Estimating and mapping grass phosphorus concentration in an African savanna using hyperspectral image data

Mutanga, O; Kumar, Lalit

doi:10.1080/01431160701253253

Author(s)

Mutanga, O

Kumar, Lalit

Publication Date

2007

Abstract

We tested the utility of imaging spectroscopy and neural networks to map phosphorus concentration in savanna grass using airborne HyMAP image data. We also sought to ascertain the key wavelengths for phosphorus prediction using hyperspectral remote sensing. The remote sensing of foliar phosphorus has received very little attention as compared to nitrogen, yet it plays an equally important role in explaining the distribution and feeding patterns of herbivores. Band depths from two continuum-removed absorption features as well as the red edge position (REP) were input into a backpropagation neural network. Following a series of experiments to ascertain the optimum wavelengths, the best trained neural network was used to predict and ultimately to map grass phosphorus concentration in the Kruger National Park. The results indicate that the best trained neural network could predict phosphorus distribution with a coefficient of determination of 0.63 and a root mean square error (RMSE) of 0.07 (28% of the mean observed phosphorus concentration) on an independent test data set. Our results also show that the absorption feature located in the shortwave infrared (R₂₀₁₅₋₂₁₉₉) contains more information on phosphorus distribution, a region that has hardly been explored before in most spectroscopic experiments for phosphorus as compared to the visible bands. Overall, the study demonstrates the potential of imaging spectroscopy in mapping grass phosphorus concentration in savanna rangelands.

Citation

International Journal of Remote Sensing, 28(21), p. 4897-4911

ISSN

1366-5901

0143-1161

Link

https://hdl.handle.net/1959.11/3486

Language

en

Publisher

Taylor & Francis

Title

Estimating and mapping grass phosphorus concentration in an African savanna using hyperspectral image data

Type of document

Journal Article

Entity Type

Publication

Author(s)	Mutanga, O Kumar, Lalit
Publication Date	2007
Abstract	We tested the utility of imaging spectroscopy and neural networks to map phosphorus concentration in savanna grass using airborne HyMAP image data. We also sought to ascertain the key wavelengths for phosphorus prediction using hyperspectral remote sensing. The remote sensing of foliar phosphorus has received very little attention as compared to nitrogen, yet it plays an equally important role in explaining the distribution and feeding patterns of herbivores. Band depths from two continuum-removed absorption features as well as the red edge position (REP) were input into a backpropagation neural network. Following a series of experiments to ascertain the optimum wavelengths, the best trained neural network was used to predict and ultimately to map grass phosphorus concentration in the Kruger National Park. The results indicate that the best trained neural network could predict phosphorus distribution with a coefficient of determination of 0.63 and a root mean square error (RMSE) of 0.07 (28% of the mean observed phosphorus concentration) on an independent test data set. Our results also show that the absorption feature located in the shortwave infrared (R₂₀₁₅₋₂₁₉₉) contains more information on phosphorus distribution, a region that has hardly been explored before in most spectroscopic experiments for phosphorus as compared to the visible bands. Overall, the study demonstrates the potential of imaging spectroscopy in mapping grass phosphorus concentration in savanna rangelands.
Citation	International Journal of Remote Sensing, 28(21), p. 4897-4911
ISSN	1366-5901 0143-1161
Link	https://hdl.handle.net/1959.11/3486
Language	en
Publisher	Taylor & Francis
Title	Estimating and mapping grass phosphorus concentration in an African savanna using hyperspectral image data
Type of document	Journal Article
Entity Type	Publication

Estimating and mapping grass phosphorus concentration in an African savanna using hyperspectral image data

Files: