The middle to end of September is a good time to establish cover crops by broadcasting seeds into corn or soybean before harvest. Broadcast interseeding before harvest allows cover crops to capture more sunshine, growing degree days and rainfall than drilling after harvest.
Previous studies have shown that cover crops in eastern Nebraska usually have greater productivity when they are established before harvest than drill-planted after harvest. Cover crops with more biomass will better reduce erosion and run-off. High amounts of cover crop biomass mean more organic matter is returned to the soil.
When it comes to selecting a seeding rate for broadcasting cover crops, there is little research-based information. Broadcast seeds do not have good seed-soil contact which reduces the seeds’ ability to take up water necessary for germination. Thus, stand counts of broadcast cover crops are often lower than those of drilled cover crops. Could increasing the seeding rate overcome low stand counts and improve cover crop productivity?
We tried to answer this question by carrying out field experiments at the Eastern Nebraska Research and Extension Center near Mead and the South-Central Agricultural Laboratory near Clay Center in 2016/2017 and 2017/2018 in corn and soybean fields under no-till management. Our cover crops were cereal rye, variety Elbon, and hairy vetch, variety not stated. The research plots measured 20 by 30 feet, so we broadcast by hand instead of using equipment.
Table 1 contains cover crop management and sampling dates. For rye, seeding rates (pure live seed) were 60 lb/ac, 90 lb/ac, and 120 lb/ac. Hairy vetch seeding rates were 40 lb/ac, 60 lb/ac, and 80 lb/ac. In the fall, we determined cover crop stand counts by counting the number of plants in two 5×1 ft frames in each plot. In the spring, we measured productivity by clipping biomass in two 5×1 ft squares per plot, drying and then weighing biomass (see table 1). We used analysis of variance to find statistically significant differences (α = 0.05).
|Clay Center (south-central site)||Mead (eastern site)|
|Plant main crop||12 May, 2016||13 May, 2016||3 June, 2016||9 June, 2016|
|Plant cover crop||20 Sep.||23 Sep.||21 Sep.||21 Sep.|
|Harvest main crop||18 Oct.||19 Sep.||1 Nov.||7 Nov.|
|Count cover crop||1 Dec.||1 Dec.||na†||na|
|Biomass cover crop||4 May, 2017||4 May, 2017||8 May, 2017||8 May, 2017|
|Plant main crop||8 May, 2017||12 May, 2017||12 May, 2017||31 May, 2017|
|Plant cover crop||22 Sep.||14 - 19 Sep.||19 Sep.||21 Sep.|
|Harvest main crop||late Oct.||mid-Oct.||late Oct.||6 Nov.|
|Count cover crop||20 Nov.||20 Nov.||30 Nov.||30 Nov.|
|Biomass cover crop||4 May, 2018||8 May, 2018||9 May, 2018||8 May, 2018|
On average, in rye plots, 13% of broadcast seed emerged, with stand counts of 6 plants/sq ft. In vetch plots, 30% of seed emerged, and there were about 5 plants/sq ft. Rainfall within a week after broadcasting is critical for good establishment and was greater at the eastern site than at the south-central site. As a result, more seeds emerged at the eastern site. Stand counts increased with increasing seeding rates.
Figure 1 shows cover crop biomass production where broadcast interseeded into corn. Rye produced more biomass than vetch, on average 1,500 lb/ac. Rye biomass increased with the greater seeding rates, but the difference between the medium and high seeding rate was not significant. For vetch, increasing the seeding rate did not improve biomass production which was 400 lb/ac. Vetch should be planted earlier for better productivity. Figure 2 shows biomass production of the cover crops broadcast interseeded into soybean. Rye was more productive than vetch (2,100 lb/ac and 500 lb/ac) but increasing the seeding rates did not change biomass production of either rye or vetch.
With increasing seeding rates, seed costs of course increase. Table 2 shows the cost of seeding each cover crop at the three rates – while rye is one of the most inexpensive cover crops, hairy vetch is much more expensive. Considering the cost, it is important to give it optimum conditions for success, such as planting it early and inoculating the seed.
|Cereal rye seed cost ($0.21/lb)||Hairy vetch seed cost ($2.00/lb)|
|Seeding rate||60 lb/ac||90 lb/ac||120 lb/ac||40 lb/ac||60 lb/ac||80 lb/ac|
|Seed cost in $/ac||12.6 $/ac||18.9 $/ac||25.2 $/ac||80 $/ac||120 $/ac||160 $/ac|
Cover crops tended to produce more biomass when established in soybean than in corn, but this was not statistically tested. Rye in corn stubble showed signs of not receiving enough light, as it was lighter in color, had longer stems, and fewer tillers than rye in soybean stubble (see figure 3). Fall tillering is associated with greater spring biomass and may be the reason why cover crops planted into soybean were more productive than those planted into corn. Rye can also compensate for low stand counts by tillering, which explains the lack of response to increased seeding rates. On the other hand, the greater amount of residue and taller stalk remaining in corn fields may preserve more soil moisture and may protect from wind, thus benefitting cover crops in dry and cold sites (figure 4).
Figure 4. Hairy vetch (left) and cereal rye on May 4, 2017 at the south-central site. Cover crops were broadcast interseeded into no-till corn Sept. 20, 2016.
Despite low emergence, cereal rye was a productive cover crop when established by late-season broadcast interseeding. When broadcast interseeding cereal rye into corn, we found that a seeding rate of 90 lb/ac produced the most biomass in the spring. When broadcast interseeding into soybean, a seeding rate of 60 lb/ac produced the same amount of biomass as higher seeding rates. Vetch biomass production was low and was the same at the seeding rate of 40 lb/ac than at the higher seeding rates. Vetch needs to be established earlier than the mid-to late September seeding dates in our study.
This research has been funded by the Nebraska Corn Board and the Nebraska Soybean Board. We want to thank George Biliarski, Mike Schlick and Tom Galusha for technical help with this study.