Agroecological genetics of biomass allocation in wheat uncovers genotype interactions with canopy shade and plant size

Author:

Golan Guy1ORCID,Weiner Jacob2ORCID,Zhao Yusheng1ORCID,Schnurbusch Thorsten13ORCID

Affiliation:

1. Leibniz Institute of Plant Genetics and Crop Plant Research (IPK) OT Gatersleben 06466 Seeland Germany

2. Department of Plant and Environmental Sciences University of Copenhagen DK‐1871 Frederiksberg Denmark

3. Martin Luther University Halle‐Wittenberg, Faculty of Natural Sciences III Institute of Agricultural and Nutritional Sciences 06120 Halle Germany

Abstract

Summary How plants distribute biomass among organs influences resource acquisition, reproduction and plant–plant interactions, and is essential in understanding plant ecology, evolution, and yield production in agriculture. However, the genetic mechanisms regulating allocation responses to the environment are largely unknown. We studied recombinant lines of wheat (Triticum spp.) grown as single plants under sunlight and simulated canopy shade to investigate genotype‐by‐environment interactions in biomass allocation to the leaves, stems, spikes, and grains. Size‐corrected mass fractions and allometric slopes were employed to dissect allocation responses to light limitation and plant size. Size adjustments revealed light‐responsive alleles associated with adaptation to the crop environment. Combined with an allometric approach, we demonstrated that polymorphism in the DELLA protein is associated with the response to shade and size. While a gibberellin‐sensitive allelic effect on stem allocation was amplified when plants were shaded, size‐dependent effects of this allele drive allocation to reproduction, suggesting that the ontogenetic trajectory of the plant affects the consequences of shade responses for allocation. Our approach provides a basis for exploring the genetic determinants underlying investment strategies in the face of different resource constraints and will be useful in predicting social behaviours of individuals in a crop community.

Funder

Alexander von Humboldt-Stiftung

Deutsche Forschungsgemeinschaft

Publisher

Wiley

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