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Crude glycerol, a biodiesel byproduct, used as a soil amendment to temporarily immobilise and then release nitrogen

Mriganka De, John E. Sawyer, Marshall D. McDaniel

2022European Journal of Soil Science14 citationsDOIOpen Access PDF

Abstract

Abstract Loss of nitrate‐nitrogen (NO 3 − –N) from Midwestern U.S. agricultural fields can impair water quality and be an economic loss to farmers. Winter cover crops have shown promise as a remedy, but low adoption illustrates the need for alternatives. Here, we tested whether adding a carbon (C)‐rich soil amendment (i.e., crude glycerol, a biodiesel byproduct) can increase soil microbial biomass (MB) and promote N immobilisation under various conditions and then determined whether and when immobilised N would be released. We conducted a laboratory incubation with a full factorial combination of four glycerol rates (0, +117, +468 and +1872 mg C kg −1 soil), three supplemental NO 3 − –N rates (0, +10 and +40 mg N kg −1 ) and two soils (Clarion clay loam and Sparta loamy sand). Soil inorganic N (NH 4 + –N and NO 3 − –N) and MB were measured at seven and three time points, respectively, across the 98 days incubation period. Across all treatments, glycerol increased MBN in both short term (7 days; 4%–1137% compared to no glycerol addition) and long term (98 days; 10%–169%) and decreased NO 3 − –N with increasing rate of glycerol. Adding glycerol caused net N immobilisation of 21%–61% (+117 mg C kg −1 addition) and ~100% (+468 and +1872 mg C kg −1 addition) compared to the control. Some of that immobilised inorganic N was likely released through MB turnover, but timing and rate of release depended on the soil and added N rate. Adding 40 mg N kg −1 with no glycerol showed nearly twice the net N mineralisation rate than with the low or no applied N – providing evidence for soil N priming. Overall, glycerol has the potential for use as a soil amendment to increase MB and temporarily immobilise NO 3 − –N and then make some of that N crop available through MB turnover. Highlights Crude glycerol, a biodiesel by‐product, was evaluated as a soil amendment to reduce soil nitrate. Glycerol strongly increased soil microbial biomass and decreased nitrate under all conditions. N immobilisation was temporary, and N was mineralised at a lower glycerol rate. Glycerol rates, N rates and soil type affected N immobilisation‐mineralisation dynamics.

Topics & Concepts

AmendmentGlycerolLoamChemistryAnimal scienceIncubationBiodieselSoil waterNitrateNitrogenFertilizerAgronomyEnvironmental chemistryBiochemistryOrganic chemistryBiologyEcologyCatalysisPolitical scienceLawSoil Carbon and Nitrogen DynamicsPlant nutrient uptake and metabolismSoil and Water Nutrient Dynamics
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