Abstract
AbstractSpatial variation and temporal trajectory of crop nitrogen use efficiency (NUE) have important implications for nitrogen management and environmental conservation. Previous studies have examined cross‐nation divergences in crop NUE but often overlooked its spatial heterogeneity and cross‐crop differences at subnational scales. We examined the relationship between state‐level NUE and nitrogen fertilizer use for two major fertilizer‐consuming crops, corn and winter wheat, which account for over half of national N fertilizer use in the United States. Since 1970, as N fertilizer use rates have changed, the responses of crop yield and NUE have exhibited large temporal and spatial variations. It is evident that NUE of corn begins to decline when N fertilizer application rate exceeds ~150 kg N ha−1 yr−1, and that yield response of winter wheat slows down with annual N fertilizer input above ~50 kg N ha−1 yr−1. State‐level NUE in both crops has risen in recent decades, which could potentially reduce N loss from agricultural production. Across the United States, some major corn‐producing states demonstrate a shift from an increasing trend of NUE during the period 1970 to 1999 to a decreasing trend after 2000, whereas winter wheat‐producing states present an opposite pattern. Furthermore, this study indicates that annual dynamics of N surplus in corn is closely tied with grain yields, while that in winter wheat significantly correlates with N fertilizer input. A larger proportion of N loss would be anticipated if no further increase in corn yield was obtained or fertilizer use kept rising in winter wheat.
Highlights
Global use of synthetic nitrogen (N) fertilizer has increased ninefold since the 1960s (Lu & Tian, 2017) and is closely associated with increased agricultural food production worldwide (Cassman, 1999; Hirel et al, 2007)
There are large variations in winter wheat nitrogen use efficiency (NUE) across the entire spectrum of N fertilizer input rates, especially when N fertilizer rates ranged from 30 to 60 kg N ha−1 yr−1. If we excluded those states with low fertilizer input (i.e., 0 to 30 kg N ha−1 yr−1), our analysis indicates that winter wheat NUE generally reached the peak with N fertilizer rate at ~50 kg N ha−1 yr−1 in the 2000s and the 2010s
The state‐level analysis indicated that corn yield plateaued and its NUE decreased at N fertilizer use rate above 150 kg N ha−1yr−1, albeit with large spatial variations
Summary
Global use of synthetic nitrogen (N) fertilizer has increased ninefold since the 1960s (Lu & Tian, 2017) and is closely associated with increased agricultural food production worldwide (Cassman, 1999; Hirel et al, 2007). An increasing amount of N fertilizer that is not utilized by crops is lost to the environment via nitrification, denitrification, volatilization, and leaching (Cassman et al, 2002; Tilman et al, 2002). Given the increasing N loss, improving crop nitrogen use efficiency (NUE)—the crop production harvested per unit N input—is one of the most effective means for increasing crop productivity and, alleviating environmental degradation (Davidson & Kanter, 2014; Giller et al, 2004; Howarth et al, 2002).
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