Mapping native and non-native vegetation in the Brazilian Cerrado using freely available satellite products

Kennedy Lewis,Marcio B Cure,Christian A Davies,Timothy C Hill,Marina Hirota,Isabel B Schmidt,Fernanda De V Barros,Alexandre B Sampaio,Nicholas A Saraiva,Mariana N Furtado,Edward T A Mitchard,Lucy Rowland,Guilherme G Mazzochini,Rafael S Oliveira,Cássia B R Munhoz,Demétrius L Martins

doi:10.1038/s41598-022-05332-6

Abstract

Native vegetation across the Brazilian Cerrado is highly heterogeneous and biodiverse and provides important ecosystem services, including carbon and water balance regulation, however, land-use changes have been extensive. Conservation and restoration of native vegetation is essential and could be facilitated by detailed landcover maps. Here, across a large case study region in Goiás State, Brazil (1.1 Mha), we produced physiognomy level maps of native vegetation (n = 8) and other landcover types (n = 5). Seven different classification schemes using different combinations of input satellite imagery were used, with a Random Forest classifier and 2-stage approach implemented within Google Earth Engine. Overall classification accuracies ranged from 88.6–92.6% for native and non-native vegetation at the formation level (stage-1), and 70.7–77.9% for native vegetation at the physiognomy level (stage-2), across the seven different classifications schemes. The differences in classification accuracy resulting from varying the input imagery combination and quality control procedures used were small. However, a combination of seasonal Sentinel-1 (C-band synthetic aperture radar) and Sentinel-2 (surface reflectance) imagery resulted in the most accurate classification at a spatial resolution of 20 m. Classification accuracies when using Landsat-8 imagery were marginally lower, but still reasonable. Quality control procedures that account for vegetation burning when selecting vegetation reference data may also improve classification accuracy for some native vegetation types. Detailed landcover maps, produced using freely available satellite imagery and upscalable techniques, will be important tools for understanding vegetation functioning at the landscape scale and for implementing restoration projects.

Highlights

Native vegetation across the Brazilian Cerrado is highly heterogeneous and biodiverse and provides important ecosystem services, including carbon and water balance regulation, land-use changes have been extensive
Vegetation maps were produced at the formation level and at the physiognomy level, where there are eight unique classes
Following vegetation reference zone burned area masking as part of the quality control procedure, the number of available reference pixels reduced by 1.1%, 3.9% and 2.4% for herbaceous, savanna and forest physiognomies and by 0.7% for non-native vegetated classes

Summary

Introduction

Native vegetation across the Brazilian Cerrado is highly heterogeneous and biodiverse and provides important ecosystem services, including carbon and water balance regulation, land-use changes have been extensive. Across a large case study region in Goiás State, Brazil (1.1 Mha), we produced physiognomy level maps of native vegetation (n = 8) and other landcover types (n = 5). Detailed landcover maps, produced using freely available satellite imagery and upscalable techniques, will be important tools for understanding vegetation functioning at the landscape scale and for implementing restoration projects. Dry regions cover a large proportion of tropical land a rea[1] and the importance of vegetation in these regions for carbon and water balance regulation and climate change mitigation is increasingly being recognised[2,3,4]. Mapping the spatial distribution of different native and non-native vegetation types in seasonally dry tropical regions is key to understanding their functioning and threat from landcover c hange[9]. Subshrub sublayer with xeromorphic evergreen to semi-deciduous tree cover at various densities on well drained

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Results

Discussion

Conclusion