Litcius/Paper detail

Imaging canopy temperature: shedding (thermal) light on ecosystem processes

Christopher J. Still, Bharat Rastogi, Gerald Page, Daniel M. Griffith, Adam Sibley, Mark Schulze, Linnia Hawkins, Stephanie Pau, Matteo Detto, Brent R. Helliker

2021New Phytologist89 citationsDOIOpen Access PDF

Abstract

Summary Canopy temperature T can is a key driver of plant function that emerges as a result of interacting biotic and abiotic processes and properties. However, understanding controls on T can and forecasting canopy responses to weather extremes and climate change are difficult due to sparse measurements of T can at appropriate spatial and temporal scales. Burgeoning observations of T can from thermal cameras enable evaluation of energy budget theory and better understanding of how environmental controls, leaf traits and canopy structure influence temperature patterns. The canopy scale is relevant for connecting to remote sensing and testing biosphere model predictions. We anticipate that future breakthroughs in understanding of ecosystem responses to climate change will result from multiscale observations of T can across a range of ecosystems.

Topics & Concepts

CanopyAbiotic componentBiosphereEcosystemEnvironmental scienceClimate changeTemporal scalesEcologyEnergy budgetRange (aeronautics)Biotic componentScale (ratio)Atmospheric sciencesRemote sensingGeographyBiologyGeologyComposite materialMaterials scienceCartographyPlant Water Relations and Carbon DynamicsUrban Heat Island MitigationRemote Sensing in Agriculture
Imaging canopy temperature: shedding (thermal) light on ecosystem processes | Litcius