Modeling the water balance for aerobic rice: A system dynamics approach

MODSIM05 - International Congress on Modelling and Simulation: Advances and Applications for Management and Decision Making, Proceedings

Volumn , Issue , 2005, Pages 1860-1866

  Luo, Y F ^a   Khan, S ^b   Cui, Y L ^a   Feng, Y H ^c   Li, Y L ^a  

^a WUHAN UNIVERSITY   (China)

^b CHARLES STURT UNIVERSITY   (Australia)

^c Huibei Irrigation Experiment Station   (China)

Author keywords

Aerobic rice; Soil water balance; System dynamics

Indexed keywords

ACCURATE ESTIMATION; ACTUAL EVAPOTRANSPIRATION; AEROBIC RICE; CAPILLARY RISE; CONCEPTUAL MODEL; CONFIDENCE LEVELS; FIELD DATA; FIELD SOIL; FLOODED RICE; HYDRAULIC DYNAMICS; HYDRAULIC PROCESS; INHERENT FLEXIBILITY; IRRIGATED AGRICULTURE; IRRIGATED RICE; IRRIGATION WATERS; LIMITED IRRIGATIONS; MATHEMATICAL EQUATIONS; MODEL DEVELOPMENT; MODEL PARAMETERS; NORTH CHINA PLAIN; RECYCLING SYSTEMS; ROOT MEAN SQUARE ERRORS; SIMULATION TOOL; SOIL WATER BALANCE; SOIL WATER BALANCE MODEL; SURFACE RUNOFFS; SYSTEM DYNAMICS; SYSTEM DYNAMICS APPROACH; SYSTEM DYNAMICS TECHNIQUE; WATER BALANCE; WATER BALANCE COMPONENTS; WATER HARVESTING; WATER PRODUCTIVITY; WATER RESOURCE SYSTEMS; WATER SCARCITY; WATER USE;

CLIMATE MODELS; COMPUTER SIMULATION; DECISION MAKING; GEOLOGIC MODELS; HYDRAULICS; IRRIGATION; MEAN SQUARE ERROR; PLANTS (BOTANY); RUNOFF; SOIL MOISTURE; SOLVENTS; STATISTICAL TESTS; SYSTEM THEORY; WASTEWATER RECLAMATION; WATER CONSERVATION; WATER MANAGEMENT; WATER SUPPLY; AGRICULTURAL ROBOTS; FLOODS;

WATER RECYCLING;

EID: 80053097793     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: None     Document Type: Conference Paper

References (17)

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