Litcius/Paper detail

Multiple brace root phenotypes promote anchorage and limit root lodging in maize

Ashley N. Hostetler, Lindsay Erndwein, Jonathan W. Reneau, Adam Stager, Herbert G. Tanner, Douglas D. Cook, Erin E. Sparks

2022Plant Cell & Environment44 citationsDOI

Abstract

Plant mechanical failure (lodging) causes global yield losses of 7%-66% in cereal crops. We have previously shown that the above-ground nodal roots (brace roots) in maize are critical for anchorage. However, it is unknown how brace root phenotypes vary across genotypes and the functional consequence of this variation. This study quantifies the contribution of brace roots to anchorage, brace root traits, plant height, and root lodging susceptibility in 52 maize inbred lines. We show that the contribution of brace roots to anchorage and root lodging susceptibility varies among genotypes and this contribution can be explained by plant architectural variation. Additionally, supervised machine learning models were developed and show that multiple plant architectural phenotypes can predict the contribution of brace roots to anchorage and root lodging susceptibility. Together these data define the plant architectures that are important in lodging resistance and show that the contribution of brace roots to anchorage is a good proxy for root lodging susceptibility.

Topics & Concepts

BraceRoot (linguistics)Lateral rootRoot systemPlant rootsBiologyAgronomyBotanyEngineeringStructural engineeringBiochemistryGenePhilosophyLinguisticsMutantArabidopsisCrop Yield and Soil FertilityPlant nutrient uptake and metabolismGenetic Mapping and Diversity in Plants and Animals