Publication: Across-scale thermal infrared anisotropy in forests: Insights from a multi-angular laboratory-based approach
Across-scale thermal infrared anisotropy in forests: Insights from a multi-angular laboratory-based approach
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Adams, J. S., Damm, A., Werfeli, M., Gröbner, J., & Naegeli, K. (2025). Across-scale thermal infrared anisotropy in forests: Insights from a multi-angular laboratory-based approach. Remote Sensing of Environment, 326, 114766. https://doi.org/10.1016/j.rse.2025.114766
Abstract
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The Land Surface Temperature (LST) is well suited to monitor biosphere–atmosphere interactions in forests, as it depends on water availability and atmospheric/meteorological conditions above and below the canopy. Satellite-based LST has proven integral in observing evapotranspiration, estimating surface heat fluxes and characterising vegetation properties. Since the radiative regime of forests is complex, driven by canopy structure, components radiation properties and their arrangement, forest radiative temperatures are subject to str
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- Adams, Jennifer Susan
- Gröbner, Julian
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Adams, J. S., Damm, A., Werfeli, M., Gröbner, J., & Naegeli, K. (2025). Across-scale thermal infrared anisotropy in forests: Insights from a multi-angular laboratory-based approach. Remote Sensing of Environment, 326, 114766. https://doi.org/10.1016/j.rse.2025.114766
