Simulating national-scale deforestation in the Philippines using land cover change models

Simulating national-scale deforestation in the Philippines using land cover change models

After the year 2010, a century of rapid decline in Philippine forest cover was reversed due to a deliberate National Greening Program (NGP). Drivers that can sustain or counter this increase can be better investigated through the help of land change models. However, such models are not yet in mainst...

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Main Authors: Jardeleza, Jean Meir, Gotangco, Charlotte Kendra Z, Guzman, Ma. Aileen Leah G
Format: text
Published: Archīum Ateneo 2019
Subjects:
deforestation
FOREST-SAGE
GEOMOD
land cover change
model calibration
model validation
Environmental Sciences
Online Access:https://archium.ateneo.edu/es-faculty-pubs/33
https://www.semanticscholar.org/paper/Simulating-National-scale-Deforestation-in-the-Land-Jardeleza-Gotangco/a8388662d7953ed099a2d831a0c1b3602b65694c
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Institution: Ateneo De Manila University
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spelling ph-ateneo-arc.es-faculty-pubs-10322020-05-13T06:23:31Z Simulating national-scale deforestation in the Philippines using land cover change models Jardeleza, Jean Meir Gotangco, Charlotte Kendra Z Guzman, Ma. Aileen Leah G After the year 2010, a century of rapid decline in Philippine forest cover was reversed due to a deliberate National Greening Program (NGP). Drivers that can sustain or counter this increase can be better investigated through the help of land change models. However, such models are not yet in mainstream use for planning in the Philippines. Hence, this study used two models – FOREST-SAGE and GEOMOD – to simulate forest conditions based on anthropogenic drivers and to evaluate model applicability in the Philippines. The performance of each model was assessed using the root-meansquare error (RMSE), mean absolute error (MAE), Kappa, national average tree cover percentage, and common deforestation hotspots with reference datasets. Validation with Climate Change Initiative Land Cover dataset (CCI-LC) yielded similar results between the models: 2015 tree cover maps with RMSE of 22–25% tree cover, MAE of 10–12% tree cover, and moderate agreement with reference map based on Kappa (0.4–0.6); and 2010–2015 change maps with RMSE of 8–9% tree cover, MAE of 1–2% tree cover, and agreement due to chance based on Kappa (0.01–0.03). Validation with MODerate Resolution Imaging Spectroradiometer-Vegetation Continuous Field (MODIS-VCF) maps yielded similar MAE results (10% tree cover) between the models. Validating FOREST-SAGE end-time and change maps with MODIS-VCF yielded better RMSE results than GEOMOD (RMSE of 13% tree cover for FOREST-SAGE; 22% tree cover for GEOMOD). However, GEOMOD tree cover maps yielded better Kappa than FOREST-SAGE (0.60 for GEOMOD; 0.01 for FOREST-SAGE). Results suggest that FOREST-SAGE is more applicable in the Philippines for provincial extent studies that aim to quantitively track forest cover change, while GEOMOD is more applicable for national extent studies that use categorical data. Results also suggest that input parameter settings must be improved to simulate spatial distribution of forest cover. 2019-12-01T08:00:00Z text https://archium.ateneo.edu/es-faculty-pubs/33 https://www.semanticscholar.org/paper/Simulating-National-scale-Deforestation-in-the-Land-Jardeleza-Gotangco/a8388662d7953ed099a2d831a0c1b3602b65694c Environmental Science Faculty Publications Archīum Ateneo deforestation FOREST-SAGE GEOMOD land cover change model calibration model validation Environmental Sciences
institution Ateneo De Manila University
building Ateneo De Manila University Library
country Philippines
collection archium.Ateneo Institutional Repository
topic deforestation
FOREST-SAGE
GEOMOD
land cover change
model calibration
model validation
Environmental Sciences
spellingShingle deforestation
FOREST-SAGE
GEOMOD
land cover change
model calibration
model validation
Environmental Sciences
Jardeleza, Jean Meir
Gotangco, Charlotte Kendra Z
Guzman, Ma. Aileen Leah G
Simulating national-scale deforestation in the Philippines using land cover change models
description After the year 2010, a century of rapid decline in Philippine forest cover was reversed due to a deliberate National Greening Program (NGP). Drivers that can sustain or counter this increase can be better investigated through the help of land change models. However, such models are not yet in mainstream use for planning in the Philippines. Hence, this study used two models – FOREST-SAGE and GEOMOD – to simulate forest conditions based on anthropogenic drivers and to evaluate model applicability in the Philippines. The performance of each model was assessed using the root-meansquare error (RMSE), mean absolute error (MAE), Kappa, national average tree cover percentage, and common deforestation hotspots with reference datasets. Validation with Climate Change Initiative Land Cover dataset (CCI-LC) yielded similar results between the models: 2015 tree cover maps with RMSE of 22–25% tree cover, MAE of 10–12% tree cover, and moderate agreement with reference map based on Kappa (0.4–0.6); and 2010–2015 change maps with RMSE of 8–9% tree cover, MAE of 1–2% tree cover, and agreement due to chance based on Kappa (0.01–0.03). Validation with MODerate Resolution Imaging Spectroradiometer-Vegetation Continuous Field (MODIS-VCF) maps yielded similar MAE results (10% tree cover) between the models. Validating FOREST-SAGE end-time and change maps with MODIS-VCF yielded better RMSE results than GEOMOD (RMSE of 13% tree cover for FOREST-SAGE; 22% tree cover for GEOMOD). However, GEOMOD tree cover maps yielded better Kappa than FOREST-SAGE (0.60 for GEOMOD; 0.01 for FOREST-SAGE). Results suggest that FOREST-SAGE is more applicable in the Philippines for provincial extent studies that aim to quantitively track forest cover change, while GEOMOD is more applicable for national extent studies that use categorical data. Results also suggest that input parameter settings must be improved to simulate spatial distribution of forest cover.
format text
author Jardeleza, Jean Meir
Gotangco, Charlotte Kendra Z
Guzman, Ma. Aileen Leah G
author_facet Jardeleza, Jean Meir
Gotangco, Charlotte Kendra Z
Guzman, Ma. Aileen Leah G
author_sort Jardeleza, Jean Meir
title Simulating national-scale deforestation in the Philippines using land cover change models
title_short Simulating national-scale deforestation in the Philippines using land cover change models
title_full Simulating national-scale deforestation in the Philippines using land cover change models
title_fullStr Simulating national-scale deforestation in the Philippines using land cover change models
title_full_unstemmed Simulating national-scale deforestation in the Philippines using land cover change models
title_sort simulating national-scale deforestation in the philippines using land cover change models
publisher Archīum Ateneo
publishDate 2019
url https://archium.ateneo.edu/es-faculty-pubs/33
https://www.semanticscholar.org/paper/Simulating-National-scale-Deforestation-in-the-Land-Jardeleza-Gotangco/a8388662d7953ed099a2d831a0c1b3602b65694c
_version_ 1681506594884419584

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