Consumptive Use: Cal-SIMETAW (California Simulation of Evapotranspiration of Applied Water)
General Description | Estimates daily soil-water balance to determine potential crop ET and applied water ET for 132 individual crops, 20 crop categories, and four non-crop land-use categories by DAU/county for use in California Water Plan. |
Model website at: https://water.ca.gov/Programs/Water-Use-And-Efficiency/Land-And-Water-Use/Agricultural-Water-Use-Models | |
Model Domain | Water use by crops in California |
Developer | California Department of Water Resources |
Hardware computing requirements |
N/A. Computer power is dependent on area of analysis. | |
Code language | C# |
and Oracle Spatial Database |
| |
Original application | Developed from SIMETAW, |
for California for 20 crops, 4 non-crop land |
use classes and historical data. Designed to estimate daily soil-water balance to determine crop evapotranspiration, (ETc |
) and |
evapotranspiration of applied water ( ETAW) for California Water Plan updates. | |
Public/proprietary and cost | Public by request through DWR |
Physically or empirically based | Empirical |
Mathematical methods used |
|
|
|
|
|
|
| |
Input data requirements |
|
Outputs | Format: Oracle database files. Various temporal scales (daily, monthly, yearly).
|
Pre-processing and post-processing tools |
N/A | |
Representation of uncertainty | Model verification vs. CIMIS (R = 0.98), no measure of error and several major assumptions required to run the data. No correction for runoff |
on the sites. Assumption that rainfall cannot |
exceed soil water depletion. Uncertain results for longer timescales (currently run on a daily scale). | |
Prevalence | Primarily used for California Water Plan updates every 5 years. ETAW and AW data is also used as inputs for irrigated agriculture models (e.g. SWAP, DAP). |
Ease of use for public entities | Requires access to additional data sources (land cover) which can add additional costs to running the model. |
models | |
Ease of obtaining information and availability of technical support | Direct contacts for developers available through DWR, technical manuals and model schematics not available online. No help desk or active working group advertised. |
Source code availability | Not immediately downloadable, but accessible through program in C# |
| |
Status of model development | Completed and used for Water Updates every 5 years (DWR). No announcements on new directions/upgrades. |
Challenges for integration | Requires some detailed information of irrigation for crop types. Constrained number of crop |
groups. Output can only be generated for DAUs and county level, not spatially explicit. |
References:
Medellín-Azuara, J., & Howitt, R. E. (2013). Comparing Consumptive Agricultural Water Use in the Sacramento - San Joaquin Delta. Davis, CA.
Orang, M. N., Snyder, R. L., Hart, Q., Sarreshteh, S., & Eching, S. (2018). A Comparative Study for Estimating Crop Evapotranspiration in the Sacramento-San Joaquin Delta - Appendix C. CalSIMETAW (California Simulation of Evapotranspiration of Applied Water). Davis, CA.
Orang, M. N., Snyder, R. L., Shu, G., Hart, Q. J., Sarreshteh, S., Falk, M., … Eching, S. (2013). California Simulation of Evapotranspiration of Applied Water and Agricultural Energy Use in California. Journal of Integrative Agriculture, 12(8), 1371–1388. https://doi.org/10.1016/S2095-3119(13)60742-X
Rayej, M., Snyder, R. L., Orang, M. N., Geng, S., & Sarreshteh, S. (2011). CalSIMETAW and WEAP Models for Water Demand Planning. ICID 21st International Congress on Irrigation and Drainag ICID Transactions No.30-A, 111–128.