A wheat canopy albedo high-throughput phenotyping method and its relationship with canopy architecture and leaf properties
M. F. Ruz-Ruiz, Jose A. Jimenez-Berni, Richard Trethowan, Helen Bramley

TL;DR
This study introduces a method to measure wheat canopy albedo and explores its connection to heat tolerance traits and canopy structure.
Contribution
A novel high-throughput phenotyping method for measuring wheat canopy albedo and its relationship with canopy architecture and micrometeorology.
Findings
Genotypic differences in albedo were observed, particularly at noon in optimally sown wheat.
Albedo was strongly correlated with canopy architecture and light interception.
Higher albedo canopies showed larger air temperature differences across the canopy profile.
Abstract
Heat stress damage leads to yield penalties in many wheat-growing areas. Climate change models predict warmer scenarios and more frequent heat shocks. Consequently, wheat breeders need to develop more productive varieties for warm conditions, and therefore, the identification of heat-tolerance traits is needed. Albedo is an integrative trait of the optical properties of the canopy defined as the ratio of reflected light to total light received. High albedos in warm conditions may help reduce damaging radiation. Despite its potential relevance for heat avoidance, albedo has been little explored in wheat breeding. In this work, a selection of 30 wheat (Triticum aestivum L.) genotypes of diverse origin were sown at two sowing dates in Australia (NSW) in 2018 and 2019. A high-throughput phenotyping method based on spectroradiometer measurements [Analytical Spectral Devices (ASD)] to measure…
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Taxonomy
TopicsRemote Sensing in Agriculture · Climate change impacts on agriculture · Plant responses to elevated CO2
