Land Cover Classification in Mangrove Ecosystems Based on VHR Satellite Data and Machine Learning—An Upscaling Approach

Land Cover Classification in Mangrove Ecosystems Based on VHR Satellite Data and Machine Learning—An Upscaling Approach

Mangrove forests grow in the inter-tidal areas along coastlines, rivers, and tidal lands. They are highly productive ecosystems and provide numerous ecological and economic goods and services for humans. In order to develop programs for applying guided conservation and enhancing ecosystem management...

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Main Authors: Neda Bihamta Toosi, Ali Reza Soffianian, Sima Fakheran, Saeied Pourmanafi, Christian Ginzler, Lars T. Waser
Format: Article
Language:English
Published: MDPI AG 2020-08-01
Series:Remote Sensing
Subjects:
ecosystem
mangrove
random forest
Sentinel-2
upscaling
Worldview-2
Online Access:https://www.mdpi.com/2072-4292/12/17/2684
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spelling doaj-84938fb4817d4404878c1c02308195eb2020-11-25T03:46:25ZengMDPI AGRemote Sensing2072-42922020-08-01122684268410.3390/rs12172684Land Cover Classification in Mangrove Ecosystems Based on VHR Satellite Data and Machine Learning—An Upscaling ApproachNeda Bihamta Toosi0Ali Reza Soffianian1Sima Fakheran2Saeied Pourmanafi3Christian Ginzler4Lars T. Waser5Department of Natural Resources, Isfahan University of Technology, Isfahan 84156-83111, IranDepartment of Natural Resources, Isfahan University of Technology, Isfahan 84156-83111, IranDepartment of Natural Resources, Isfahan University of Technology, Isfahan 84156-83111, IranDepartment of Natural Resources, Isfahan University of Technology, Isfahan 84156-83111, IranSwiss Federal Institute for Forest, Snow, and Landscape Research WSL, CH-8903 Birmensdorf, SwitzerlandSwiss Federal Institute for Forest, Snow, and Landscape Research WSL, CH-8903 Birmensdorf, SwitzerlandMangrove forests grow in the inter-tidal areas along coastlines, rivers, and tidal lands. They are highly productive ecosystems and provide numerous ecological and economic goods and services for humans. In order to develop programs for applying guided conservation and enhancing ecosystem management, accurate and regularly updated maps on their distribution, extent, and species composition are needed. Recent advances in remote sensing techniques have made it possible to gather the required information about mangrove ecosystems. Since costs are a limiting factor in generating land cover maps, the latest remote sensing techniques are advantageous. In this study, we investigated the potential of combining Sentinel-2 and Worldview-2 data to classify eight land cover classes in a mangrove ecosystem in Iran with an area of 768 km<sup>2</sup>. The upscaling approach comprises (i) extraction of reflectance values from Worldview-2 images, (ii) segmentation based on spectral and spatial features, and (iii) wall-to-wall prediction of the land cover based on Sentinel-2 images. We used an upscaling approach to minimize the costs of commercial satellite images for collecting reference data and to focus on freely available satellite data for mapping land cover classes of mangrove ecosystems. The approach resulted in a 65.5% overall accuracy and a kappa coefficient of 0.63, and it produced the highest accuracies for deep water and closed mangrove canopy cover. Mapping accuracies improved with this approach, resulting in medium overall accuracy even though the user’s accuracy of some classes, such as tidal zone and shallow water, was low. Conservation and sustainable management in these ecosystems can be improved in the future.https://www.mdpi.com/2072-4292/12/17/2684ecosystemmangroverandom forestSentinel-2upscalingWorldview-2
collection DOAJ
language English
format Article
sources DOAJ
author Neda Bihamta Toosi
Ali Reza Soffianian
Sima Fakheran
Saeied Pourmanafi
Christian Ginzler
Lars T. Waser
spellingShingle Neda Bihamta Toosi
Ali Reza Soffianian
Sima Fakheran
Saeied Pourmanafi
Christian Ginzler
Lars T. Waser
Land Cover Classification in Mangrove Ecosystems Based on VHR Satellite Data and Machine Learning—An Upscaling Approach
Remote Sensing
ecosystem
mangrove
random forest
Sentinel-2
upscaling
Worldview-2
author_facet Neda Bihamta Toosi
Ali Reza Soffianian
Sima Fakheran
Saeied Pourmanafi
Christian Ginzler
Lars T. Waser
author_sort Neda Bihamta Toosi
title Land Cover Classification in Mangrove Ecosystems Based on VHR Satellite Data and Machine Learning—An Upscaling Approach
title_short Land Cover Classification in Mangrove Ecosystems Based on VHR Satellite Data and Machine Learning—An Upscaling Approach
title_full Land Cover Classification in Mangrove Ecosystems Based on VHR Satellite Data and Machine Learning—An Upscaling Approach
title_fullStr Land Cover Classification in Mangrove Ecosystems Based on VHR Satellite Data and Machine Learning—An Upscaling Approach
title_full_unstemmed Land Cover Classification in Mangrove Ecosystems Based on VHR Satellite Data and Machine Learning—An Upscaling Approach
title_sort land cover classification in mangrove ecosystems based on vhr satellite data and machine learning—an upscaling approach
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2020-08-01
description Mangrove forests grow in the inter-tidal areas along coastlines, rivers, and tidal lands. They are highly productive ecosystems and provide numerous ecological and economic goods and services for humans. In order to develop programs for applying guided conservation and enhancing ecosystem management, accurate and regularly updated maps on their distribution, extent, and species composition are needed. Recent advances in remote sensing techniques have made it possible to gather the required information about mangrove ecosystems. Since costs are a limiting factor in generating land cover maps, the latest remote sensing techniques are advantageous. In this study, we investigated the potential of combining Sentinel-2 and Worldview-2 data to classify eight land cover classes in a mangrove ecosystem in Iran with an area of 768 km<sup>2</sup>. The upscaling approach comprises (i) extraction of reflectance values from Worldview-2 images, (ii) segmentation based on spectral and spatial features, and (iii) wall-to-wall prediction of the land cover based on Sentinel-2 images. We used an upscaling approach to minimize the costs of commercial satellite images for collecting reference data and to focus on freely available satellite data for mapping land cover classes of mangrove ecosystems. The approach resulted in a 65.5% overall accuracy and a kappa coefficient of 0.63, and it produced the highest accuracies for deep water and closed mangrove canopy cover. Mapping accuracies improved with this approach, resulting in medium overall accuracy even though the user’s accuracy of some classes, such as tidal zone and shallow water, was low. Conservation and sustainable management in these ecosystems can be improved in the future.
topic ecosystem
mangrove
random forest
Sentinel-2
upscaling
Worldview-2
url https://www.mdpi.com/2072-4292/12/17/2684
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AT larstwaser landcoverclassificationinmangroveecosystemsbasedonvhrsatellitedataandmachinelearninganupscalingapproach
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