Agrosystems, Geosciences & Environment (Sep 2024)

The response of a sorghum sudangrass cover crop to residual nitrogen and its relationship with spectral sensors

  • Julia Barra Netto‐Ferreira,
  • Diego Arruda Huggins deSá Leitão,
  • Winniefred Griffin,
  • Lakesh K. Sharma,
  • Gabriel Maltais‐Landry

DOI
https://doi.org/10.1002/agg2.20557
Journal volume & issue
Vol. 7, no. 3
pp. n/a – n/a

Abstract

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Abstract A sorghum sudangrass (SSG) cover crop grown after a cash crop could take up residual nitrogen (N) before it is lost. As in‐field monitoring of SSG properties is laborious, predicting biomass and N concentrations with spectral sensors could be useful. At two sites in Live Oak, Florida, we evaluated the response of SSG to residual N from previous N fertilization and the performance of handheld and satellite sensors in estimating SSG properties. We quantified aboveground biomass, plant N, leaf greenness (NDVI), net potential N mineralization (PNM), and soil permanganate oxidizable carbon (POXC). Residual N did not affect SSG properties, PNM was highest at the highest N input rate in one site, and soil POXC was correlated with SSG properties (biomass and plant N). NDVI measured from a handheld sensor better predicted SSG properties than satellite imagery in these small plots, suggesting a greater potential to be a useful management tool.