Issue 3, 2023

Fate and recovery of nitrogen applied as slow release brown coal-urea in field microcosms: 15N tracer study

Abstract

The over-use of synthetic nitrogen (N) fertilisers for crop production can cause environmental pollution through leaching and gaseous losses, resulting in low N use efficiency (NUE). Previous work has shown that brown coal (BC) combined with urea can slow down the fertiliser-N release to better synchronise soil N supply with crop N demand. The study aimed to evaluate the impact of granulated BC-urea (BCU) applied to sweet corn on NUE, fate and recovery of fertiliser-N using an 15N tracer technique. In this in-field microcosm study, 10 atom percent enriched 15N-labelled urea (46% N) and BCU (20% N) were applied as N fertilisers at rates of 90 or 180 kg N ha−1. On average, BCU fertiliser reduced the urea-derived 15N losses as nitrous oxide (N2O) by 64%, ammonia (NH3) by 73% and downward movement of total N by 59% compared to urea. Reduced losses of applied BCU fertiliser-15N were associated with significantly increased microbial immobilisation, soil retention and availability of fertiliser-15N to plants for longer periods of time, compared with urea. As a result, BCU enhanced cob yield by an average of 23%, 15N uptake by 21% and fertiliser NUE by 21% over urea. The plant recovery of fertiliser-15N was significantly higher from BCU (59%) than the recovery from urea (38%). Moreover, mining of native soil-N was lower when the N-fertiliser source was BCU cf. urea, suggesting that BCU could be used as a more N-efficient alternative to urea in cropping systems.

Graphical abstract: Fate and recovery of nitrogen applied as slow release brown coal-urea in field microcosms: 15N tracer study

  • This article is part of the themed collection: Geochemistry

Supplementary files

Article information

Article type
Paper
Submitted
24 Pun 2022
Accepted
08 Kol 2023
First published
08 Kol 2023

Environ. Sci.: Processes Impacts, 2023,25, 648-658

Fate and recovery of nitrogen applied as slow release brown coal-urea in field microcosms: 15N tracer study

B. K. Saha, M. T. Rose, L. Van Zwieten, V. N. L. Wong, T. J. Rose and A. F. Patti, Environ. Sci.: Processes Impacts, 2023, 25, 648 DOI: 10.1039/D2EM00482H

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