Parameter optimization for predicting soil water movement under crop residue cover

Transactions of the ASABE

Volumn 54, Issue 6, 2011, Pages 2029-2035

  Singh, P N ^a   Mitchell, J P ^a   Wallender, W W ^a  

^a UNIVERSITY OF CALIFORNIA   (United States)

Author keywords

Crop residue; Evaporation; Modeling; Optimization; Soil water content

Indexed keywords

CALIFORNIA; CLIMATIC CONDITIONS; COMPLEX INTERACTION; CROP EVAPOTRANSPIRATION; CROP RESIDUE; GROWTH PERIOD; HYDRUS-1D; IRRIGATION MANAGEMENT; LIQUID PHASE; NUMERICAL MODELS; PARAMETER OPTIMIZATION; PHYSICALLY BASED; PHYSICALLY BASED MODELS; PLANT RESIDUES; PRODUCTION SYSTEM; SOIL LAYER; SOIL PROFILES; SOIL SURFACES; SOIL WATER CONTENT; SOIL WATER MOVEMENT; UNIVERSITY OF CALIFORNIA; UNSATURATED HYDRAULICS; UPWARD MOVEMENT; VAPOR PHASE; WATER MOVEMENTS;

AGRICULTURAL WASTES; CROPS; EVAPORATION; EVAPOTRANSPIRATION; LIQUIDS; MODELS; NUMERICAL METHODS; OPTIMIZATION; PHASE TRANSITIONS; SOIL MOISTURE; WATER SUPPLY; WATER VAPOR;

GEOLOGIC MODELS;

CALIBRATION; CLIMATE CONDITIONS; CROP PRODUCTION; CROP RESIDUE; EVAPORATION; IRRIGATION SYSTEM; MODEL VALIDATION; NUMERICAL MODEL; OPTIMIZATION; PARAMETERIZATION; PREDICTION; SOFTWARE; SOIL MOISTURE; SOIL PROFILE; SOIL SURFACE; SOIL WATER; WATER CONTENT; WATER FLOW;

CALIFORNIA; UNITED STATES;

EID: 84855612206     PISSN: 21510032     EISSN: None     Source Type: Journal    
DOI: None     Document Type: Article

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