Plant species’ spectral emissivity and temperature using the hyperspectral thermal emission spectrometer (HyTES) sensor

Abstract:

The thermal domain (TIR; 2.5–15 μm) delivers unique measurements of plant characteristics that are not possible in other parts of the electromagnetic spectrum. However, these TIR measurements have largely been restricted to laboratory leaf level or coarse spatial resolutions due to the lack of suitable data from airborne and spaceborne instruments. The airborne Hyperspectral Thermal Emission Spectrometer (HyTES) provides an opportunity to retrieve high spectral resolution emissivity and land surface  temperature (LST) that can be exploited for canopy level vegetation research. This study is a high spatial resolution analysis of plant species’ emissivity and LST using HyTES imagery acquired in the Huntington Botanical Gardens on 2014 July 5 and 2016 Jan 25. Leaf and canopy emissivity variation was identified among 24 plant species and used to determine leaf to canopy scaling capabilities. HyTES LST patterns among species and dates were quantified and correlated to LiDAR derived tree canopy attributes. At the leaf scale, one third of the species showed distinct spectral separation from other species. However, at the canopy scale most species were not spectrally separable. Random forest classification demonstrates the high level of confusion between species with overall accuracies<40%. LST data, derived from TIR measurements, showed that species exhibited significantly different distributions between dates and species. These distributions were largely explained by canopy structure (e.g. tree height and canopy density) and composition of neighboring pixels (e.g. presence of pavement versus trees). While species do not exhibit unique emissivity signatures at the canopy level, the LST variation among species provides a stronger understanding of LST variability in coarser resolution TIR imagery. This study represents the analysis of vegetation characteristics using the NASA’s HyTES TIR sensor, opening the door for future remote sensing vegetation studies that include using the recently launched ECOsystem Spaceborne Thermal Radiometer Experiment on Space Station (ECOSTRESS) mission.

Links:

 

Citation:

S. Meerdink,  D. Roberts, G. Hulley, P. Gader,  J. Pisek, K. Adamson, and S. J. Hook,  "Plant species’ spectral emissivity and temperature using the hyperspectral thermal emission spectrometer (HyTES) sensor," in Remote Sensing of Environment, vol. 224, pp. 421–435, Apr 2019. https://doi.org/10.1016/j.rse.2019.02.009
@Article{Meerdink2019HyTES,
Title = {Plant species’ spectral emissivity and temperature using the hyperspectral thermal emission spectrometer (HyTES) sensor},
Author = {S. Meerdink and D.Roberts and G. Hulley and P. Gader and J. Pisek and K. Adamson and S. J. Hook},
Booktitle = {Remote Sensing of Environment},
Year = {2019},
Month = {Apr},
Volume = {224},
Pages = {421 -- 435},
doi = {https://doi.org/10.1016/j.rse.2019.02.009},
}