Satellite-based Mangrove species abundance estimate using Machine Learning ensemble

Abstract The mangrove ecosystem is a vital feature in a coastal area, playing a critical role in carbon sequestration beneath the soil. Carbon preservation capacity varies among different species of mangrove. Thus, by quantifying the number of mangrove species in a given area, the volume of carbon s...

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Bibliographic Details
Published inIOP conference series. Earth and environmental science Vol. 1276; no. 1; pp. 12055 - 12065
Main Authors Harsa, Hastuadi, Winarso, Gathot, Setiawan, Kuncoro Teguh, Asriningrum, Wikanti
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.12.2023
Subjects
Algorithms
Carbon
Carbon sequestration
Coastal zone
Coasts
Deep learning
Generalized linear models
Landsat
Landsat satellites
Learning algorithms
Machine learning
Mangroves
Model accuracy
Remote sensing
Satellite imagery
Species
Statistical models
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Summary:Abstract The mangrove ecosystem is a vital feature in a coastal area, playing a critical role in carbon sequestration beneath the soil. Carbon preservation capacity varies among different species of mangrove. Thus, by quantifying the number of mangrove species in a given area, the volume of carbon sequestered can be estimated. Satellite imagery is highly effective for gathering such data across vast territories. In this study, we present an evaluation of mangrove species abundance across a large coastal area using Landsat satellite imagery. We employed machine learning algorithms to classify species based on spectral field observation data to achieve this. These algorithms were trained individually and ensembled to enhance prediction performance. There are 466 models generated in a two-hour training phase. After assessing these models, we identified that a stacked ensemble consisting of Deep Learning, two Distributed Random Forests, a Generalized Boosting Model, a Generalized Linear Model, and Extreme Gradient Boosting algorithms has the most superior predictive accuracy. The model achieved a mean accuracy value of 95% when tested on observation data. After applying the best model to the satellite data, our results indicate that Rhizophora Apiculata and Excoecaria Agallocha are the two most abundant mangrove species in the study area, covering 17.71% (19502.37 Ha) and 10.49% (11549.79 Ha), respectively.
ISSN:1755-1307
1755-1315
DOI:10.1088/1755-1315/1276/1/012055