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A dynamical system approach to soil salinity and sodicity
Yair Mau
*
, Amilcare Porporato
*
Corresponding author for this work
Research output
:
Contribution to journal
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Article
›
peer-review
37
Scopus citations
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Keyphrases
Agriculture
33%
Analytical Model
33%
Cation Exchange
33%
Detailed Model
33%
Dynamical Systems Approach
100%
Eigenvalues
33%
Fasting Time
33%
Good Quality
33%
Irrigation
33%
Irrigation Water Quality
33%
Numerical Analysis
33%
Numerical Integration
33%
Phase Space
33%
Phase Space Dynamics
33%
Remediation Strategies
33%
Root Zone
33%
Salinization
33%
Semi-arid Region
33%
Slow Time
33%
Sodicity
100%
Sodification
33%
Sodium
33%
Soil Salinity
100%
Soil Sodicity
100%
Stable Node
33%
Stationary Solution
33%
Steady State
33%
System of Equations
33%
Two-dimensional Systems
33%
Water Quality
33%
Engineering
Analytical Model
50%
Constrains
50%
Detailed Model
50%
Dimensional System
50%
Dynamical System Approach
100%
Eigenvalue
50%
Fast Time Scale
50%
Nodes
50%
Numerical Integration
50%
Phase Space
100%
Root Zone
50%
Slow Time Scale
50%
Two Dimensional
50%
Mathematics
Constrains
50%
Dimensional System
50%
Dynamical System
100%
Eigenvalue
50%
Equation System
50%
Fast Time Scale
50%
Numerical Integration
50%
Phase Space
100%
Stable Node
50%
Stationary Solution
50%
Timescale
100%
Earth and Planetary Sciences
Dynamical System
100%
Eigenvalue
20%
Ion Exchange
20%
Rhizosphere
20%
Salinity
60%
Salinization
20%
Semiarid Region
20%
Sodicity
100%
Soil Salinity
100%
Timescale
60%