Understanding soil water effects on nitrogen release from controlled‐release fertilizers

K. Verburg; K.L. Bristow; G.D. McLachlan; T.H. Muster; J.M. Poole; J.I. Mardel; Z. Zhao; K. Wittwer‐Schmid; M.T.F. Wong

doi:10.1002/saj2.20141

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Understanding soil water effects on nitrogen release from controlled‐release fertilizers

Journal article

Peer reviewed

Understanding soil water effects on nitrogen release from controlled‐release fertilizers

K. Verburg, K.L. Bristow, G.D. McLachlan, T.H. Muster, J.M. Poole, J.I. Mardel, Z. Zhao, K. Wittwer‐Schmid and M.T.F. Wong

Soil Science Society of America Journal, Vol.85(1), pp.59-72

2021

DOI: https://doi.org/10.1002/saj2.20141

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Abstract

Controlled‐release fertilizers (CRFs) have the potential to deliver crop production and environmental benefits through better control of applied nitrogen (N) in cropping systems. Whereas N release from CRFs can be impacted by several factors, there has been a widely held view that soil water has little effect on N release from polymer‐coated CRFs. Past research has often studied the soil water effect as a function of soil water content. This limits the transferability of results. In this study we measured N release from a polymer‐coated urea (PCU) and a polymer‐sulfur–coated urea (PSCU) using undisturbed soil cores at set matric potentials. Soil matric potential had a significant effect on N release from PCU. Release at −1,000 kPa was delayed by up to 30 d compared with −10 kPa. Optical stereo microscopy clarified that this was linked to differences in the rate of water absorption. Theoretical considerations demonstrate that these relatively large differences could not be explained by the effect of soil matric potential on vapor flow. It is possible that soil matric potential interacted with the properties of the coating to change its permeability or the involvement of liquid flow. The effect of soil water on N release from PSCU was less clear. The magnitude of the soil water effect is, therefore, product‐specific and dependent on coating properties. The soil matric potential provided a consistent description of release patterns between soils with contrasting soil water retention characteristics. Soil water effects should hence be studied as a function of soil matric potential.

Details

Title: Understanding soil water effects on nitrogen release from controlled‐release fertilizers
Authors/Creators: K. Verburg (Author/Creator) - Commonwealth Scientific and Industrial Research Organisation
K.L. Bristow (Author/Creator) - Commonwealth Scientific and Industrial Research Organisation
G.D. McLachlan (Author/Creator) - Commonwealth Scientific and Industrial Research Organisation
T.H. Muster (Author/Creator) - CSIRO Land and Water
J.M. Poole (Author/Creator) - CSIRO Manufacturing
J.I. Mardel (Author/Creator) - CSIRO Manufacturing
Z. Zhao (Author/Creator) - Commonwealth Scientific and Industrial Research Organisation
K. Wittwer‐Schmid (Author/Creator)
M.T.F. Wong (Author/Creator)
Publication Details: Soil Science Society of America Journal, Vol.85(1), pp.59-72
Publisher: Soil Science Society of America
Identifiers: 991005546001807891
Copyright: © 2020 The Authors.
Murdoch Affiliation: College of Science, Health, Engineering and Education
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration
Citation topics: 3 Agriculture, Environment & Ecology; 3.45 Soil Science; 3.45.397 Nitrogen Management
Web Of Science research areas: Soil Science
ESI research areas: Agricultural Sciences