Ensemble Identification of Spectral Bands Related to Soil Organic Carbon Levels over an Agricultural Field in Southern Ontario, Canada

Ensemble Identification of Spectral Bands Related to Soil Organic Carbon Levels over an Agricultural Field in Southern Ontario, Canada

The recent use of hyperspectral remote sensing imagery has introduced new opportunities for soil organic carbon (SOC) assessment and monitoring. These data enable monitoring of a wide variety of soil properties but pose important methodological challenges. Highly correlated hyperspectral spectral ba...

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Main Authors: Ahmed Laamrani, Aaron A. Berg, Paul Voroney, Hannes Feilhauer, Line Blackburn, Michael March, Phuong D. Dao, Yuhong He, Ralph C. Martin
Format: Article
Language:English
Published: MDPI AG 2019-05-01
Series:Remote Sensing
Subjects:
remote sensing
agricultural soils
imaging spectroscopy
airborne hyperspectral imaging
unmanned aerial vehicle (UAV)
hyperspectral
feature selection
multimethod modeling approach
Online Access:https://www.mdpi.com/2072-4292/11/11/1298
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spelling doaj-fd561a376bec4684b05952a852c39ff42020-11-24T22:01:13ZengMDPI AGRemote Sensing2072-42922019-05-011111129810.3390/rs11111298rs11111298Ensemble Identification of Spectral Bands Related to Soil Organic Carbon Levels over an Agricultural Field in Southern Ontario, CanadaAhmed Laamrani0Aaron A. Berg1Paul Voroney2Hannes Feilhauer3Line Blackburn4Michael March5Phuong D. Dao6Yuhong He7Ralph C. Martin8Department of Geography, Environment and Geomatics, University of Guelph, Guelph, ON N1G 2W1, CanadaDepartment of Geography, Environment and Geomatics, University of Guelph, Guelph, ON N1G 2W1, CanadaSchool of Environmental Sciences, University of Guelph, Guelph, ON N1G 2W1, CanadaInstitute of Geography, University of Erlangen-Nuremberg, 91058 Erlangen, GermanySchool of Environmental Sciences, University of Guelph, Guelph, ON N1G 2W1, CanadaDepartment of Geography, Environment and Geomatics, University of Guelph, Guelph, ON N1G 2W1, CanadaDepartment of Geography, University of Toronto Mississauga, Mississauga, ON L5L 1C6, CanadaDepartment of Geography, University of Toronto Mississauga, Mississauga, ON L5L 1C6, CanadaDepartment of Plant Agriculture, University of Guelph, Guelph, ON N1G 2W1, CanadaThe recent use of hyperspectral remote sensing imagery has introduced new opportunities for soil organic carbon (SOC) assessment and monitoring. These data enable monitoring of a wide variety of soil properties but pose important methodological challenges. Highly correlated hyperspectral spectral bands can affect the prediction and accuracy as well as the interpretability of the retrieval model. Therefore, the spectral dimension needs to be reduced through a selection of specific spectral bands or regions that are most helpful to describing SOC. This study evaluates the efficiency of visible near-infrared (VNIR) and shortwave near-infrared (SWIR) hyperspectral data to identify the most informative hyperspectral bands responding to SOC content in agricultural soils. Soil samples (111) were collected over an agricultural field in southern Ontario, Canada and analyzed against two hyperspectral datasets: An airborne Nano-Hyperspec imaging sensor with 270 bands (400−1000 nm) and a laboratory hyperspectral dataset (ASD FieldSpec 3) along the 1000−2500 nm range (NIR-SWIR). In parallel, a multimethod modeling approach consisting of random forest, support vector machine, and partial least squares regression models was used to conduct band selections and to assess the validity of the selected bands. The multimethod model resulted in a selection of optimal band or regions over the VNIR and SWIR sensitive to SOC and potentially for mapping. The bands that achieved the highest respective importance values were 711−715, 727, 986−998, and 433−435 nm regions (VNIR); and 2365−2373, 2481−2500, and 2198−2206 nm (NIR-SWIR). Some of these bands are in agreement with the absorption features of SOC reported in the literature, whereas others have not been reported before. Ultimately, the selection of optimal band and regions is of importance for quantification of agricultural SOC and would provide a new framework for creating optimized SOC-specific sensors.https://www.mdpi.com/2072-4292/11/11/1298remote sensingagricultural soilsimaging spectroscopyairborne hyperspectral imagingunmanned aerial vehicle (UAV)hyperspectralfeature selectionmultimethod modeling approach
collection DOAJ
language English
format Article
sources DOAJ
author Ahmed Laamrani
Aaron A. Berg
Paul Voroney
Hannes Feilhauer
Line Blackburn
Michael March
Phuong D. Dao
Yuhong He
Ralph C. Martin
spellingShingle Ahmed Laamrani
Aaron A. Berg
Paul Voroney
Hannes Feilhauer
Line Blackburn
Michael March
Phuong D. Dao
Yuhong He
Ralph C. Martin
Ensemble Identification of Spectral Bands Related to Soil Organic Carbon Levels over an Agricultural Field in Southern Ontario, Canada
Remote Sensing
remote sensing
agricultural soils
imaging spectroscopy
airborne hyperspectral imaging
unmanned aerial vehicle (UAV)
hyperspectral
feature selection
multimethod modeling approach
author_facet Ahmed Laamrani
Aaron A. Berg
Paul Voroney
Hannes Feilhauer
Line Blackburn
Michael March
Phuong D. Dao
Yuhong He
Ralph C. Martin
author_sort Ahmed Laamrani
title Ensemble Identification of Spectral Bands Related to Soil Organic Carbon Levels over an Agricultural Field in Southern Ontario, Canada
title_short Ensemble Identification of Spectral Bands Related to Soil Organic Carbon Levels over an Agricultural Field in Southern Ontario, Canada
title_full Ensemble Identification of Spectral Bands Related to Soil Organic Carbon Levels over an Agricultural Field in Southern Ontario, Canada
title_fullStr Ensemble Identification of Spectral Bands Related to Soil Organic Carbon Levels over an Agricultural Field in Southern Ontario, Canada
title_full_unstemmed Ensemble Identification of Spectral Bands Related to Soil Organic Carbon Levels over an Agricultural Field in Southern Ontario, Canada
title_sort ensemble identification of spectral bands related to soil organic carbon levels over an agricultural field in southern ontario, canada
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2019-05-01
description The recent use of hyperspectral remote sensing imagery has introduced new opportunities for soil organic carbon (SOC) assessment and monitoring. These data enable monitoring of a wide variety of soil properties but pose important methodological challenges. Highly correlated hyperspectral spectral bands can affect the prediction and accuracy as well as the interpretability of the retrieval model. Therefore, the spectral dimension needs to be reduced through a selection of specific spectral bands or regions that are most helpful to describing SOC. This study evaluates the efficiency of visible near-infrared (VNIR) and shortwave near-infrared (SWIR) hyperspectral data to identify the most informative hyperspectral bands responding to SOC content in agricultural soils. Soil samples (111) were collected over an agricultural field in southern Ontario, Canada and analyzed against two hyperspectral datasets: An airborne Nano-Hyperspec imaging sensor with 270 bands (400−1000 nm) and a laboratory hyperspectral dataset (ASD FieldSpec 3) along the 1000−2500 nm range (NIR-SWIR). In parallel, a multimethod modeling approach consisting of random forest, support vector machine, and partial least squares regression models was used to conduct band selections and to assess the validity of the selected bands. The multimethod model resulted in a selection of optimal band or regions over the VNIR and SWIR sensitive to SOC and potentially for mapping. The bands that achieved the highest respective importance values were 711−715, 727, 986−998, and 433−435 nm regions (VNIR); and 2365−2373, 2481−2500, and 2198−2206 nm (NIR-SWIR). Some of these bands are in agreement with the absorption features of SOC reported in the literature, whereas others have not been reported before. Ultimately, the selection of optimal band and regions is of importance for quantification of agricultural SOC and would provide a new framework for creating optimized SOC-specific sensors.
topic remote sensing
agricultural soils
imaging spectroscopy
airborne hyperspectral imaging
unmanned aerial vehicle (UAV)
hyperspectral
feature selection
multimethod modeling approach
url https://www.mdpi.com/2072-4292/11/11/1298
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