Water Supply (Sep 2021)

HYDRUS-2D simulations of nitrate nitrogen and potassium transport characteristics under fertilizer solution infiltration of furrow irrigation

  • Wei-Bo Nie,
  • Kun-Kun Nie,
  • Yi-Bo Li,
  • Xiao-Yi Ma

DOI
https://doi.org/10.2166/ws.2020.266
Journal volume & issue
Vol. 21, no. 6
pp. 2665 – 2680

Abstract

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Understanding the characteristics of soil solute transport is fundamental to the design and management of furrow irrigation systems. This study determined the soil hydraulic and solute transport parameters by inverse solution with HYDRUS-2D and then verified them. The experimental data were obtained from the infiltration of clay loam and sandy loam of different potassium nitrate (KNO3) concentrations under furrow irrigation. Then, the initial soil water content (θ0), KNO3 concentration, and water depth (h0) affecting the transport characteristics of nitrate nitrogen (NO3−-N) and potassium (K+) were analyzed. The results indicated that the soil hydraulic and solute transport parameters determined from the inversion solution with HYDRUS-2D were reliable. The soil saturated water content, saturated hydraulic conductivity, and empirical parameter n in the van Genuchten–Mualem model increase with the increase of KNO3 concentrations, whereas the empirical parameter a shows a decreasing tendency. The distribution range of NO3−-N increased with the increases of θ0 and the KNO3 concentration, which had barely any effect on the range of K+ distribution. The horizontal distribution range of NO3−-N and K+ increased with the increase of h0, but it had no obvious influence on the vertical range. HIGHLIGHTS Soil hydraulic and solute transport parameters were determined by inverse solution with HYDRUS-2D, and then the reliability was verified.; θn, n and Ks (VG-M model) increased with increasing KNO3 concentration, while a exhibited a decreasing trend; The initial soil water content, KNO3 concentration and water depth have an obvious effect on the distribution of NO3−-N.; K+ was mainly distributed within 10 cm of the furrow bottom.;

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