Abstract
Stalk strength is an important trait in maize (Zea mays L.). Strong stalks reduce lodging and maximize harvestable yield. Studies show rind penetrometer resistance (RPR), or the force required to pierce a stalk rind with a spike, is a valid approximation of strength. We measured RPR across 4,692 recombinant inbreds (RILs) comprising the maize nested association mapping (NAM) panel derived from crosses of diverse inbreds to the inbred, B73. An intermated B73×Mo17 family (IBM) of 196 RILs and a panel of 2,453 diverse inbreds from the North Central Regional Plant Introduction Station (NCRPIS) were also evaluated. We measured RPR in three environments. Family-nested QTL were identified by joint-linkage mapping in the NAM panel. We also performed a genome-wide association study (GWAS) and genomic best linear unbiased prediction (GBLUP) in each panel. Broad sense heritability computed on a line means basis was low for RPR. Only 8 of 26 families had a heritability above 0.20. The NCRPIS diversity panel had a heritability of 0.54. Across NAM and IBM families, 18 family-nested QTL and 141 significant GWAS associations were identified for RPR. Numerous weak associations were also found in the NCRPIS diversity panel. However, few were linked to loci involved in phenylpropanoid and cellulose synthesis or vegetative phase transition. Using an identity-by-state (IBS) relationship matrix estimated from 1.6 million single nucleotide polymorphisms (SNPs) and RPR measures from 20% of the NAM panel, genomic prediction by GBLUP explained 64±2% of variation in the remaining RILs. In the NCRPIS diversity panel, an IBS matrix estimated from 681,257 SNPs and RPR measures from 20% of the panel explained 33±3% of variation in the remaining inbreds. These results indicate the high genetic complexity of stalk strength and the potential for genomic prediction to hasten its improvement.
Highlights
Maize stalk strength impacts grain yield and silage quality due to its relationship with stalk lodging and stover quality
Variation in rind penetrometer resistance (RPR) and Related Traits Heritable variation between maize lines was identified for RPR, ear height (EHT), and days to anthesis (DTA) within the nested association mapping (NAM), and intermated B736Mo17 family (IBM) families, as well as the North Central Regional Plant Introduction Station (NCRPIS) inbred diversity panel (Table 1)
Over 50,000 plants were measured for RPR across NAM and IBM families, and the NCRPIS diversity panel
Summary
Maize stalk strength impacts grain yield and silage quality due to its relationship with stalk lodging and stover quality. High stalk strength is important in fields plagued by European corn borer, Ostrinia nubilalis H. Stalk strength affects colonization of fungal pathogens such as Gibberella zeae [3] and Diplodia zeae [4]. High winds and soils with poor nitrogen to phosphorous ratios [5] increase stalk lodging in weak genotypes as well. Previous study of maize rinds, from populations divergently selected for stalk strength, revealed several means for enhancement [6]. Increases in vascular bundles, rind-parenchyma interlumen thickness, and percent hypodermal cell wall area correlated with superior strength [6]. Compositional analyses have revealed the influence of cellulose and lignin on maize stalk strength [10]
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