Trends in the yield response to nitrogen of winter wheat in Oklahoma

Estimated linear response stochastic plateau functions for winter wheat yield in Experiment 502 at Lahoma, OK. Winter wheat yield plateaued at 52 kg N ha−1 in 1971 and 61 kg N ha−1 in 2023. Increase in yield is due to increased genetic potential leading to improved nitrogen use efficiency.

Abstract

This study seeks to explain how the response of winter wheat (Triticum aestivum L.) to nitrogen at Lahoma, OK, has changed over time. This objective was motivated by the need for accurate estimation of optimal nitrogen recommendations and to understand why optimal nitrogen rates have changed over time. Yields increased over time, except at the 0 and 22 kg N ha−1 rates of applied nitrogen. Bayesian methods were used to estimate linear plateau models where each parameter has its own time trend. Results show no trend in intercept, an increase of 1.3% per year in the slope coefficient, a 1.9% per year increase in the difference between the plateau and intercept, and a 33% increase in the optimal nitrogen rates from 1971 to 2023. These trends suggest the need to update nitrogen recommendations and help explain why the yield goal approach became imprecise over time due to changing yield potential.

Core Ideas

The yield of winter wheat went up over time with nitrogen rates of 45 kg N ha−1 or higher.
The yield on check plots with no nitrogen did not change.
The slope and plateau of the linear plateau model of wheat yield response went up over 1% per year.
Optimal nitrogen went up over 33% over time based on the estimated linear response stochastic plateau model.

Agricultural &Environmental Letters, Volume 9, Issue 2, December 2024. Read More