Prediction of daily mean and one-hour maximum PM(2.5) concentrations and applications in Central Mexico using satellite-based machine-learning models

BACKGROUND: Machine-learning algorithms are becoming popular techniques to predict ambient air PM(2.5) concentrations at high spatial resolutions (1 × 1 km) using satellite-based aerosol optical depth (AOD). Most machine-learning models have aimed to predict 24 h-averaged PM(2.5) concentrations (mea...

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Autores principales: Gutiérrez-Avila, Iván, Arfer, Kodi B., Carrión, Daniel, Rush, Johnathan, Kloog, Itai, Naeger, Aaron R., Grutter, Michel, Páramo-Figueroa, Víctor Hugo, Riojas-Rodríguez, Horacio, Just, Allan C.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group US 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9731899/
https://www.ncbi.nlm.nih.gov/pubmed/36088418
http://dx.doi.org/10.1038/s41370-022-00471-4
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author Gutiérrez-Avila, Iván
Arfer, Kodi B.
Carrión, Daniel
Rush, Johnathan
Kloog, Itai
Naeger, Aaron R.
Grutter, Michel
Páramo-Figueroa, Víctor Hugo
Riojas-Rodríguez, Horacio
Just, Allan C.
author_facet Gutiérrez-Avila, Iván
Arfer, Kodi B.
Carrión, Daniel
Rush, Johnathan
Kloog, Itai
Naeger, Aaron R.
Grutter, Michel
Páramo-Figueroa, Víctor Hugo
Riojas-Rodríguez, Horacio
Just, Allan C.
author_sort Gutiérrez-Avila, Iván
collection PubMed
description BACKGROUND: Machine-learning algorithms are becoming popular techniques to predict ambient air PM(2.5) concentrations at high spatial resolutions (1 × 1 km) using satellite-based aerosol optical depth (AOD). Most machine-learning models have aimed to predict 24 h-averaged PM(2.5) concentrations (mean PM(2.5)) in high-income regions. Over Mexico, none have been developed to predict subdaily peak levels, such as the maximum daily 1-h concentration (max PM(2.5)). OBJECTIVE: Our goal was to develop a machine-learning model to predict mean PM(2.5) and max PM(2.5) concentrations in the Mexico City Metropolitan Area from 2004 through 2019. METHODS: We present a new modeling approach based on extreme gradient boosting (XGBoost) and inverse-distance weighting that uses AOD, meteorology, and land-use variables. We also investigated applications of our mean PM(2.5) predictions that can aid local authorities in air-quality management and public-health surveillance, such as the co-occurrence of high PM(2.5) and heat, compliance with local air-quality standards, and the relationship of PM(2.5) exposure with social marginalization. RESULTS: Our models for mean and max PM(2.5) exhibited good performance, with overall cross-validated mean absolute errors (MAE) of 3.68 and 9.20 μg/m(3), respectively, compared to mean absolute deviations from the median (MAD) of 8.55 and 15.64 μg/m(3). In 2010, everybody in the study region was exposed to unhealthy levels of PM(2.5). Hotter days had greater PM(2.5) concentrations. Finally, we found similar exposure to PM(2.5) across levels of social marginalization. SIGNIFICANCE: Machine learning algorithms can be used to predict highly spatiotemporally resolved PM(2.5) concentrations even in regions with sparse monitoring. IMPACT: Our PM(2.5) predictions can aid local authorities in air-quality management and public-health surveillance, and they can advance epidemiological research in Central Mexico with state-of-the-art exposure assessment methods.
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spelling pubmed-97318992022-12-10 Prediction of daily mean and one-hour maximum PM(2.5) concentrations and applications in Central Mexico using satellite-based machine-learning models Gutiérrez-Avila, Iván Arfer, Kodi B. Carrión, Daniel Rush, Johnathan Kloog, Itai Naeger, Aaron R. Grutter, Michel Páramo-Figueroa, Víctor Hugo Riojas-Rodríguez, Horacio Just, Allan C. J Expo Sci Environ Epidemiol Article BACKGROUND: Machine-learning algorithms are becoming popular techniques to predict ambient air PM(2.5) concentrations at high spatial resolutions (1 × 1 km) using satellite-based aerosol optical depth (AOD). Most machine-learning models have aimed to predict 24 h-averaged PM(2.5) concentrations (mean PM(2.5)) in high-income regions. Over Mexico, none have been developed to predict subdaily peak levels, such as the maximum daily 1-h concentration (max PM(2.5)). OBJECTIVE: Our goal was to develop a machine-learning model to predict mean PM(2.5) and max PM(2.5) concentrations in the Mexico City Metropolitan Area from 2004 through 2019. METHODS: We present a new modeling approach based on extreme gradient boosting (XGBoost) and inverse-distance weighting that uses AOD, meteorology, and land-use variables. We also investigated applications of our mean PM(2.5) predictions that can aid local authorities in air-quality management and public-health surveillance, such as the co-occurrence of high PM(2.5) and heat, compliance with local air-quality standards, and the relationship of PM(2.5) exposure with social marginalization. RESULTS: Our models for mean and max PM(2.5) exhibited good performance, with overall cross-validated mean absolute errors (MAE) of 3.68 and 9.20 μg/m(3), respectively, compared to mean absolute deviations from the median (MAD) of 8.55 and 15.64 μg/m(3). In 2010, everybody in the study region was exposed to unhealthy levels of PM(2.5). Hotter days had greater PM(2.5) concentrations. Finally, we found similar exposure to PM(2.5) across levels of social marginalization. SIGNIFICANCE: Machine learning algorithms can be used to predict highly spatiotemporally resolved PM(2.5) concentrations even in regions with sparse monitoring. IMPACT: Our PM(2.5) predictions can aid local authorities in air-quality management and public-health surveillance, and they can advance epidemiological research in Central Mexico with state-of-the-art exposure assessment methods. Nature Publishing Group US 2022-09-10 2022 /pmc/articles/PMC9731899/ /pubmed/36088418 http://dx.doi.org/10.1038/s41370-022-00471-4 Text en © The Author(s) 2022 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Gutiérrez-Avila, Iván
Arfer, Kodi B.
Carrión, Daniel
Rush, Johnathan
Kloog, Itai
Naeger, Aaron R.
Grutter, Michel
Páramo-Figueroa, Víctor Hugo
Riojas-Rodríguez, Horacio
Just, Allan C.
Prediction of daily mean and one-hour maximum PM(2.5) concentrations and applications in Central Mexico using satellite-based machine-learning models
title Prediction of daily mean and one-hour maximum PM(2.5) concentrations and applications in Central Mexico using satellite-based machine-learning models
title_full Prediction of daily mean and one-hour maximum PM(2.5) concentrations and applications in Central Mexico using satellite-based machine-learning models
title_fullStr Prediction of daily mean and one-hour maximum PM(2.5) concentrations and applications in Central Mexico using satellite-based machine-learning models
title_full_unstemmed Prediction of daily mean and one-hour maximum PM(2.5) concentrations and applications in Central Mexico using satellite-based machine-learning models
title_short Prediction of daily mean and one-hour maximum PM(2.5) concentrations and applications in Central Mexico using satellite-based machine-learning models
title_sort prediction of daily mean and one-hour maximum pm(2.5) concentrations and applications in central mexico using satellite-based machine-learning models
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9731899/
https://www.ncbi.nlm.nih.gov/pubmed/36088418
http://dx.doi.org/10.1038/s41370-022-00471-4
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