Agronomy (Jun 2020)

Affordable Phenotyping of Winter Wheat under Field and Controlled Conditions for Drought Tolerance

  • Dhananjay Kumar,
  • Sandeep Kushwaha,
  • Chiara Delvento,
  • Žilvinas Liatukas,
  • Vivekanand Vivekanand,
  • Jan T. Svensson,
  • Tina Henriksson,
  • Gintaras Brazauskas,
  • Aakash Chawade

DOI
https://doi.org/10.3390/agronomy10060882
Journal volume & issue
Vol. 10, no. 6
p. 882

Abstract

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Drought stress is one of the key plant stresses reducing grain yield in cereal crops worldwide. Although it is not a breeding target in Northern Europe, the changing climate and the drought of 2018 have increased its significance in the region. A key challenge, therefore, is to identify novel germplasm with higher drought tolerance, a task that will require continuous characterization of a large number of genotypes. The aim of this work was to assess if phenotyping systems with low-cost consumer-grade digital cameras can be used to characterize germplasm for drought tolerance. To achieve this goal, we built a proximal phenotyping cart mounted with digital cameras and evaluated it by characterizing 142 winter wheat genotypes for drought tolerance under field conditions. The same genotypes were additionally characterized for seedling stage traits by imaging under controlled growth conditions. The analysis revealed that under field conditions, plant biomass, relative growth rates, and Normalized Difference Vegetation Index (NDVI) from different growth stages estimated by imaging were significantly correlated to drought tolerance. Under controlled growth conditions, root count at the seedling stage evaluated by imaging was significantly correlated to adult plant drought tolerance observed in the field. Random forest models were trained by integrating measurements from field and controlled conditions and revealed that plant biomass and relative growth rates at key plant growth stages are important predictors of drought tolerance. Thus, based on the results, it can be concluded that the consumer-grade cameras can be key components of affordable automated phenotyping systems to accelerate pre-breeding for drought tolerance.

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