Shorter Crop Cycle Did Not Lead to Below-Average Yields

September 5, 2018

This article summarizes the simulated crop stages and yield forecasts performed on August 22 for 41 locations across the US Corn Belt; the data can be viewed here. Details on the underpinning methodology to simulate phenology and forecast end-of-season yields, as well as on interpretation and uses of yield forecasts, are described in a previous article.

View all graphics here.

During the last three weeks, air temperature and solar radiation were similar to the historical average. Rainfall records were also near-normal values, except for some locations in Iowa, Illinois, Indiana, Kansas, and Ohio where rainfall was well-above normal. A summary of weather conditions during the last three weeks is shown in Figure 1.

Simulated Corn Stage Across 41 Locations

Corn has reached kernel dent stage at most locations, except for a few locations in the eastern, northern, and western fringes of the region (Figure 2). Corn reached physiological maturity (black layer stage) at almost all sites in Missouri, Kansas, and southern Illinois.

As reported in a previous article based on forecasts performed on July 11, high temperatures at the beginning of the season accelerated corn development across the entire region. However, temperature since the July 11 forecast (which includes silking and early grain-filling stages) remained near normal. Still, most sites are expected to reach black layer (if not already) one to three weeks earlier than the historical average (Figure 3). This pattern is less evident in the western fringe of the region where some sites will likely reach maturity near the long-term date.

Irrigated Corn: High Probability of Near-Average Yields

The range of forecasted irrigated corn yield potential for each location, as well as the probabilities for yields above, near, or below average, are shown in Figures 4 and 5. Almost half of the irrigated sites exhibit a high probability (>75%, that is, three out of four chances) of near-average yield potential, and only two sites exhibited a high probability of above-average yields.

Rainfed Corn: Yield Potential Is Highly Variable Across Rainfed Sites

We can already tell whether end-of-season yield potential will be below, near, or above the long-term average for all rainfed sites (Figures 4 and 5). However, forecasted yield potential is highly variable across rainfed sites. In general, yield potential is above average in Nebraska, Illinois, Ohio, Michigan, southern Minnesota, and a few sites in Indiana, Missouri, and Kansas. In contrast, there is a high probability of below-average yield at five sites located along a transect that includes portions of northeastern Kansas (Manhattan and Silverlake), northern Missouri (St. Joseph and Brunswick), and southwestern Iowa (Crawfordsville). Yield is also forecasted to be below average at the northern sites in North Dakota (Dazey) and Minnesota (Eldred). Near-average yields are likely at most sites in Iowa and two sites in Indiana (Butlerville and West Lafayette).

State and Regional Forecasted Corn Yields

Our yield forecasts were upscaled to state level using the spatial framework of the Global Yield Gap Atlas (www.yieldgap.org), which is based on agro-climatic zones and distribution of corn harvested area. Forecasted yield potential for 2018 for each state and water regime, as well as for the entire region, are shown below. Forecasted 2018 yield potential falls:

  • well above average (20% or more) for rainfed corn in Ohio, Illinois, Minnesota, and Nebraska.
  • near average (plus or minus 10%) for rainfed corn in Illinois, Iowa and irrigated corn in Nebraska and Kansas.
  • below average (more than 15% below average) for rainfed corn in Missouri and Kansas.

Conclusions

Corn in most of the region has already reached the dent stage and in the southern region, it’s reached physiological maturity. High temperatures early in the season increased the rate of corn development, causing corn to reach black layer one to three weeks earlier than normal across most locations. Interestingly, simulations suggest that the shorter crop cycle did not lead to below-average yield potential (except for the two sites in North Dakota and northern Minnesota). This may be attributable to the occurrence of high temperatures especially during vegetative stages (see July 11 forecast, Figure 1), but not during the silking and grain filling stages (see Figure 1 and August 1 forecast, Figure 1). In other words, the duration of the critical phases for yield determination (silking and grain filling) was not substantially different from a normal year—they just occurred earlier as a consequence of the shorter period of vegetative growth.

For irrigated corn, there is a high probability of near-average yields for most sites. For rainfed corn, most sites in the region are expected to yield above or near the long-term average, except for some sites in Kansas, Iowa, and Missouri, and the two northern locations in North Dakota and Minnesota that have a high probability of below-average yields. Overall, we forecasted regional corn yield potential to be above (+11%) the historical average, with rainfed yields well above average (>20%) in Ohio, Illinois, Minnesota, and Nebraska.

These forecasts do not take into consideration problems with stand emergence, hail/flooding damage, replanting situations, disease, or nitrate leaching. In fields negatively affected by these constraints, actual yields will be lower than estimates provided here. It is important to keep in mind that yield forecasts are not field-specific and, instead, represent an estimate of average on-farm yield for a given location and surrounding area in absence of the yield-reducing factors mentioned here. Likewise, crop stages and forecasted yields will deviate from those reported here in fields with planting dates or hybrid maturities that differ markedly from those used as the basis for these forecasts. We will follow up with the final forecasted yield and analysis of the 2018 crop season on Sept 7.

Source: University of Nebraska CropWatch

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