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The genetic basis of the root economics spectrum in a perennial grass

Weile Chen, Yanqi Wu, Felix Fritschi, Thomas Juenger

2021Proceedings of the National Academy of Sciences39 citationsDOIOpen Access PDF

Abstract

) display root features exemplifying the RES, with costly constructed roots in southern lowland and inexpensively constructed roots in northern upland ecotypes. We used an outbred genetic mapping population derived from lowland and upland switchgrass ecotypes to examine the genetic architecture of the RES. We found that absorptive roots (distal first and second orders) were often "deciduous" in winter. The percentage of overwintering absorptive roots was decreased by northern upland alleles compared with southern lowland alleles, suggesting a locally-adapted conservative strategy in warmer and acquisitive strategy in colder regions. Relative turnover of absorptive roots was genetically negatively correlated with their biomass investment per unit root length, suggesting that the key trade-off in framing RES is genetically facilitated. We also detected strong genetic correlations among root morphology, root productivity, and shoot size. Overall, our results reveal the genetic architecture of multiple traits that likely impacts the evolution of RES and plant aboveground-belowground organization. In practice, we provide genetic evidence that increasing switchgrass yield for bioenergy does not directly conflict with enhancing its root-derived carbon sequestration.

Topics & Concepts

EcotypePerennial plantBiologyPopulationTraitBiomass (ecology)Root (linguistics)BotanyAgronomyEcologyDemographyProgramming languageComputer sciencePhilosophyLinguisticsSociologyBioenergy crop production and managementBiofuel production and bioconversionWheat and Barley Genetics and Pathology
The genetic basis of the root economics spectrum in a perennial grass | Litcius