Subsurface drainage and subirrigation for increased corn production in riverbottom soils

Kaur, Harpreet; Nelson, Kelly A.; Singh, Gurbir

doi:10.1002/agj2.20887

Cited by 5 publications

(2 citation statements)

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“…In temperate humid regions, subsurface drainage (SD) is the most prevalent and necessary soil water management practice for managing excess soil water in poorly drained landscapes (Reinhart et al., 2019). Several midwestern states have benefitted from artificial drainage practices with increased corn and soybean yields (Kaur et al., 2021; Mourtzinis et al., 2021; G. Singh & Nelson, 2021). Crop growth and development are negatively affected in poorly drained claypan soils as O 2 availability is reduced which results in the stunting of root growth and accelerated root senescence (Ebrahimi‐Mollabashi et al., 2019).…”

Section: Introductionmentioning

confidence: 99%

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Subsurface drainage and nitrogen management affects corn and soybean yield in claypan soils in upstate Missouri

Kaur,

Nelson,

Singh

et al. 2023

Agronomy Journal

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Nitrogen (N) and subsurface drainage water management are crucial and challenging components of sustainable crop production on poorly drained claypan soils. During extreme precipitation events, N fertilizer management is difficult in a corn (Zea mays L.)–soybean (Glycine max L.) rotation that balances productivity and environmental quality. This 4‐year (2018–2021) experiment was conducted on a poorly drained soil to examine the interactive effects of drainage (subsurface tile drainage [SD] and no drainage [ND]) and corn N fertilizer treatments (non‐treated control [NTC], fall‐applied anhydrous ammonia [AA] at 190 kg N ha−1 with nitrapyrin [fall AA + NI], pre‐plant AA [spring AA] at 190 kg N ha−1, and top‐dressed urea [TD urea] as 42 kg N ha−1 SuperU and 126 kg N ha−1 ESN as a 25:75% granular blend) on yield and nutrient uptake. Corn grain yield was 1.22–1.53 Mg ha−1 greater with fertilizer treatments in SD compared to ND. Drought conditions in 2018 lowered corn grain yield compared to 2020. Average over 2 years, corn yield in SD soils was ranked as spring AA > fall AA + NI > TD urea > NTC. While soybean yield following corn was 13% greater in the NTC compared to TD urea. The SD treatment increased soybean yield by 0.6–2 Mg ha−1 compared to ND. This study results showed that fall AA + NI produced corn yields similar to spring AA in SD and ND soils in temperate humid climatic conditions.

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Section: Introductionmentioning

confidence: 99%

“…efitted from artificial drainage practices with increased corn and soybean yields (Kaur et al, 2021;Mourtzinis et al, 2021;. Crop growth and development are negatively affected in poorly drained claypan soils as O 2 availability is reduced which results in the stunting of root growth and accelerated root senescence (Ebrahimi-Mollabashi et al, 2019).…”

mentioning

confidence: 99%