A Multi-Temporal Analysis on the Dynamics of the Impact of Land Use and Land Cover on NO2 and CO Emissions in Argentina for Sustainable Environmental Management-Reference-Cited by-同舟云学术

A Multi-Temporal Analysis on the Dynamics of the Impact of Land Use and Land Cover on NO2 and CO Emissions in Argentina for Sustainable Environmental Management

Published:2024-05-23 Issue:11 Volume:16 Page:4400
ISSN:2071-1050
Container-title:Sustainability
language:en
Short-container-title:Sustainability

Author:

Fernández-Maldonado Viviana¹²^ORCID,Navas Ana Laura¹^ORCID,Fabani María Paula¹³^ORCID,Mazza Germán⁴^ORCID,Rodríguez Rosa¹^ORCID

Affiliation:

1. Grupo Vinculado al PROBIEN (CONICET-UNCo), Instituto de Ingeniería Química, Facultad de Ingeniería, Universidad Nacional de San Juan, Av. Libertador San Martín (Oeste) 1109, San Juan J5400ARL, Argentina

2. Observatorio de Cambio Climático de San Juan, Secretaria de Ambiente y Desarrollo Sustentable, Gobierno de la Provincia de San Juan, Calle 5 y Pelegrini, Al Pie del Cerro Parkison, San Juan J5400ARL, Argentina

3. Instituto de Biotecnología, Facultad de Ingeniería, Universidad Nacional de San Juan, Av. Libertador San Martín (Oeste) 1109, San Juan J5400ARL, Argentina

4. Instituto de Investigación y Desarrollo en Ingeniería de Procesos, Biotecnología y Energías Alternativas, PROBIEN (CONICET-UNCo), Calle Buenos Aires, 1400, Neuquén Q8300IBX, Argentina

Abstract

This study presents an analysis of NO2 and CO emissions in Argentina, utilizing remote sensing data. This research aims to determine the spatiotemporal distribution of NO2 and CO emissions from 2019 to 2021. It examines the influence of land use and cover on NO2 and CO emissions using various climatic, anthropic, and natural indicators. The year with the highest CO and NO2 concentration was 2020. NO2 exhibited the highest concentrations in built-up urban areas and croplands, notably impacting the capital city and the northern region of Buenos Aires province. Also, CO concentration was influenced by anthropic variable distances to national route, mining extraction, power plants, airports, and urban index (UI). They were also influenced by climatic and natural variables (Palmer drought index, vapor pressure, maximum environment temperature, wind speed, DEM, humidity, and normalized difference vegetation index (NDVI)) for the different uses and land covers. NO2 concentrations were influenced by anthropic (distance to airports, service stations, open dumpsites, power plants, and factories), climatic, and natural variables (Palmer drought index, vapor pressure, wind speed, and DEM) for the different uses and land cover. This research supports sustainable environmental management by guiding the development of effective emission mitigation strategies for improved community health and well-being.

Publisher

MDPI AG

Link

https://www.mdpi.com/2071-1050/16/11/4400/pdf

Reference62 articles.

1. Outlook for clean air in the context of sustainable development goals;Rafaj;Glob. Environ. Chang.,2018

2. Mannucci, P.M., and Franchini, M. (2017). Health effects of ambient air pollution in developing countries. Int. J. Environ. Res. Public Health, 14.

3. Estimates and 25-year trends of the global burden of disease attributable to ambient air pollution: An analysis of data from the Global Burden of Diseases Study 2015;Cohen;Lancet,2017

4. WHO (2018). Technical Report, World Health Organization, Version 2, WHO. Available online: https://cdn.who.int/media/docs/default-source/air-pollution-documents/air-quality-and-health/aap_bod_results_may2018_final.pdf.

5. WHO (2020). Health Effects of Particulate Matter, World Health Organization, WHO Regional Office for Europe. Available online: https://unece.org/DAM/env/documents/2013/air/Health-effects-of-particulate-matter-final-Eng.pdf.