Abstract:
Optimum plant spacing and number of seedlings per hill are important agronomic
practices for the productivity of rice. Hence, field experiment was carried out to assess the
effect of plant spacing and number of seedlings per hill on yield components and yield of
transplanted rice under irrigation at Werer, Middle Awash. Factorial combinations of 2
inter-row spacing (20 cm and 30 cm), 3 intra-row spacing (10 cm, 15 cm and 20 cm) and
3 seedlings (2, 3 and 4) per hill were laid out in randomized complete block design with
three replications. Among the main effect of number of seedling per hill, 3 seedlings per
hill gave significantly (P<0.01) highest straw yield (7169 kg ha-1) whereas the highest
number of effective tillers per hill (14.49) was recorded from 2 seedlings per hill.
Similarly, the main effects of inter-row and intra-row spacing were highly significant
(P<0.01) on all recorded parameters except days to physiological maturity and harvest
index. The highest number of effective tillers per hill (14.26 and 16.07), straw yield (6517
kg ha-1 and 7009 kg ha-1) and 1000 kernels weight (22.69 g and 22.84 g) were produced
when the crop was transplanted at 30 cm inter-row and 20 cm intra-row spacing
respectively. From the interaction of number of seedlings and intra-row spacing,
significantly (P<0.01) highest panicle length (22.36 cm), number of total tillers per hill
(18.95), number of grains per panicle (131.6), aboveground dry biomass yield (13634 kg
ha-1) and grain yield (5079 kg ha-1) were obtained from the combination of 3 seedlings per
hill and 20 cm intra-row spacing. Similarly, the combination of 20 cm × 20 cm inter and
intra-row spacing gave significantly highest number of grains per panicle (131.4),
aboveground dry biomass yield (11584 kg ha-1), grain yield (4288 kg ha-1) and straw yield
(7296 kg ha-1). Grain yield was significantly (P < 0.05) affected by the interaction of
number of seedling per hill and inter-row spacing where highest grains yield (4314 kg ha-
1) was recorded with the interaction of 3 seedlings per hill and 30 cm inter-row spacing.
Therefore, it can be concluded that transplanting of 3 seedlings per hill with 30 cm interrow
spacing, and with 20 cm intra-row spacing can be tentatively recommended to obtain
maximum grain yield of transplanted rice under irrigation