Shallot Planting Density Trial

Shallots may be grown as an overwinter or spring-planted crop in the Willamette Valley. Major cultural problems in this crop include weed and disease control, effect of planting dates on yield, maturity, and degree of bolting, and the effects of size of, planting stock and planting density on yield and bulb size at harvest. This study was designed to investigate the effects of three planting densities and two bulb sizes on the total yield and mean bulb weight at harvest and on the number of bulbs produced per bulb planted.

Methods

Bulbs of two sizes (small, mean weight of 12.2g; large, mean weight of 27.7g) were planted at three densities (low, 15 cm x 61 cm; medium, 15 cm x 30 cm; high, 15 cm x 15 cm) on September 16, 1981 in a factorial experiment with six treatment combinations. Plots were arranged in randomized complete block design with three replications. Individual plots consisted of four 3-meter rows. Records were taken from the two middle rows of each plot.

The fertilizer program included 1,120 kg/ha of 10-20-10 broadcast and incorporated before planting, and 56 kg/ha of N as ammonium nitrate applied on January 20, March 11, and April 14, 1982, for a total N application of 280 kg/ha. DCPA herbicide at 10 kg/ha was applied immediately after planting. Propachlor at 4.5 kg/ha was applied on January 20 and March 19, 1982, following cultivation. Plots were harvested on July 29, 1982.

Results

Total yield on an area basis was significantly affected by both bulb size at planting (P<0.05) and by spacing or density (P<0.01). Planting larger bulbs produced about a 12% yield increase when compared with smaller planting stock (Table 1). A fourfold increase in planting density produced a doubling of yield. Yield per unit area did not increase proportionally to the increase in planting density since both bulb weight and the number of bulbs produced/bulb planted decreased at higher densities.

Planting large bulbs increased the number of bulbs produced per unit area since the number of bulbs produced/bulb planted was greater with the larger planting stock. However, mean bulb weight tended to decrease slightly (difference not significant at 5% level) with the larger planting stock.

For production of planting stock, high planting densities would be preferable to achieve maximum yields. For markets that require large bulb size, low planting density and small planting stock size should favor production of large bulbs, but with greatly reduced total yield.

Table 33. Yield of Overwintered Shallots in Response to Bulb Size and Planting Density  Treatment      Total bulb    Mean bulb   # bulbs produced   # bulbs produced                yield (kg/m2)   wt. (g)    per square meter   per bulb planter            low density,    small bulbs    3.33          18.5            199	           16.6   low density,   large bulbs     3.82	       17.3            222	           20.6   medium density    small bulbs    4.21          14.2            295	           13.7   medium density,   large bulbs     5.44	       13.2	       407	           18.9   high density,   small bulbs     6.91          13.5            510                 11.9   high density,   large bulbs     7.25	       11.4	       636	           14.8      LSD (0.05)   1.17	        2.9             82	            3.5    Mean, small   bulbs           4.80	       15.4            328                 14.1   Mean, large   bulbs           5.49	       14.0            422                 18.1      LSD (0.05)   0.67	        NSZ             47                  2.0    Mean, low  density          3.58          17.9            200	           18.6   Mean, medium  density          4.85          13.8            351	           16.3   Mean, high   density         7.11          12.5            574                 13.3      LSD (0.05)   0.82           2.1             58                  2.5                 ZNS: no significant difference at 5% level. Difference significant at 10% level.  

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