Frost Damage Assessment in Wheat Using Spectral Mixture Analysis

Frost damage to broadacre crops can cause up to an 85% loss in productivity. Although growers have few options for crop protection from frost, a rapid method for assessing frost-induced sterility would allow for timely management decisions (e.g., cutting for hay and altering marketing strategies). S...

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Bibliographic Details
Published in:Remote sensing (Basel, Switzerland) Switzerland), 2019-11, Vol.11 (21), p.2476
Main Authors: Fitzgerald, Glenn J., Perry, Eileen M., Flower, Ken C., Callow, J. Nikolaus, Boruff, Bryan, Delahunty, Audrey, Wallace, Ashley, Nuttall, James
Format: Article
Language:English
Subjects:
abiotic stress
Agricultural production
Canopies
Crop damage
Crop yield
Crops
Damage assessment
Datasets
Frost
Frost damage
Frost protection
Grain
hyperspectral
Libraries
Measuring instruments
Normalized difference vegetative index
Plant protection
Radiation
Remote sensing
scaling
Spectra
spectral signature
Spectral signatures
Sterility
Vegetation
Wheat
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Summary:Frost damage to broadacre crops can cause up to an 85% loss in productivity. Although growers have few options for crop protection from frost, a rapid method for assessing frost-induced sterility would allow for timely management decisions (e.g., cutting for hay and altering marketing strategies). Spectral mixture analysis (SMA) has shown success in mapping landscape components and was used with hyperspectral data collected on the canopy, heads, and leaves of wheat at different sites to determine if this could quantify frost damage. Spectral libraries were assembled from canopy components collected from local field sites to generate spectral libraries for SMA from which a series of fraction sets was derived. The frost (Fr) fraction was then used to estimate final yield as a means of measuring frost damage. The best-fitting Fr fractions to yield were derived from the same data set as the source Fr spectra, and these ranged over R2 = 0.58–0.75 at the canopy scale. It was clear that spectral signatures need to be collected at scale to assess frost damage. While Fr fractions were able to estimate yield there was no “universal” endmember set from which a Fr fraction could be derived. The normalized difference vegetation index (NDVI) was not able to estimate frost damage consistently. Future work requires determining whether there is a “universal” set of endmembers and a minimum set of targeted wavebands that could lead to multispectral instruments for frost assessment for use in ground and aerial sensors.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs11212476