https://www.selleckchem.com/products/fluzoparib.html High genetic variation in two European maize landraces can be harnessed to improve Gibberella ear rot resistance by integrated genomic tools. Fusarium graminearum (Fg) causes Gibberella ear rot (GER) in maize leading to yield reduction and contamination of grains with several mycotoxins. This study aimed to elucidate the molecular basis of GER resistance among 500 doubled haploid lines derived from two European maize landraces, "Kemater Landmais Gelb" (KE) and "Petkuser Ferdinand Rot" (PE). The two landraces were analyzed individually using genome-wide association studies and genomic selection (GS). The lines were genotyped with a 600-k maize array and phenotyped for GER severity, days to silking, plant height, and seed-set in four environments using artificial infection with a highly aggressive Fg isolate. High genotypic variances and broad-sense heritabilities were found for all traits. Genotype-environment interaction was important throughout. The phenotypic (r) and genotypic ([Formula see text]) correlabetween GER severity and the three agronomic traits. The mean prediction accuracies ([Formula see text]) of weighted GS (wRR-BLUP) were higher than [Formula see text] of marker-assisted selection (MAS) and unweighted GS (RR-BLUP) for GER severity. Using KE as the training set and PE as the validation set resulted in very low [Formula see text] that could be improved by using fixed marker effects in the GS model.A Correction to this paper has been published https//doi.org/10.1007/s00381-020-04984-x The published version of this article unfortunately contained an error. Unfortunately, the author noticed an error only after the proof was sent back to journal production. It is the second last sentence, "The superficial flaps act as an dural underlay, further augmenting the dural layer" instead of "The superficial flaps act as an extradural underlay, further augmenting the dural layer". This is quite an important ana