Intra-urban variability of long-term exposure to PM2.5 and NO2 in five cities in Colombia

Laura A Rodriguez-Villamizar; Yurley Rojas; Sara Grisales; Sonia C Mangones; Jhon J Cáceres; Dayana M Agudelo-Castañeda; Víctor Herrera; Diana Marcela Marin Pineda; Juan G Piñeros Jiménez; Luis C Belalcázar-Ceron; Oscar Alberto Rojas-Sánchez; Jonathan Ochoa Villegas; Leandro López; Oscar Mauricio Rojas; María C Vicini; Wilson Salas; Ana Zuleima Orrego; Margarita Castillo; Hugo Sáenz; Luis Álvaro Hernández; Scott Weichenthal; Jill Baumgartner; Néstor Y Rojas

doi:10.1007/s11356-023-31306-w

Intra-urban variability of long-term exposure to PM2.5 and NO2 in five cities in Colombia

Laura A Rodriguez-Villamizar
, Yurley Rojas
, Sara Grisales
, Sonia C Mangones
, Jhon J Cáceres
, Dayana M Agudelo-Castañeda
, Víctor Herrera
, Diana Marcela Marin Pineda
, Juan G Piñeros Jiménez
, Luis C Belalcázar-Ceron
, Oscar Alberto Rojas-Sánchez
, Jonathan Ochoa Villegas
, Leandro López
, Oscar Mauricio Rojas
, María C Vicini
, Wilson Salas
, Ana Zuleima Orrego
, Margarita Castillo
, Hugo Sáenz
, Luis Álvaro Hernández

Scott Weichenthal, Jill Baumgartner, Néstor Y Rojas

Public Health

Research output: Contribution to scientific journal › Article in an indexed scientific journal › peer-review

12 Scopus citations

Abstract

Rapidly urbanizing cities in Latin America experience high levels of air pollution which are known risk factors for population health. However, the estimates of long-term exposure to air pollution are scarce in the region. We developed intraurban land use regression (LUR) models to map long-term exposure to fine particulate matter (PM2.5) and nitrogen dioxide (NO2) in the five largest cities in Colombia. We conducted air pollution measurement campaigns using gravimetric PM2.5 and passive NO2 sensors for 2 weeks during both the dry and rainy seasons in 2021 in the cities of Barranquilla, Bucaramanga, Bogotá, Cali, and Medellín, and combined these data with geospatial and meteorological variables. Annual models were developed using multivariable spatial regression models. The city annual PM2.5 mean concentrations measured ranged between 12.32 and 15.99 µg/m3 while NO2 concentrations ranged between 24.92 and 49.15 µg/m3. The PM2.5 annual models explained 82% of the variance (R2) in Medellín, 77% in Bucaramanga, 73% in Barranquilla, 70% in Cali, and 44% in Bogotá. The NO2 models explained 65% of the variance in Bucaramanga, 57% in Medellín, 44% in Cali, 40% in Bogotá, and 30% in Barranquilla. Most of the predictor variables included in the models were a combination of specific land use characteristics and roadway variables. Cross-validation suggests that PM2.5 outperformed NO2 models. The developed models can be used as exposure estimate in epidemiological studies, as input in hybrid models to improve personal exposure assessment, and for policy evaluation.

Original language	English
Pages (from-to)	3207–3221
Number of pages	15
Journal	Environmental Science and Pollution Research
Volume	31
Issue number	2
Early online date	12 Dec 2023
DOIs	https://doi.org/10.1007/s11356-023-31306-w
State	Published - 1 Jan 2024

Bibliographical note

Publisher Copyright:
© 2023. The Author(s).

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 11 Sustainable Cities and Communities
SDG 15 Life on Land

Keywords

Air pollution
Colombia
Fine particulate matter
Land use regression models
Nitrogen dioxide

Types Minciencias

Artículos de investigación con calidad A1 / Q1

Access to Document

10.1007/s11356-023-31306-w

Cite this

Rodriguez-Villamizar, L. A., Rojas, Y., Grisales, S., Mangones, S. C., Cáceres, J. J., Agudelo-Castañeda, D. M., Herrera, V., Marin Pineda, D. M., Jiménez, J. G. P., Belalcázar-Ceron, L. C., Rojas-Sánchez, O. A., Ochoa Villegas, J., López, L., Rojas, O. M., Vicini, M. C., Salas, W., Orrego, A. Z., Castillo, M., Sáenz, H., ... Rojas, N. Y. (2024). Intra-urban variability of long-term exposure to PM2.5 and NO2 in five cities in Colombia. Environmental Science and Pollution Research, 31(2), 3207–3221. https://doi.org/10.1007/s11356-023-31306-w

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title = "Intra-urban variability of long-term exposure to PM2.5 and NO2 in five cities in Colombia",

abstract = "Rapidly urbanizing cities in Latin America experience high levels of air pollution which are known risk factors for population health. However, the estimates of long-term exposure to air pollution are scarce in the region. We developed intraurban land use regression (LUR) models to map long-term exposure to fine particulate matter (PM2.5) and nitrogen dioxide (NO2) in the five largest cities in Colombia. We conducted air pollution measurement campaigns using gravimetric PM2.5 and passive NO2 sensors for 2 weeks during both the dry and rainy seasons in 2021 in the cities of Barranquilla, Bucaramanga, Bogot{\'a}, Cali, and Medell{\'i}n, and combined these data with geospatial and meteorological variables. Annual models were developed using multivariable spatial regression models. The city annual PM2.5 mean concentrations measured ranged between 12.32 and 15.99 µg/m3 while NO2 concentrations ranged between 24.92 and 49.15 µg/m3. The PM2.5 annual models explained 82\% of the variance (R2) in Medell{\'i}n, 77\% in Bucaramanga, 73\% in Barranquilla, 70\% in Cali, and 44\% in Bogot{\'a}. The NO2 models explained 65\% of the variance in Bucaramanga, 57\% in Medell{\'i}n, 44\% in Cali, 40\% in Bogot{\'a}, and 30\% in Barranquilla. Most of the predictor variables included in the models were a combination of specific land use characteristics and roadway variables. Cross-validation suggests that PM2.5 outperformed NO2 models. The developed models can be used as exposure estimate in epidemiological studies, as input in hybrid models to improve personal exposure assessment, and for policy evaluation.",

keywords = "Air pollution, Colombia, Fine particulate matter, Land use regression models, Nitrogen dioxide",

author = "Rodriguez-Villamizar, \{Laura A\} and Yurley Rojas and Sara Grisales and Mangones, \{Sonia C\} and C{\'a}ceres, \{Jhon J\} and Agudelo-Casta{\~n}eda, \{Dayana M\} and V{\'i}ctor Herrera and \{Marin Pineda\}, \{Diana Marcela\} and Jim{\'e}nez, \{Juan G Pi{\~n}eros\} and Belalc{\'a}zar-Ceron, \{Luis C\} and Rojas-S{\'a}nchez, \{Oscar Alberto\} and \{Ochoa Villegas\}, Jonathan and Leandro L{\'o}pez and Rojas, \{Oscar Mauricio\} and Vicini, \{Mar{\'i}a C\} and Wilson Salas and Orrego, \{Ana Zuleima\} and Margarita Castillo and Hugo S{\'a}enz and Hern{\'a}ndez, \{Luis {\'A}lvaro\} and Scott Weichenthal and Jill Baumgartner and Rojas, \{N{\'e}stor Y\}",

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doi = "10.1007/s11356-023-31306-w",

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Rodriguez-Villamizar, LA, Rojas, Y, Grisales, S, Mangones, SC, Cáceres, JJ, Agudelo-Castañeda, DM, Herrera, V, Marin Pineda, DM, Jiménez, JGP, Belalcázar-Ceron, LC, Rojas-Sánchez, OA, Ochoa Villegas, J, López, L, Rojas, OM, Vicini, MC, Salas, W, Orrego, AZ, Castillo, M, Sáenz, H, Hernández, LÁ, Weichenthal, S, Baumgartner, J & Rojas, NY 2024, 'Intra-urban variability of long-term exposure to PM2.5 and NO2 in five cities in Colombia', Environmental Science and Pollution Research, vol. 31, no. 2, pp. 3207–3221. https://doi.org/10.1007/s11356-023-31306-w

TY - JOUR

T1 - Intra-urban variability of long-term exposure to PM2.5 and NO2 in five cities in Colombia

AU - Rodriguez-Villamizar, Laura A

AU - Rojas, Yurley

AU - Grisales, Sara

AU - Mangones, Sonia C

AU - Cáceres, Jhon J

AU - Agudelo-Castañeda, Dayana M

AU - Herrera, Víctor

AU - Marin Pineda, Diana Marcela

AU - Jiménez, Juan G Piñeros

AU - Belalcázar-Ceron, Luis C

AU - Rojas-Sánchez, Oscar Alberto

AU - Ochoa Villegas, Jonathan

AU - López, Leandro

AU - Rojas, Oscar Mauricio

AU - Vicini, María C

AU - Salas, Wilson

AU - Orrego, Ana Zuleima

AU - Castillo, Margarita

AU - Sáenz, Hugo

AU - Hernández, Luis Álvaro

AU - Weichenthal, Scott

AU - Baumgartner, Jill

AU - Rojas, Néstor Y

PY - 2024/1/1

Y1 - 2024/1/1

N2 - Rapidly urbanizing cities in Latin America experience high levels of air pollution which are known risk factors for population health. However, the estimates of long-term exposure to air pollution are scarce in the region. We developed intraurban land use regression (LUR) models to map long-term exposure to fine particulate matter (PM2.5) and nitrogen dioxide (NO2) in the five largest cities in Colombia. We conducted air pollution measurement campaigns using gravimetric PM2.5 and passive NO2 sensors for 2 weeks during both the dry and rainy seasons in 2021 in the cities of Barranquilla, Bucaramanga, Bogotá, Cali, and Medellín, and combined these data with geospatial and meteorological variables. Annual models were developed using multivariable spatial regression models. The city annual PM2.5 mean concentrations measured ranged between 12.32 and 15.99 µg/m3 while NO2 concentrations ranged between 24.92 and 49.15 µg/m3. The PM2.5 annual models explained 82% of the variance (R2) in Medellín, 77% in Bucaramanga, 73% in Barranquilla, 70% in Cali, and 44% in Bogotá. The NO2 models explained 65% of the variance in Bucaramanga, 57% in Medellín, 44% in Cali, 40% in Bogotá, and 30% in Barranquilla. Most of the predictor variables included in the models were a combination of specific land use characteristics and roadway variables. Cross-validation suggests that PM2.5 outperformed NO2 models. The developed models can be used as exposure estimate in epidemiological studies, as input in hybrid models to improve personal exposure assessment, and for policy evaluation.

AB - Rapidly urbanizing cities in Latin America experience high levels of air pollution which are known risk factors for population health. However, the estimates of long-term exposure to air pollution are scarce in the region. We developed intraurban land use regression (LUR) models to map long-term exposure to fine particulate matter (PM2.5) and nitrogen dioxide (NO2) in the five largest cities in Colombia. We conducted air pollution measurement campaigns using gravimetric PM2.5 and passive NO2 sensors for 2 weeks during both the dry and rainy seasons in 2021 in the cities of Barranquilla, Bucaramanga, Bogotá, Cali, and Medellín, and combined these data with geospatial and meteorological variables. Annual models were developed using multivariable spatial regression models. The city annual PM2.5 mean concentrations measured ranged between 12.32 and 15.99 µg/m3 while NO2 concentrations ranged between 24.92 and 49.15 µg/m3. The PM2.5 annual models explained 82% of the variance (R2) in Medellín, 77% in Bucaramanga, 73% in Barranquilla, 70% in Cali, and 44% in Bogotá. The NO2 models explained 65% of the variance in Bucaramanga, 57% in Medellín, 44% in Cali, 40% in Bogotá, and 30% in Barranquilla. Most of the predictor variables included in the models were a combination of specific land use characteristics and roadway variables. Cross-validation suggests that PM2.5 outperformed NO2 models. The developed models can be used as exposure estimate in epidemiological studies, as input in hybrid models to improve personal exposure assessment, and for policy evaluation.

KW - Air pollution

KW - Colombia

KW - Fine particulate matter

KW - Land use regression models

KW - Nitrogen dioxide

UR - https://www.scopus.com/pages/publications/85182735889

U2 - 10.1007/s11356-023-31306-w

DO - 10.1007/s11356-023-31306-w

M3 - Artículo en revista científica indexada

C2 - 38087152

SN - 0944-1344

VL - 31

SP - 3207

EP - 3221

JO - Environmental Science and Pollution Research

JF - Environmental Science and Pollution Research

IS - 2

ER -

Intra-urban variability of long-term exposure to PM2.5 and NO2 in five cities in Colombia

Abstract

Bibliographical note

UN SDGs

Keywords

Types Minciencias

Access to Document

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Cite this