Fj. Villalobos et al., PLANTING DENSITY EFFECTS ON DRY-MATTER PARTITIONING AND PRODUCTIVITY OF SUNFLOWER HYBRIDS, Field crops research, 36(1), 1994, pp. 1-11
Dry matter partitioning and yield formation are key points for success
ful simulation of seed yield. The response of dry matter partitioning
and yield of sunflower (Helianthus annuus L.) to plant population was
studied in field experiments performed at Cordoba, Spain in 1990 and 1
991. Four hybrids (SW-101, Arbung E353, Sungro 385 and S530) were grow
n under irrigation at plant populations ranging from 0.5 to 10 plants
m-2. The hybrids differed in the durations of the emergence-floral ini
tiation (FI) and FI-anthesis periods but not in the duration of seed f
illing. The responses of biomass, seed number and yield to planting de
nsity were dependent on the hybrid. The leaf partitioning coefficient
decreased and the head partitioning coefficient increased with increas
ing plant population, suggesting that the head has a priority for dry
matter partitioning. The number of seeds per head changed with plant p
opulation through changes in the number of flowers and in the fertilit
y ratio of the central part of the capitulum. Single-seed mass decreas
ed with increasing planting density while the amount of oil per seed w
as little affected, showing the dependence of oil accumulation on fact
ors other than carbohydrate supply. Seed yield response to planting de
nsity followed a saturation-type curve with the plateau around 4.5 t h
a-1, indicating that potential yields under irrigation can be achieved
by using short-cycle cultivars if plant population is high enough. In
creasing potential yield of the sunflower should focus on the improvem
ent of the harvest index of the long-cycle hybrids.