Tracking Soil Nitrogen – Does Corn Have Enough N?
Rainfall in April and May has been about average through most of Illinois, at least until the downpours the last days of May. This has allowed timely planting and a good start to the crop in most
Much of the rainfall has come with low or moderate intensity; there have been few multiple-inch downpours leading to standing water and fears of crop damage and of loss of nitrogen, though rain on May 30 has been heavy in places. But reapplying N late or using higher rates due to expectations of N loss happen every year, and while that might be less common this year, it remains a consideration.
To find out if more N is justified, we initiated a new study this year, funded by NREC, to “track” N applied at different times and forms to see how much N remains in the soil and available to the crop through the vegetative growth period. At four research center sites in central and northern Illinois, we applied 200 lb of N in four different ways: 1) as NH3 applied in November 2014; 2) as 100 lb NH3 last fall + 50 lb UAN at planting + 50 lb UAN as V5-V6
Figure 1 shows how much soil N (nitrate plus ammonium) we’ve found at the Urbana site in samples taken so far. Sampling like this always finds a fair amount of variability – we don’t know exactly where the N ended up in the soil, and soil probes don’t always get a representative sample. But we did find more N in plots where we had applied N, and we are able to see changes in soil N as the soils have warmed up and mineralization has kicked in. About as much fall-applied NH3 remains available as spring-applied NH3; both show at least 250 lb of available N in the top two feet on May 22. We think this confirms that N losses have been small since last fall.
One surprise at this site has been the relatively large amount of N found in the soil where no fertilizer N was applied. In soils with a good amount of organic matter we never expect to find zero N, but we would not have expected to find the 130 to 180 lb of N that we found in the last three (May) samples. Still, getting yields of 125 to 150 bushels per acre in corn following soybean without N fertilizer is not unusual, and so finding this amount of N may not be abnormal.
The findings at DeKalb and Monmouth are similar to those at Urbana, though the soil N levels are a little lower at the other sites, in part because they were last sampled a little earlier than at Urbana. Soil N without N fertilizer has yet reached only about 100 lb per acre at those two sites. At the Perry site, with soils lower in organic matter, levels of soil N we have been finding are considerably less than at the other three sites; at the May 22 sampling at Perry, we found only about 150 lb of soil N in both the fall- and spring-applied NH3.
The majority of the soil N is now in the nitrate form, regardless of what form was applied (Figure 2.) This is more or less as we expected for fall-applied NH3 and for spring-applied UAN, but by about six weeks after early spring NH3 application (done on April 6) we might have expected a little more of the N to still be in the ammonium form. As expected, most of the N found in plots without N fertilizer was in the nitrate form regardless of when sampling was done. Mineralization releases ammonium, but under the soil temperatures that increase mineralization rates, the ammonium converts to nitrate quickly.
The takeaway message from what we’ve found so far in this project is that we see no reason to adjust upward the total amount of N applied due to concerns about N loss. The fertilizer N that was applied is mostly present as plant uptakes
As part of this project we are also working with Dan Schaefer (IFCA) to sample several on-farm sites with similar treatments, and we’re sampling following spring N applications at two southern Illinois sites. We’ll keep you posted on what we find in the coming weeks.
Source: University of Illinois Extension