When to reseed canola (June 2017)

Please note: This content may be out of date and is currently under review.

If you have bare paddocks or patches, you may be considering reseeding your canola. In open pollinated crops that have less than 10-15 plants/m2, but otherwise a high potential yield, tickling in extra seed may be worthwhile. Weed control may be compromised below 20 plants/m2, particularly for OP TT crops. Reseeding paddocks sown to hybrid canola is unlikely to be a profitable option.

Some growers have had low canola crop emergence, mainly due to the low rainfall at seeding. Canola growers thinking about whether to reseed a crop that has established poorly should carefully consider whether it is worth the cost. It is best to start with an assessment of the paddock/patch density. The decision to reseed will depend on assessing the likely yield of the current crop, the cost of reseeding (including damage to existing plants) and the yield penalty (due to delayed seeding) of the resown crop, balanced with concerns about adequate weed control.

Likely yield from low density crops

Department of Agriculture and Food, Western Australia Research Officers Mark Seymour, Bob French and Raj Malik have conducted 24 canola plant density trials in recent years, funded by Grains Research and Development Corporation.

They have shown that the number of plants per square metre was critical to making a decision about an investment in reseeding and that hybrid varieties were less affected by low densities than open pollinated varieties (Figure 1).

Low plant density reduces yields of open pollinated canola more than hybrid canola
Figure 1  Low plant density reduces yields of open pollinated canola more than hybrid canola

Hybrid crops with only seven plants/m2 achieved 80% of their optimum density yield, while crops with 15 plants/m2 had yields of 90%.

The yield recovery was slightly lower for poorly emerged open pollinated crops. 80% of potential yield was achieved at 15 plants/m2 crops and 70% at 10 plants/m2.

Canola can yield well at low densities because it can develop more branches, given the right conditions. In a separate 2015 precision seeding trial at Binnu, Research Officer Martin Harries showed plants at low density had very different structure, with many more branches, than high density crop plants (Figure 2). In this trial, the plants at high density (35 plants/m2) had around 100 pods per plant for a yield of 2.4t/ha, while at low density (5 plants/m2) there were 1300 pods per plant, for a slightly lower yield of 2.2t/ha (see Canola precision placement of seed 2015 trial report for further information). Low density crops develop a thick stem so growers will need to consider harvesting issues.

More branching and podding on low density canola plant, compared with high density plant.
Figure 2 Different structure of canola plants grown at low density (left) and high density (right) at Binnu in 2015 (Image courtesy of: Martin Harries, DAFWA)

Cost of reseeding

The cost of reseeding includes the fuel/machinery maintenance/labour, the cost of seed and the risk of damaging the existing plants (with the best yield potential).

Growers will have individual cost structures but the seeding operation may cost around $40/ha. There is a high cost of hybrid seed, over $35/kg for some varieties, while farmer retained open pollinated seed may only cost $2/kg.

Yield penalty of later reseeded crop

There is also likely to be a yield penalty for the reseeded plants, due to later sowing. Modelling work has shown yield penalty range of 18-60% from sowing on 9 June, compared with 10 May. Lowest yield penalties were at Kojonup and Gibson and highest penalties at Mullewa and Mingenew (See Canola yield penalty with delayed sowing for more information).

This was also demonstrated in a DAFWA reseeding trial at Ogilvie in 2014, where April sown plots out-yielded plots sown in May and April plots that had only 5-10 plants/m2 produced equal or higher yields than later sown plots at higher densities (see Is it worth re-seeding canola? 2014 trial report for more information).

Weed control

While low plant density may not have a large effect on yield, it is likely to compromise weed control. Low plant densities put more pressure on weed control systems. In the DAFWA plant density trial at Katanning, we observed more ryegrass heads in TT canola when the crop density was below 20 plants/m2, while in the RR hybrid plots we found much less effect of plant density on ryegrass numbers (Figure 3). However, this was largely due to the greater effectiveness of Roundup against ryegrass, compared to triazines. After the crop six leaf stage, RR cultivars and TT hybrids would be expected to have a similar competitiveness against germinating ryegrass.

Growers who have sown Roundup Ready® hybrids into paddocks with low weed competition would be likely to achieve a more positive response than growers who have sown varieties with a less effective herbicide system.

Highest ryegrass seed set with low density open pollinated TT variety and lowest with RR hybrid.
Figure 3 Low density crops can make weed control difficult, especially in TT systems

Weighing up the decision

Reseeding hybrid crops is unlikely to be a profitable option in June 2017, since hybrids can yield well under low densities, reseeding with hybrid seed will be relatively expensive and the later sown canola will have lower yield potential.

With open pollinated crops, it may be a likely proposition to tickle in some extra OP seed, where the crop density is less that 10-15 plants/m2, but otherwise a high yield potential. Particularly due to the lower cost of farmer retained seed and the more vulnerable weed control system.

Assessing density in the paddock

At a crop density of 15 plants/m2, there will be an average of 3.5 plants/m of row at nine inch spacing and 4.5 plants/m of row at 12 inch spacing.

Crop density (plants/m2) = (average number of plants per 1m row x 100) / row spacing (cm)

To assess your paddock, take a 1m length and count the plants in the row. Do this at random over the paddock/patch, to get an accurate average of plants/m row. Use the formula above or Table 1 below, to assess the plant/density.

Table 1 Use the average plants/m row, to identify crop density, for each row width
Row spacing Average plants/m
23cm (9") 1.2 2.3 3.5 4.6
25cm (10") 1.3 2.5 3.8 5.0
30cm (12") 1.5 3.0 4.5 6.0
Plant density 5 plants/m2 10 plants/m2 15 plants/m2 20 plants/m2

Contact information

Mark Seymour
+61 (0)8 9083 1143
+61 (0)8 9081 3126
Page last updated: Tuesday, 13 June 2017 - 1:14pm