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作者

Santiago Bonilla-Bedoya;Rasa Zalakeviciute;Danilo Mejía Coronel;Juan Durango-Cordero;Juan Ramón Molina;Jose Eduardo Macedo-Pezzopane;Miguel Ángel Herrera

来源

URBAN FORESTRY & URBAN GREENING,Vol.59,Issue1,Article 127008

语言

英文

关键字

Urban land cover;Systematic transitions;Green infrastructure;Air quality;Spatiotemporal variation

作者单位

Research Center for the Territory and Sustainable Habitat, Universidad Tecnológica Indoamérica, Machala y Sabanilla, 170301 Quito, Ecuador;Ingeniería en Biodiversidad y Recursos Genéticos, Facultad de Ciencias del Medio Ambiente, Universidad Tecnológica Indoamérica, Machala y Sabanilla, 170301 Quito, Ecuador;Facultad de Arquitectura, Artes y Diseño, Universidad Tecnológica Indoamérica, Machala y Sabanilla, 170301 Quito, Ecuador;Intelligent & Interactive Systems Lab (SI2 Lab) and Biodiversidad, Medio Ambiente y Salud (BIOMAS), Facultad de Ingeniería y Ciencias Agropecuarias (FICA), Universidad de Las Américas, 170125 Quito, Ecuador;Centro de Estudios Ambientales, Universidad de Cuenca, Ecuador;EcoLab, Université de Toulouse, CNRS, INPT, UPS, Toulouse, France;Departament of Forest Engineering. E.T.S.I.A.M., Campus de Excelencia Internacional Agroalimentario (ceiA3), Universidad de Córdoba, Córdoba, Spain;Departamento de Engenharia Florestal Universidade Federal do Espírito Santo, Jerônimo Monteiro, Brazil;Research Center for the Territory and Sustainable Habitat, Universidad Tecnológica Indoamérica, Machala y Sabanilla, 170301 Quito, Ecuador;Ingeniería en Biodiversidad y Recursos Genéticos, Facultad de Ciencias del Medio Ambiente, Universidad Tecnológica Indoamérica, Machala y Sabanilla, 170301 Quito, Ecuador;Facultad de Arquitectura, Artes y Diseño, Universidad Tecnológica Indoamérica, Machala y Sabanilla, 170301 Quito, Ecuador;Intelligent & Interactive Systems Lab (SI2 Lab) and Biodiversidad, Medio Ambiente y Salud (BIOMAS), Facultad de Ingeniería y Ciencias Agropecuarias (FICA), Universidad de Las Américas, 170125 Quito, Ecuador;Centro de Estudios Ambientales, Universidad de Cuenca, Ecuador;EcoLab, Université de Toulouse, CNRS, INPT, UPS, Toulouse, France;Departament of Forest Engineering. E.T.S.I.A.M., Campus de Excelencia Internacional Agroalimentario (ceiA3), Universidad de Córdoba, Córdoba, Spain;Departamento de Engenharia Florestal Universidade Federal do Espírito Santo, Jerônimo Monteiro, Brazil

摘要

Confronting the dynamics of global urbanization is one of the challenges of sustainability in the 21st century. Latin America is expected to be one of the regions with the highest urban growth; however, research related to variations in urban land coverage and air quality is relatively new, despite its importance for urban planning and citizens well-being. This study determines the relationship between the spatial variability of some atmospheric pollutants and changes in land cover in a Andean mountain cities of Latin American. We quantified the changes and transitions of land cover using SPOT optical images and generating an object-based classification. In addition, we identified variations in the mean concentrations of some atmospheric pollutants; and, finally, using various linear regression models, we explained the relationship between the spatiotemporal variation of atmospheric pollutants with the spatiotemporal variations of the land cover and some meteorological and topographical factors. Changes in land cover indicated an increase of impervious cover and a loss of urban non-forest vegetation. However, there was also an increase in forest fragments and urban woodland to the detriment of green areas and shrubbery. On the other hand, the concentrations of the air pollutants CO, O3, and PM2.5 showed significant variations between periods, reducing their concentrations in the air. Finally, land cover such as forests and urban trees, as well as meteorological and topographical factors were associated with and explained (r2 > 0.6) the spatiotemporal variation of air pollutants. Urban green infrastructure management in developing regions should consider a multidisciplinary approach to achieve an equitable and minimum distribution of local green infrastructure; by promoting conditions that allow the conversion of land use and coverage, in order to maximize the benefits and the ecosystemic forest services that a city demands.