Abstract

AbstractSoil amendments with high carbon (C) content can be effective in semi‐arid regions where soils are characterized by low C. A field study was conducted in 2016–2018 to evaluate the effect of char on soil chemical properties and irrigated maize (Zea mays L.) yields in sandy loam fertilized with urea or composted manure. Carbon‐rich char used was a product of coal combustion residue from a local factory in western Nebraska. The experiment was arranged in a split‐plot randomized complete block design in four replications with char (0, 6.7, 13.4, 20.1, and 26.8 Mg C ha−1) as main and N treatment (0, 90, 180, and 270 kg urea‐N ha−1 and 33.6 and 67.2 Mg ha−1 of composted manure) as subplot factors. A handheld spectral sensor was used to determine normalized difference red edge (NDRE) at growth stages (V6, V8, V10, and R1) in 2017 and 2018. After 2 yr, char increased Fe, reduced pH at lower rates, and increased K and Mg at higher rates in top 20 cm soil but did not affect crop yields. Char applied at ≥13.4 Mg C ha−1 increased soil organic C by ≥8% and composted manure increased soil P and K compared to the control. There was a strong correlation of NDRE with N rates and grain yields at V8 and V10. This study found no adverse effect of char on soil properties. However, more site‐specific research is needed before char can be used as a regular soil amendment in semi‐arid regions.

Highlights

  • Agricultural landscapes in semi-arid regions are characterized by low soil organic carbon (SOC) and precipitation that is low and has high spatial and temporal variability (Janmohammadi et al, 2018; Mikha et al, 2013)

  • The objective of this study was to evaluate the effects of char application with and without urea or composted manure on crop yields and changes in soil properties such as pH, SOC, N, P, K, Ca, Mg, S, Fe, and Zn and in sandy loam soil in semi-arid western NE

  • Similar results were observed in the incubation study that reported reduction in soil pH with the char applied at 13.4 Mg C ha−1 in ureafertilized sandy loam compared with no char treatments (Panday et al, 2020b)

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Summary

Introduction

Agricultural landscapes in semi-arid regions are characterized by low soil organic carbon (SOC) and precipitation that is low and has high spatial and temporal variability (Janmohammadi et al, 2018; Mikha et al, 2013). Have lost 30–50% of the original C level due to disruption of soil aggregates and rapid C decomposition from increasing drought, erosion, high pH, and intensive tillage (He et al, 2018; Mikha et al, 2013). High C products such as biochar can be cost-prohibitive for their use in agriculture (Houben et al, 2013). When Crich products are locally available and for a minimal cost, they could be considered for potential use as an amendment

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