The thermal regime of the inflorescence has been shown to affect grain-fill
ing dynamics and grain weight in several crop species, but temperature resp
onse functions for sunflower grain have not, as yet, been developed. We exp
lored the effects of daily mean temperatures in the 12-40 degreesC range du
ring the embryo growth phase on embryo growth characteristics in cv. HA89 b
y growing plants in temperature-controlled glasshouse modules between the s
tart of linear embryo growth and physiological maturity. Grain was harveste
d at regular intervals during the growth period and rates and durations of
embryo growth derived from bi-phasic linear regression models fitted to the
resulting embryo weight dynamics data. Embryo filling duration showed a cu
rvilinear response to temperature with a minimum close to 34 degreesC. In c
ontrast, the curvilinear response of rate of embryo filling peaked at 25 de
greesC. The opposing effects of these two responses produced a continuously
decreasing embryo size with temperature (P < 0.0001) (average decrease 1.2
% per <degrees>C) over much of the temperature range explored. A plot of th
e inverse of embryo growth duration against temperature served to estimate
base and optimum temperatures of -1 and 34 degreesC, respectively. The resp
onse functions and cardinal temperatures defined in this experiment are exp
ected to improve the capacity of current crop simulation models to describe
grain-filling in sunflower. (C) 2001 Elsevier Science B.V. All rights rese
rved.