Urban Land Mapping Based on Remote Sensing Time Series in the Google Earth Engine Platform: A Case Study of the Teresina-Timon Conurbation Area in Brazil

Eduilson Carneiro,Giovana Espindola,Wilza Lopes

doi:10.3390/rs13071338

Eduilson Carneiro, Giovana Espindola + Show 1 more

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https://doi.org/10.3390/rs13071338

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Abstract

Teresina-Timon conurbation (TTC) area is an example of urban agglomeration, situated in the semiarid environment of the northeast region of Brazil, which has shown an accelerated process of urban development over the last four decades (1985–2019). In this study, we developed a semi-automatic urban land mapping framework at the Google Earth Engine (GEE) platform to (a) evaluate spatiotemporal sprawl of the TTC area (1985–2018); and (b) quantify current urban fabric structures of TTC area (2019). The main empirical results demonstrate that the use of the Landsat historical dataset is a suitable option for generating consistent urban land maps across the years in semiarid environments. Teresina and Timon expanded, respectively, from 70.34 km2 and 12.20 km2 in 1985 to 159.02 km2 and 30.68 km2 in 2018, increasing annually at 3.05% and 3.69% averaged rate, showing an underlying tendency of continuous growth, and magnitude similar to Asian cities. The results of the urban fabric (UF) structures mapping demonstrates a high complexity of the urbanized surfaces, characterized by irregular shapes and variability of urban coverage. In 2019, the TTC metropolitan area was covered by urban land use classes as ceramic roofs, other types of roofs, and impervious surface, in the proportions of 28.02%, 11.97%, and 5.67%, respectively.

Highlights

To systematically evaluate the spatial dynamics of urban sprawl over these last four decades, we present the urban land maps generated by the processing of the Landsat historical dataset
We present the magnitude of urban sprawl revealed by the annual increase (AI, in pixels) metric and normalized annual urban growth rate (AGR, %) for Teresina, Timon, and the Teresina-Timon conurbation (TTC) area as a unit
Urban expansion contributes to the recurrence of extreme climate events that may further impact the landscape

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Introduction

Received: 15 February 2021Accepted: 28 March 2021Published: 31 March 2021Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.Licensee MDPI, Basel, Switzerland.Attribution (CC BY) license (https://creativecommons.org/licenses/by/ 4.0/).Urbanization has permanently transformed ecosystems, causing massive amounts of carbon dioxide (CO2 ) emissions, land degradation, air pollution, social inequalities, and diminishing human health. The process of deforestation and native vegetation clearing in urban settlements had accelerated mechanisms of net carbon losses from the natural vegetation, biodiversity disturbance, and soil rarefaction [1,2,3,4]. In 2018, the Intergovernmental

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