Genetics of phenological development and implications for seed yield in lentil

Document Type

Article

Publication Date

5-7-2024

Journal Title

Journal of Experimental Botany

ISSN

ISSN 0022-0957, EISSN 1460-2431

Keywords

Biomass, environment, florigen, genetic gain, GWAS, harvest index, partitioning, phenotyping, rainfall

Disciplines

Agronomy and Crop Sciences

Abstract

Understanding phenology, its genetics and agronomic consequences, is critical for crop adaptation. Here we aim to (i) characterize lentil response to photoperiod with a focus on five loci: the lentil ELF3 orthologue Sn, two loci linked to clusters of lentil FT orthologues, and two loci without candidates in chromosomes 2 and 5 (Experiment 1: 36 lines, short and long days in a phytotron), and (ii) establish the phenology–yield relationship (Experiment 2: 25 lines, 11 field environments). A vintage perspective, where we quantify time trends in phenotype over three decades of breeding, links both experiments. Yield increased linearly from older to newer varieties at 29 kg ha–1 year–1 or 1.5% year–1, correlated negatively with flowering time in both winter- and summer-rainfall regimes, and decoupled from biomass in favourable environments. Time to flowering shortened from older to newer varieties at –0.56% year–1 in the field, and –0.42% year–1 (short days) and –0.99% year–1 (long days) in the phytotron. Early-flowering lines of diverse origin carried multiple early alleles for the five loci, indicating that at least some of these loci affect phenology additively. Current germplasm primarily features the early-flowering haplotype for an FTb cluster region, hence the potential to increase phenological diversity with yield implications.

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Digital Object Identifier (DOI)

https://doi.org/10.1093/jxb/erae203