Predicting Soil Organic Carbon and Total Nitrogen at the Farm Scale Using Quantitative Color Sensor Measurements

Predicting Soil Organic Carbon and Total Nitrogen at the Farm Scale Using Quantitative Color Sensor Measurements

Sensor technology can be a reliable and inexpensive means of gathering soils data for soil health assessment at the farm scale. This study demonstrates the use of color system readings from the Nix ProTM color sensor (Nix Sensor Ltd., Hamilton, ON, Canada) to predict soil organic carbon (SOC) as wel...

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Main Authors: Roxanne Y. Stiglitz, Elena A. Mikhailova, Julia L. Sharp, Christopher J. Post, Mark A. Schlautman, Patrick D. Gerard, Michael P. Cope
Format: Article
Language:English
Published: MDPI AG 2018-10-01
Series:Agronomy
Subjects:
Alfisols
Entisols
Inceptisols
Munsell Color Chart
regression analysis
soil color
Online Access:http://www.mdpi.com/2073-4395/8/10/212
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spelling doaj-20208babc8a34160a86abe4b90a8f61d2021-04-02T07:11:24ZengMDPI AGAgronomy2073-43952018-10-0181021210.3390/agronomy8100212agronomy8100212Predicting Soil Organic Carbon and Total Nitrogen at the Farm Scale Using Quantitative Color Sensor MeasurementsRoxanne Y. Stiglitz0Elena A. Mikhailova1Julia L. Sharp2Christopher J. Post3Mark A. Schlautman4Patrick D. Gerard5Michael P. Cope6Department of Forestry and Environmental Conservation, Clemson University, Clemson, SC 29634, USADepartment of Forestry and Environmental Conservation, Clemson University, Clemson, SC 29634, USADepartment of Statistics, Colorado State University, Fort Collins, CO 80523, USADepartment of Forestry and Environmental Conservation, Clemson University, Clemson, SC 29634, USADepartment of Environmental Engineering and Earth Sciences, Clemson University, Anderson, SC 29625, USADepartment of Mathematical Sciences, Clemson University, Clemson, SC 29634, USADepartment of Forestry and Environmental Conservation, Clemson University, Clemson, SC 29634, USASensor technology can be a reliable and inexpensive means of gathering soils data for soil health assessment at the farm scale. This study demonstrates the use of color system readings from the Nix ProTM color sensor (Nix Sensor Ltd., Hamilton, ON, Canada) to predict soil organic carbon (SOC) as well as total nitrogen (TN) in variable, glacial till soils at the 147 ha Cornell University Willsboro Research Farm, located in Upstate New York, USA. Regression analysis was conducted using the natural log of SOC (lnSOC) and the natural log of TN (lnTN) as dependent variables, and sample depth and color data were used as predictors for 155 air dried soil samples. Analysis was conducted for combined samples, Alfisols, and Entisols as separate sample sets and separate models were developed using depth and color variables, and color variables only. Depth and L* were significant predictors of lnSOC and lnTN for all sample sets. The color variable b* was not a significant predictor of lnSOC for any soil sample set, but it was for lnTN for all sample sets. The lnSOC prediction model for Alfisols, which included depth, had the highest R2 value (0.81, p-value < 0.001). The lnSOC model for Entisols, which contained only color variables, had the lowest R2 (0.62, p-value < 0.001). The results suggest that the Nix ProTM color sensor is an effective tool for the rapid assessment of SOC and TN content for these soils. With the accuracy and low cost of this sensor technology, it will be possible to greatly increase the spatial and temporal density of SOC and TN estimates, which is critical for soil management.http://www.mdpi.com/2073-4395/8/10/212AlfisolsEntisolsInceptisolsMunsell Color Chartregression analysissoil color
collection DOAJ
language English
format Article
sources DOAJ
author Roxanne Y. Stiglitz
Elena A. Mikhailova
Julia L. Sharp
Christopher J. Post
Mark A. Schlautman
Patrick D. Gerard
Michael P. Cope
spellingShingle Roxanne Y. Stiglitz
Elena A. Mikhailova
Julia L. Sharp
Christopher J. Post
Mark A. Schlautman
Patrick D. Gerard
Michael P. Cope
Predicting Soil Organic Carbon and Total Nitrogen at the Farm Scale Using Quantitative Color Sensor Measurements
Agronomy
Alfisols
Entisols
Inceptisols
Munsell Color Chart
regression analysis
soil color
author_facet Roxanne Y. Stiglitz
Elena A. Mikhailova
Julia L. Sharp
Christopher J. Post
Mark A. Schlautman
Patrick D. Gerard
Michael P. Cope
author_sort Roxanne Y. Stiglitz
title Predicting Soil Organic Carbon and Total Nitrogen at the Farm Scale Using Quantitative Color Sensor Measurements
title_short Predicting Soil Organic Carbon and Total Nitrogen at the Farm Scale Using Quantitative Color Sensor Measurements
title_full Predicting Soil Organic Carbon and Total Nitrogen at the Farm Scale Using Quantitative Color Sensor Measurements
title_fullStr Predicting Soil Organic Carbon and Total Nitrogen at the Farm Scale Using Quantitative Color Sensor Measurements
title_full_unstemmed Predicting Soil Organic Carbon and Total Nitrogen at the Farm Scale Using Quantitative Color Sensor Measurements
title_sort predicting soil organic carbon and total nitrogen at the farm scale using quantitative color sensor measurements
publisher MDPI AG
series Agronomy
issn 2073-4395
publishDate 2018-10-01
description Sensor technology can be a reliable and inexpensive means of gathering soils data for soil health assessment at the farm scale. This study demonstrates the use of color system readings from the Nix ProTM color sensor (Nix Sensor Ltd., Hamilton, ON, Canada) to predict soil organic carbon (SOC) as well as total nitrogen (TN) in variable, glacial till soils at the 147 ha Cornell University Willsboro Research Farm, located in Upstate New York, USA. Regression analysis was conducted using the natural log of SOC (lnSOC) and the natural log of TN (lnTN) as dependent variables, and sample depth and color data were used as predictors for 155 air dried soil samples. Analysis was conducted for combined samples, Alfisols, and Entisols as separate sample sets and separate models were developed using depth and color variables, and color variables only. Depth and L* were significant predictors of lnSOC and lnTN for all sample sets. The color variable b* was not a significant predictor of lnSOC for any soil sample set, but it was for lnTN for all sample sets. The lnSOC prediction model for Alfisols, which included depth, had the highest R2 value (0.81, p-value < 0.001). The lnSOC model for Entisols, which contained only color variables, had the lowest R2 (0.62, p-value < 0.001). The results suggest that the Nix ProTM color sensor is an effective tool for the rapid assessment of SOC and TN content for these soils. With the accuracy and low cost of this sensor technology, it will be possible to greatly increase the spatial and temporal density of SOC and TN estimates, which is critical for soil management.
topic Alfisols
Entisols
Inceptisols
Munsell Color Chart
regression analysis
soil color
url http://www.mdpi.com/2073-4395/8/10/212
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