Abstract
AbstractThe winter fallow period common in annual cropping systems leaves soils vulnerable to erosion and nutrient loss, especially to nitrogen (N) leaching. This vulnerability can be mitigated with perennial crops that have living roots in the ground year‐round. The mechanisms, magnitude, and consistency with which perennial crops retain N are not clear. We used an experiment to test whether a perennial crop, miscanthus (Miscanthus × giganteus Greef et Deu.), would leach less N than continuous maize (Zea mays L.) and how soil net N mineralization (Nmin) may explain observed leaching under varied environment and management conditions. The experiment included three crossed factors: (1) cropping system (maize, juvenile miscanthus = 1–2 years old, mature miscanthus = 3–4 years old); (2) N fertilization (0 and 224 kg N ha−1); and (3) environment (four site‐years at two locations in Iowa, USA, that differed in climate and soil fertility). We measured N cycling dynamics, including: inorganic soil N (ammonium + nitrate), in situ Nmin, N leaching, crop N uptake, and calculated system N use efficiency. There were many complex interactions among factors. On average, cumulative Nmin under juvenile miscanthus was 111% greater than maize, but as miscanthus matured, there was no difference in Nmin between the perennial crop and maize. There was no difference in N leaching between juvenile miscanthus and maize, but mature miscanthus decreased N leaching by 42% and 88% compared to maize (with and without N fertilization, respectively). Across all treatments, there was no relationship between Nmin and N leaching, suggesting other mechanisms are regulating N leaching. Overall, mature miscanthus shows promise as a tool to reduce N losses in areas dominated by annual row‐crops.
Highlights
Temperate agroecosystems with annual crops are susceptible to nutrient loss during winter fallow periods that leave fields bare
Cumulative N mineralization (Nmin) under juvenile miscanthus was 111% greater than maize, but as miscanthus matured, there was no difference in Nmin between the perennial crop and maize
There was no difference in N leaching between juvenile miscanthus and maize, but mature miscanthus decreased N leaching by 42% and 88% compared to maize
Summary
Temperate agroecosystems with annual crops are susceptible to nutrient loss during winter fallow periods that leave fields bare. The lack of plant nitrogen (N) uptake during fallow periods combined with N mineralization during warm and wet periods in spring and fall can lead to large seasonal nitrate fluxes to surface and ground water (Dinnes et al, 2002). This N loss causes local and downstream eutrophication in agricultural regions across the globe, especially in watersheds dominated by annual crop production like the US Corn Belt (David et al, 2010; Rabalais et al, 2002). The crop is used for animal bedding, erosion control devices, bioenergy, and bioproducts, and grower interest in miscanthus has outpaced knowledge of its fertility requirements
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