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The Impact of Late Planting on U.S. Average Corn Yield

A perennial question in the corn market is how much does late planting hurt yield. This is just the flip-side of the question of how much does early planting help yield. Based on recent weekly Crop Progress reports from the USDA, the 2020 U.S. corn crop is on track to be planted at an average pace.  Figure 1 shows that 67 percent of corn acreage in 18 major producing states was planted as of May 11, 2020 (week #19), one percentage point higher that the 5-year average for this week.  By comparison, only 30 percent of the crop in 2019 was planted as of this date due to exceptionally wet conditions (farmdoc daily, April 24, 2019May 1, 2019May 9, 2019May 23, 2019).  The extreme lateness of planting the 2019 corn crop represents a valuable data point to help estimate the impact of late planting on corn yields.  The purpose of this article is estimate the impact of late planting on the U.S. average corn yield over 1980-2019 using three different approaches and compare the estimates for consistency.  We also discuss implications for projecting the U.S. average corn yield in 2020.

Analysis

The starting point for the analysis is defining the beginning date for a significant late planting penalty for corn yields.  There is not complete agreement on the optimum planting window for maximizing corn yields or the date when late planting begins to impose a substantial yield penalty.  Both the optimum window and cutoff date for a significant late planting penalty also varies by geographic location.  For market analysis purposes, however, it is useful to identify one date for the end of the optimum window that can be applied to the entire Corn Belt.  Acreage planted after that date would be considered to be planted late and yield potential would be expected to be reduced as the percentage of the acreage planted late increases.

In order to set the cutoff date for late corn planting in our previous work on the topic (e.g., farmdoc dailyMay 20, 2015April 24, 2019), we reviewed information generated from agronomic research relating planting date to corn yields at the farm-level.  For example, field trial data provided by Professor Emerson Nafziger indicates that yield loss in Illinois is minimized (optimal planting window) by planting in mid- to late-April.  The yield penalties become increasingly large as planting is delayed after mid-May.  Results from corn planting date research for different years and different locations throughout the Corn Belt vary (e.g., Schafer, 2011; Abendroth et al. 2017; Long et al. 2017), but the reported pattern of yield response to planting date is generally comparable to those presented by Nafziger.

Based on the agronomic field trial results, we have previously defined the beginning date for substantial late planting penalties on corn yield in the U.S. to be May 30th from 1980 through 1985 and May 20th from 1986 onwards.  The change in cutoff dates in the mid-1980s reflects recommendations for earlier planting that appeared around that time.  We continue to opt for these cut-off dates in the present analysis. Figure 2 shows the percentage of corn planted late in the U.S. based on these definitions over 1980 through 2019.  On average, late planting was 17.7 percent, with the bulk of the observations between about 5 and 25 percent.  The extraordinarily high level of late planting in 2019 is obvious.  At 50 percent, this was the highest level of late planting over the 40-year sample period.  There were only two other years (1993 and 1995) when late planting exceeded 40 percent. Finally, there is no evidence of a trend up or down over time in the late planting percentage, which suggests that producer behavior in aggregate with respect to late corn planting has been quite stable.

The next step of the analysis is to estimate the impact of late planting on the U.S. average corn yield.  The first method we use is to directly estimate the relationship between the trend deviation for U.S. corn yield and U.S. corn acreage planted late over 1980 through 2019.  The trend deviation is computed based on a linear trend for U.S. average corn yields over this period.  Figure 3 shows that, as expected, there is an overall negative relationship between late planting and corn yield deviations from trend.  Specifically, for a 10 percent increase in late planting the U.S. average corn yield decreases by 2 bushels per acre.  Note that we assume a linear relationship in Figure 3, whereas we assumed a non-linear quadratic relationship previously (farmdoc dailyMay 1, 2019). We changed here to a linear relationship based on the 2019 observation, which was well above a fitted quadratic line but close to the fitted linear line.  It is also interesting to consider the implication of the intercept estimate of the regression model.  It implies that when late planting is zero the increase in corn yield above trend is 3.5 bushels.  This is the maximum benefit of early planting on the U.S. average yield of corn according to this regression model. In comparison, the maximum loss in yield from high levels of late planting can be much larger.  For example, the model predicts that the level of late planting in 2019—50 percent—leads to a 6.3 bushel decline below trend for the U.S. average corn yield.

It is important to emphasize that the explanatory power of the regression model in Figure 3 is quite low, as the R2 is only 3.9 percent.  Because of this low explanatory power, the regression model in Figure 3 should be treated with a good deal of caution.  This does not mean that late planting should be ignored when projecting corn yield, but rather, other factors, in particular summer weather, are typically more important in explaining deviations from trend yield (e.g., Nielsen, 2015).  Two years provide good examples.  Late planting was well above average in 2009 but the corn yield was a record at the time due to a cool, wet summer.  Conversely, late planting in 2012 was at the low end of the sample range but corn yield was extremely low relative to trend due to the severe drought that summer.

Since a number of factors influence the magnitude of the U.S. average corn yield in any given year, particularly summer weather conditions, it is necessary to estimate the impact of all relevant factors in order to quantify the impact of late planting.  In technical terms, this means that the regression model in Figure 3 may suffer from “omitted variable bias.”  We address this problem by estimating a crop weather regression model that relates the U.S. average corn yield to trend, the percentage of the crop planted late, and an array of weather variables.  In brief, based on observations from 1980 through 2019, we specified a crop weather model of the U.S. average corn yield with a linear trend, late planting as shown in Figure 2, quadratic functions of preseason (September-March), April, June, July, and August precipitation, and linear functions of April, May, June, July, and August temperatures as explanatory variables.  The weather variables are acreage weighted-averages for the Corn Belt. The model has a high explanatory power, with an R2 of 98.2 percent.  The coefficient estimates indicate that the U.S. average corn yield is decreased by 2.2 bushels per acre for each 10 percent of the crop that is planted late.  It is interesting to observe how close the late planting coefficient estimated for the crop weather model is to estimate from the simple bivariate model presented in Figure 3.  For all practical purposes, they are nearly the same at about -0.2.

Our third and final method of estimating late planting impacts takes advantage of the variation in late planting across Corn Belt states during 2019.  The idea is that the variation in late planting and yields across states in 2019 is large enough that it can be used to estimate late planting impacts.  It is important that the states included in the analysis are large producing states so the resulting estimate is representative of late planting impacts nationally.  With that as background, Figure 4 shows the deviation from corn trend yield in 2019 for 10 major Corn Belt states versus the deviation from average for late planting in each state.  The trend yield for each state is estimated via a linear regression over 1980-2019.  The deviation from average late planting over 1980-2019 is used instead of the level of late planting because the average level of late planting differs across states. Note also that state level late planting variables are used in this analysis not the national level variable used in the previous two methods.

Figure 4 shows that despite the small number of cross-sectional observations, the resulting regression model has a surprisingly high R2 of 35 percent.  The estimated coefficient on the late planting variable is -0.1707, which implies that a 10 percent increase in late planting decreases the state average corn yields by 1.7 bushels per acre.  This is quite close to the estimates for the U.S. average corn yield generated by the first two methods.

In sum, despite the differences in the three methods and data, the estimates of the impact of late planting on the U.S. average corn yield are quite similar, ranging between 1.7 to 2.2 bushels per acre for a 10 percent increase in late planting.  A median estimate is therefore about 2 bushels per acre for a 10 percent increase in late planting.  In terms of practical application, it is probably most straightforward to apply this estimate using the deviation from trend for yield and deviation from the average level of late planting.  For example, assume a corn trend yield of 177 bushels per acre for the U.S. in 2020.  Next, assume that the trend yield of 177 bushels incorporates the average level of late planting during the 1980-2019 sample period of 17.7 percent.  Then, the trend yield can be adjusted upwards or downwards depending on the deviation of 2020 late planting from average.  If late planting is 27.7 percent, or 10 percent above average, then trend yield should be reduced 2 bushels to 175 bushels per acre.  Likewise, if late planting is 7.7 percent, or 10 percent below average, then trend yield should be increased 2 bushels to 179 bushels per acre.

Implications

The impact of late planting on projections of the U.S. average corn yield is always an important issue at this time of year.  In this article, we estimate the impact of late planting on the U.S. average corn yield over 1980 through 2019 using three different approaches and compare the estimates for consistency.  The three methods are: i) a bivariate model of U.S. corn trend yield deviations and the level of late planting, ii) a crop weather regression model that relates the U.S. average corn yield to trend, the percentage of the crop planted late, and an array of weather variables, and iii) a cross-sectional model of 2019 state corn yield trend deviations and deviations from average late planting.  Despite the differences in the three methods and data, the estimates of the impact of late planting on the U.S. average corn yield are quite similar, ranging between 1.7 to 2.2 bushels per acre for a 10 percent increase in late planting.  A median estimate is therefore about 2 bushels per acre for a 10 percent increase in late planting.  At the present time, it appears that U.S. corn acreage planted late (after May 20th) will be average to below average.  This could boost projections of the 2020 U.S. average corn yield by as much as 1 to 2 bushels per acre.  Of course, the main show—summer weather—for determining corn yields is still on the horizon.

References

Abendroth, L.J., K.P. Woli, A.J.W. Myers, and R.W. Elmore. “Yield-Based Corn Planting Date Recommendation Windows for Iowa.” Crop, Forage, and Turf Grass Management. 3(2017). doi:10.2134/cftm2017.02.0015

Hubbs, T. and S. Irwin. “The Implications of Late Planting for the 2019/20 Corn Balance Sheet.” farmdoc daily (9):95, Department of Agricultural and Consumer Economics, University of Illinois at Urbana-Champaign, May 23, 2019.

Irwin, S., D. Good, and J. Newton. “Early Planting and 2015 Corn Yield Prospects: How Much of an Increase?” farmdoc daily (5):93, Department of Agricultural and Consumer Economics, University of Illinois at Urbana-Champaign, May 20, 2015.

Irwin, S. and T. Hubbs. “Late Planting and Projections of 2019 U.S. Corn and Soybean Acreage.” farmdoc daily (9):85, Department of Agricultural and Consumer Economics, University of Illinois at Urbana-Champaign, May 9, 2019.

Irwin, S. and T. Hubbs. “Late Planting and Projections of the 2019 U.S. Corn Yield.” farmdoc daily (9):79, Department of Agricultural and Consumer Economics, University of Illinois at Urbana-Champaign, May 1, 2019.

Irwin, S. and T. Hubbs. “Prospects for Timely Planting of the 2019 Corn Crop.” farmdoc daily (9):74, Department of Agricultural and Consumer Economics, University of Illinois at Urbana-Champaign, April 24, 2019.

Long, N.V., Y. Assefa, R. Schwalbert and I.A. Ciampitti. “Maize Yield and Planting Date Relationship: A Synthesis-Analysis for US High-Yielding Contest-Winner and Field Research Data.” Frontiers in Plant Science. 8(2017). https://doi.org/10.3389/fpls.2017.02106

Nielsen, R.L. “The Planting Date Conundrum for Corn.” Corny News Network Articles, Department of Agronomy, Purdue University, May 5, 2015. http://www.agry.purdue.edu/ext/corn/news/timeless/PltDateCornYld.html

Schafer, S. “Late Planting Dates Can Whittle Down Corn Yields.” AgWeb, May 8, 2011. https://www.agweb.com/article/late_planting_dates_can_whittle_down_corn_yields/

Source: Todd Hubbs and Scott Irwin, Farmdocdaily

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