Satellite-based tree cover mapping for forest conservation in the drylands of Sub Saharan Africa (SSA): Application to Burkina Faso gazetted forests

Satellite-based tree cover mapping for forest conservation in the drylands of Sub Saharan Africa (SSA): Application to Burkina Faso gazetted forests

While monitoring the effectiveness of forest conservation programs requires accurate data on (changes in) forest cover, many countries still lack the ability to map local forest inventory, especially in the drylands of Africa where forest areas are very sparsely covered. In this paper, we present a...

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Main Authors: Guigonan Serge Adjognon, Alexis Rivera-Ballesteros, Daan van Soest
Format: Article
Language:English
Published: Elsevier 2019-01-01
Series:Development Engineering
Online Access:http://www.sciencedirect.com/science/article/pii/S2352728517300891
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spelling doaj-9749b13207534300bb8cf186207d92e42020-11-24T21:55:01ZengElsevierDevelopment Engineering2352-72852019-01-014Satellite-based tree cover mapping for forest conservation in the drylands of Sub Saharan Africa (SSA): Application to Burkina Faso gazetted forestsGuigonan Serge Adjognon0Alexis Rivera-Ballesteros1Daan van Soest2World Bank Group, 1818 H Street, NW, Washington, D.C., 20433, USACorresponding author.; World Bank Group, 1818 H Street, NW, Washington, D.C., 20433, USAWorld Bank Group, 1818 H Street, NW, Washington, D.C., 20433, USAWhile monitoring the effectiveness of forest conservation programs requires accurate data on (changes in) forest cover, many countries still lack the ability to map local forest inventory, especially in the drylands of Africa where forest areas are very sparsely covered. In this paper, we present a high resolution tree cover estimation of twelve gazetted forests in Burkina Faso using Random Forest-based supervised classification and Sentinel-2 satellite imagery sensed between March and April 2016. The methodology relies on ground truth sample points labeled manually over 10-m resolution images displaying a composite of near infrared (NIR), red and green bands extracted from Sentinel-2 multi-spectral satellite data to estimate tree cover with an average balanced accuracy rate of 80 percent. The output is a collection of rasters with binary values representing the combination of 10, and down-sampled 20 and 60-m bands indicating an estimate of the existence of trees or lack thereof, usable as a baseline for deforestation monitoring. Keywords: Burkina Faso, Image classification, Forest cover, Sentinel-2, Google Earth engine, Sahelhttp://www.sciencedirect.com/science/article/pii/S2352728517300891
collection DOAJ
language English
format Article
sources DOAJ
author Guigonan Serge Adjognon
Alexis Rivera-Ballesteros
Daan van Soest
spellingShingle Guigonan Serge Adjognon
Alexis Rivera-Ballesteros
Daan van Soest
Satellite-based tree cover mapping for forest conservation in the drylands of Sub Saharan Africa (SSA): Application to Burkina Faso gazetted forests
Development Engineering
author_facet Guigonan Serge Adjognon
Alexis Rivera-Ballesteros
Daan van Soest
author_sort Guigonan Serge Adjognon
title Satellite-based tree cover mapping for forest conservation in the drylands of Sub Saharan Africa (SSA): Application to Burkina Faso gazetted forests
title_short Satellite-based tree cover mapping for forest conservation in the drylands of Sub Saharan Africa (SSA): Application to Burkina Faso gazetted forests
title_full Satellite-based tree cover mapping for forest conservation in the drylands of Sub Saharan Africa (SSA): Application to Burkina Faso gazetted forests
title_fullStr Satellite-based tree cover mapping for forest conservation in the drylands of Sub Saharan Africa (SSA): Application to Burkina Faso gazetted forests
title_full_unstemmed Satellite-based tree cover mapping for forest conservation in the drylands of Sub Saharan Africa (SSA): Application to Burkina Faso gazetted forests
title_sort satellite-based tree cover mapping for forest conservation in the drylands of sub saharan africa (ssa): application to burkina faso gazetted forests
publisher Elsevier
series Development Engineering
issn 2352-7285
publishDate 2019-01-01
description While monitoring the effectiveness of forest conservation programs requires accurate data on (changes in) forest cover, many countries still lack the ability to map local forest inventory, especially in the drylands of Africa where forest areas are very sparsely covered. In this paper, we present a high resolution tree cover estimation of twelve gazetted forests in Burkina Faso using Random Forest-based supervised classification and Sentinel-2 satellite imagery sensed between March and April 2016. The methodology relies on ground truth sample points labeled manually over 10-m resolution images displaying a composite of near infrared (NIR), red and green bands extracted from Sentinel-2 multi-spectral satellite data to estimate tree cover with an average balanced accuracy rate of 80 percent. The output is a collection of rasters with binary values representing the combination of 10, and down-sampled 20 and 60-m bands indicating an estimate of the existence of trees or lack thereof, usable as a baseline for deforestation monitoring. Keywords: Burkina Faso, Image classification, Forest cover, Sentinel-2, Google Earth engine, Sahel
url http://www.sciencedirect.com/science/article/pii/S2352728517300891
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