A maize landrace introgression library reveals a negative effect of root-to-shoot ratio on water use efficiency

Novel sources of genetic variability for water-use efficiency are needed in order to breed varieties more suitable to sustainable cropping systems. Here, a maize (Zea mays L.) introgression library (IL) of the landrace Gaspé Flint into the reference line B73 was characterized in high-throughput phenotyping platforms, both in well-watered and moderate water-deficit conditions, for water use, WUE, root and shoot growth. Traits heritability ranged from 0.77 to 0.93. The introgression of Gaspé Flint chromosome segments into the B73 genome significantly altered several traits. Some introgression lines exhibited a faster shoot biomass accumulation than B73, resulting in higher water-use efficiency at the expense of root growth. QTL mapping identified seven major QTL clusters affecting shoot growth and water-use efficiency, two of which overlapped, with opposite effects, with QTLs for root biomass known to include root developmental genes. These results support the non-intuitive hypothesis that reduced root-to-shoot ratio positively affects maize water-use efficiency.