Intra-specific competition in maize: early established hierarchies differ in plant growth and biomass partitioning to the ear around silking

PAGANO, E. AND MADDONNI, G.A

FIELD CROPS RESEARCH

Elsevier

Lugar: Amsterdam; Año: 2007 vol. 101 p. 306 - 320

0378-4290

Early interferences among plants within a maize stand determine the establishment of extreme plant types (i.e. dominant and dominated individuals). The development of these hierarchies takes place well before [from the seventh leaf stage (V7) onwards] the start of the critical period for kernel set (i.e. a 30d period centered in silking). Kernel number per plant (KNP) is significantly related to plant growth rate around silking (PGRS) and biomass partitioning to the ear during this period. Previous evidence has demonstrated that at high stand densities, extreme plant types may exhibit similar PGRS values but set different KNP. We tested the hypothesis that early-established plant hierarchies differ in biomass allocation to the ears during the period around silking. Two hybrids of contrasting tolerance to crowding (DK752 and DK765 as the tolerant and the intolerant hybrid, respectively) were cropped at different interplant competition intensities (6 pl m-2, 12 pl m-2, 12 pl m-2 thinned to 6 pl m-2 at V9 and 6 pl m-2 shading from V9 onwards) during 2003/2004 and 2004/2005 in Argentina. For all treatments, the coefficient of variation (CV) of plant biomass increased from V3 (ca. 1.2%) to V9-10 (ca. 22%). From V7 onwards, plant growth rate of dominant individuals was higher (P< 0.05) than that of the dominated plants. Hence, dominant plants exhibited higher (P< 0.05) PGRS (ca. 4.5 g per plant per day) than dominated individuals (ca. 3.7 g per plant per day). As PGRS declined in response to increased plant population density (ca. 5.1 and 2.8 for 6 and 12 pl m-2, respectively), biomass partitioning to the ear was reduced (ca. 0.44 and 0.33 for 6 and 12 pl m-2, respectively). For all treatments, however, dominant plants exhibited a greater biomass partitioning to the ear (ca. 0.41) than the dominated individuals (ca. 0.36). Consequently, the former were the individuals with the highest ear growth rate (ca. 1.9 and 1.4 g per ear per day for the dominant and dominated plant, respectively) and KNP (ca. 623 and 490 kernels per plant for the dominant and dominated plant, respectively) of the stand. We identified three traits on DK765 related to the low tolerance to high-density stress of this genotype: (i) a higher plant-to-plant variability (CV ca. 26 and 19%, for DK765 and DK752, respectively), (ii) a lower biomass partitioning to the ear around silking (ca. 0.26 and 0.39 for DK765 and DK752, respectively), and (iii) a higher response rate of KNP to ear growth rate around silking (ca. 370-738 and 360-414 kernels per g, for DK765 and DK752 respectively). Hence, as stand density was increased, KNP of DK765 was sharply reduced, especially in the dominated individuals of the stand.