L. Echarte et al., Response of maize kernel number to plant density in Argentinean hybrids released between 1965 and 1993, FIELD CR RE, 68(1), 2000, pp. 1-8
We investigated the response of maize kernel number to plant density in fou
r hybrids released in Argentina between 1965 and 1993. Assuming kernel numb
er is the main yield component, and using as a framework the relationship b
etween kernel number per plant (KNP) and plant growth rate bracketing silki
ng (PGR(s)), we tested the alternative hypotheses that modern hybrids produ
ce more kernels because they have (a) greater PGR(s) or (b) more kernels pe
r unit PGR(s) than their older counterparts. Three experiments were carried
out including a range of plant densities from 3-5 to 15-18 plants m(-2). P
GR(s) was calculated from shoot dry matter measured 10 days before and 20 d
ays after silking. Shoot dry matter, grain yield and its components were me
asured at physiological maturity. Grain yield of the oldest hybrid averaged
7.7 t ha(-1), and increased with year of release at a rate of 173 kg ha(-1
) per year. The response of grain yield to plant density was curvilinear. K
ernel number per square meter accounted for most of the variation in yield
with both year of release and plant density. For both sources of variation,
there was a trade-off between kernel number and mass. Both PGR(s) and KNP
decreased with increasing plant density in all four hybrids. Whereas variat
ion in PGR(s) among hybrids was small, the oldest hybrid set 93 (low densit
y) and 113 (high density) kernels per unit PGR(s) in comparison to the newe
st that set 167 and 193. We conclude that more kernels per unit PGR(s), rat
her than greater PGR(s), accounted fur the genetic improvement of yield pot
ential in the hybrids investigated. (C) 2000 Elsevier Science B.V. All righ
ts reserved.