A Comparison between the MODIS Product (MOD17A2) and a Tide-Robust Empirical GPP Model Evaluated in a Georgia Wetland

A Comparison between the MODIS Product (MOD17A2) and a Tide-Robust Empirical GPP Model Evaluated in a Georgia Wetland

Despite the importance of tidal ecosystems in the global carbon budget, the relationships between environmental drivers and carbon dynamics in these wetlands remain poorly understood. This limited understanding results from the challenges associated with in situ flux studies and their correlation wi...

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Main Authors: Jianbin Tao, Deepak R Mishra, David L. Cotten, Jessica O’Connell, Monique Leclerc, Hafsah Binti Nahrawi, Gengsheng Zhang, Roshani Pahari
Format: Article
Language:English
Published: MDPI AG 2018-11-01
Series:Remote Sensing
Subjects:
MODIS GPP Calibration
MOD17A2
Normalized Distribution Moisture Index
Tide Adjusted Wetland Index
flux GPP
salt marsh
tidal wetlands
Online Access:https://www.mdpi.com/2072-4292/10/11/1831
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spelling doaj-5469ecef9bc84bc1ae7b43ea141f04012020-11-25T02:24:35ZengMDPI AGRemote Sensing2072-42922018-11-011011183110.3390/rs10111831rs10111831A Comparison between the MODIS Product (MOD17A2) and a Tide-Robust Empirical GPP Model Evaluated in a Georgia WetlandJianbin Tao0Deepak R Mishra1David L. Cotten2Jessica O’Connell3Monique Leclerc4Hafsah Binti Nahrawi5Gengsheng Zhang6Roshani Pahari7Department of Geography, University of Georgia, Athens, GA 30609, USADepartment of Geography, University of Georgia, Athens, GA 30609, USADepartment of Geography, University of Georgia, Athens, GA 30609, USADepartment of Geography, University of Georgia, Athens, GA 30609, USAAtmospheric Biogeosciences Group, University of Georgia, Griffin, GA 30223, USAAtmospheric Biogeosciences Group, University of Georgia, Griffin, GA 30223, USAAtmospheric Biogeosciences Group, University of Georgia, Griffin, GA 30223, USAAtmospheric Biogeosciences Group, University of Georgia, Griffin, GA 30223, USADespite the importance of tidal ecosystems in the global carbon budget, the relationships between environmental drivers and carbon dynamics in these wetlands remain poorly understood. This limited understanding results from the challenges associated with in situ flux studies and their correlation with satellite imagery which can be affected by periodic tidal flooding. Carbon dioxide eddy covariance (EC) towers are installed in only a few wetlands worldwide, and the longest eddy-covariance record from Georgia (GA) wetlands contains only two continuous years of observations. The goals of the present study were to evaluate the performance of existing MODIS Gross Primary Production (GPP) products (MOD17A2) against EC derived GPP and develop a tide-robust Normalized Difference Moisture Index (NDMI) based model to predict GPP within a <i>Spartina alterniflora</i> salt marsh on Sapelo Island, GA. These EC tower-based observations represent a basis to associate CO<sub>2</sub> fluxes with canopy reflectance and thus provide the means to use satellite-based reflectance data for broader scale investigations. We demonstrate that Light Use Efficiency (LUE)-based MOD17A2 does not accurately reflect tidal wetland GPP compared to a simple empirical vegetation index-based model where tidal influence was accounted for. The NDMI-based GPP model was capable of predicting changes in wetland CO<sub>2</sub> fluxes and explained 46% of the variation in flux-estimated GPP within the training data, and a root mean square error of 6.96 g C m<sup>&#8722;2</sup> in the validation data. Our investigation is the first to create a MODIS-based wetland GPP estimation procedure that demonstrates the importance of filtering tidal observations from satellite surface reflectance data.https://www.mdpi.com/2072-4292/10/11/1831MODIS GPP CalibrationMOD17A2Normalized Distribution Moisture IndexTide Adjusted Wetland Indexflux GPPsalt marshtidal wetlands
collection DOAJ
language English
format Article
sources DOAJ
author Jianbin Tao
Deepak R Mishra
David L. Cotten
Jessica O’Connell
Monique Leclerc
Hafsah Binti Nahrawi
Gengsheng Zhang
Roshani Pahari
spellingShingle Jianbin Tao
Deepak R Mishra
David L. Cotten
Jessica O’Connell
Monique Leclerc
Hafsah Binti Nahrawi
Gengsheng Zhang
Roshani Pahari
A Comparison between the MODIS Product (MOD17A2) and a Tide-Robust Empirical GPP Model Evaluated in a Georgia Wetland
Remote Sensing
MODIS GPP Calibration
MOD17A2
Normalized Distribution Moisture Index
Tide Adjusted Wetland Index
flux GPP
salt marsh
tidal wetlands
author_facet Jianbin Tao
Deepak R Mishra
David L. Cotten
Jessica O’Connell
Monique Leclerc
Hafsah Binti Nahrawi
Gengsheng Zhang
Roshani Pahari
author_sort Jianbin Tao
title A Comparison between the MODIS Product (MOD17A2) and a Tide-Robust Empirical GPP Model Evaluated in a Georgia Wetland
title_short A Comparison between the MODIS Product (MOD17A2) and a Tide-Robust Empirical GPP Model Evaluated in a Georgia Wetland
title_full A Comparison between the MODIS Product (MOD17A2) and a Tide-Robust Empirical GPP Model Evaluated in a Georgia Wetland
title_fullStr A Comparison between the MODIS Product (MOD17A2) and a Tide-Robust Empirical GPP Model Evaluated in a Georgia Wetland
title_full_unstemmed A Comparison between the MODIS Product (MOD17A2) and a Tide-Robust Empirical GPP Model Evaluated in a Georgia Wetland
title_sort comparison between the modis product (mod17a2) and a tide-robust empirical gpp model evaluated in a georgia wetland
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2018-11-01
description Despite the importance of tidal ecosystems in the global carbon budget, the relationships between environmental drivers and carbon dynamics in these wetlands remain poorly understood. This limited understanding results from the challenges associated with in situ flux studies and their correlation with satellite imagery which can be affected by periodic tidal flooding. Carbon dioxide eddy covariance (EC) towers are installed in only a few wetlands worldwide, and the longest eddy-covariance record from Georgia (GA) wetlands contains only two continuous years of observations. The goals of the present study were to evaluate the performance of existing MODIS Gross Primary Production (GPP) products (MOD17A2) against EC derived GPP and develop a tide-robust Normalized Difference Moisture Index (NDMI) based model to predict GPP within a <i>Spartina alterniflora</i> salt marsh on Sapelo Island, GA. These EC tower-based observations represent a basis to associate CO<sub>2</sub> fluxes with canopy reflectance and thus provide the means to use satellite-based reflectance data for broader scale investigations. We demonstrate that Light Use Efficiency (LUE)-based MOD17A2 does not accurately reflect tidal wetland GPP compared to a simple empirical vegetation index-based model where tidal influence was accounted for. The NDMI-based GPP model was capable of predicting changes in wetland CO<sub>2</sub> fluxes and explained 46% of the variation in flux-estimated GPP within the training data, and a root mean square error of 6.96 g C m<sup>&#8722;2</sup> in the validation data. Our investigation is the first to create a MODIS-based wetland GPP estimation procedure that demonstrates the importance of filtering tidal observations from satellite surface reflectance data.
topic MODIS GPP Calibration
MOD17A2
Normalized Distribution Moisture Index
Tide Adjusted Wetland Index
flux GPP
salt marsh
tidal wetlands
url https://www.mdpi.com/2072-4292/10/11/1831
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