of the Spatial and Temporal Changes of Multipollutants to Enhance Assessment of Public Health in a Changing World
R835871C004 Project 4: Human Health Impacts of Energy Transitions: Today and Under a Changing World
The perspectives, information and conclusions conveyed in research project abstracts, progress reports, final reports, journal abstracts and journal publications convey the viewpoints of the principal investigator and may not represent the views and policies of ORD and EPA. Conclusions drawn by the principal investigators have not been reviewed by the Agency.
Project Research Results
- Final Report
- 2021 Progress Report
- 2020 Progress Report
- 2019 Progress Report
- 2018 Progress Report
- 2016 Progress Report
- Original Abstract
74 journal articles for this center