Under development
HYDRUS Examples from the Advances in Agronomy manuscript
- Project Group: Advances in Agronomy
- Description: HYDRUS Examples from the Advances in Agronomy manuscript, Lazarovitch et al. (2023).
- Availability:
- Note: Some of these projects were created with earlier versions of Hydrus, and users using higher Hydrus versions need to convert them to their particular version.
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Section
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Name
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Dimension
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Description
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Version
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3
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Sprinkler
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2D
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Sprinkler irrigation on a center pivot
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h3d3
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3
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Bubbler
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2D
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Bubbler irrigation on a center pivot
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h3d3
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4
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Furrow
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3D
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Pseudo-3D furrow irrigation for three different soil surface management scenarios
(1: no surface treatment, 2: reduced surface layer conductivity, 3: impermeable surface)
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hyd5
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5
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Drip
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2D-radial
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Surface drip irrigation with dynamic surface wetting (1: loam, 2: sandy loam)
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h3d3
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5
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DripPlant
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2D-radial
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Surface drip irrigation with compensated root water uptake and two rooting depths
(1: rooting depth is 20 cm, 2: rooting depth is 30 cm)
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h3d3
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5
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Drip3D
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3D, 2D-radial
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Subsurface drip irrigation (1: axisymmetrical domain, 2: 3D domain)
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h3d3
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6
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NLeach
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2D
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Nitrogen leaching in sandy loam for surface drip irrigation
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h3d2
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6
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NUptake
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1D
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Active and passive crop nitrogen uptake for sprinkler irrigation with different irrigation depths, different durations of fertilizer application, different N-fertilizer application levels, and three different soil textures
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h1d
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7
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Salinity
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1D
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Salinity simulations with HYDRUS and UNSATCHEM for two irrigation regimes
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h1d
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8
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HP1
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1D
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Modeling of the the root zone's total carbon and nitrogen cycle for different irrigation regimes using HP1
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h1d
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9
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Drip3D2L
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2D-radial
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The same as the Drip3D example above, but with two soil layers
(1: a sandy loam layer in a loam domain, 2: a loam layer in a sandy loam domain)
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h3d2
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10
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Pitcher
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2D-radial
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Pitcher irrigation
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hyd5
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h1d – HYDRUS-1D, version 4.x
h3d3 – HYDRUS (2D/3D), version 3.x
hyd5 – HYDRUS, version 5.x
References:
Lazarovitch, N., I. Kisekka, T. E. Oker, G. Brunetti, T. Wöhling, X. Li, Y. Li, T. H. Skaggs, A. Furman, S. Sasidharan, I. Raij-Hoffman, and J. Šimůnek, Modeling of irrigation and related processes with HYDRUS, Advances in Agronomy, (in review).