Model:WOFOST: Difference between revisions
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| | |ModelDomain=Terrestrial | ||
|Spatial dimensions=1D | |Spatial dimensions=1D | ||
|Spatialscale=Watershed-Scale | |Spatialscale=Point-Based, Watershed-Scale | ||
|One-line model description=WOFOST (WOrld FOod STudies) is a simulation model for the quantitative analysis of the growth and production of annual field crops. | |One-line model description=WOFOST (WOrld FOod STudies) is a simulation model for the quantitative analysis of the growth and production of annual field crops. | ||
|Extended model description=It is a mechanistic model that explains crop growth on the basis of the underlying processes, such as photosynthesis, respiration and how these processes are influenced by environmental conditions. | |Extended model description=It is a mechanistic model that explains crop growth on the basis of the underlying processes, such as photosynthesis, respiration and how these processes are influenced by environmental conditions. | ||
With WOFOST, you can calculate attainable crop production, biomass, water use, etc. for a location given knowledge about soil type, crop type, weather data and crop management factors (e.g. sowing date). WOFOST has been used by many researchers over the World and has been applied for many crops over a large range of climatic and management conditions. | With WOFOST, you can calculate attainable crop production, biomass, water use, etc. for a location given knowledge about soil type, crop type, weather data and crop management factors (e.g. sowing date). WOFOST has been used by many researchers over the World and has been applied for many crops over a large range of climatic and management conditions. WOFOST is one of the key components of the European MARS crop yield forecasting system. In the Global Yield Gap Atlas (GYGA) WOFOST is used to estimate the untapped crop production potential on existing farmland based on current climate and available soil and water resources. | ||
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{{Model keywords | {{Model keywords | ||
|Model keywords= | |Model keywords=phenology | ||
}} | |||
{{Model keywords | |||
|Model keywords=agromanagement | |||
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{{End a table}} | {{End a table}} | ||
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|First name=Hendrik | |First name=Hendrik | ||
|Last name=Boogaard | |Last name=Boogaard | ||
|Type of contact= | |Type of contact=Project manager | ||
|Institute / Organization=Wageningen | |Institute / Organization=Wageningen Environmental Research, Wageningen UR | ||
|Postal address 1=PO Box 47 | |||
|Town / City=Wageningen | |Town / City=Wageningen | ||
|Postal code=6700AA | |Postal code=6700AA | ||
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|Additional last name=de Wit | |Additional last name=de Wit | ||
|Additional type of contact=Model developer | |Additional type of contact=Model developer | ||
|Additional institute / Organization=Wageningen | |Additional institute / Organization=Wageningen Environmental Research, Wageningen UR | ||
|Additional postal address 1=PO Box 47 | |||
|Additional town / City=Wageningen | |Additional town / City=Wageningen | ||
|Additional postal code=6700AA | |Additional postal code=6700AA | ||
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{{Model technical information | {{Model technical information | ||
|Supported platforms=Unix, Linux, Mac OS, Windows | |Supported platforms=Unix, Linux, Mac OS, Windows | ||
|Programming language=Fortran77 | |Programming language=Fortran77, Fortran90, Python, Java | ||
|Other program language=WOFOST | |Other program language=Wageningen-UR maintains implementations of WOFOST in Fortran, python and java. However, there are currently 14 known implementations of WOFOST in a variety of programming languages. | ||
|Code optimized=Single Processor | |Code optimized=Single Processor | ||
|Start year development=1965 | |Start year development=1965 | ||
|Does model development still take place?=Yes | |Does model development still take place?=Yes | ||
|DevelopmentCode=Active | |||
|DevelopmentCodeYearChecked=2020 | |||
|Model availability=As code | |Model availability=As code | ||
|Source code availability=Through web repository | |Source code availability=Through web repository | ||
|Source web address=https://github.com/ajwdewit/WOFOST | |Source web address=https://github.com/ajwdewit/WOFOST | ||
|Program license type=GPL | https://github.com/ajwdewit/pcse | ||
|Memory requirements= | https://www.swap.alterra.nl/ | ||
|Typical run time= | |Program license type=Other | ||
|Program license type other=EUPL/GPL | |||
|Memory requirements=Depends on implementation: 20 Mb (Fortran) to 150 Mb (python) | |||
|Typical run time=seconds | |||
}} | }} | ||
{{Input - Output description | {{Input - Output description | ||
|Describe input parameters=The input data for WOFOST | |Describe input parameters=The input data for WOFOST consists of three categories: | ||
1. Daily weather variables (temperature, radiation, precipitation, humidity, windspeed) | |||
2. Parameters for the crop, soil and site | |||
3. Agromanagement information related to the cropping practices: sowing, harvesting, irrigation, nutrient application, etc. | |||
How these inputs are provided to the model depends on the implementation. | |||
|Input format=ASCII | |Input format=ASCII | ||
|Other input format=CABO | |Other input format=For the python and java implementations, the model itself is independent of the input/output format. Inputs can be read from files, relational databases or web resources while outputs can be written to files (CSV, Excel), databases or cloud storage (S3 buckets). | ||
|Describe output parameters=WOFOST simulates the growth of a specific crop | The older Fortran implementations of the model require ASCII input files in the so-called CABO format. | ||
|Describe output parameters=WOFOST simulates the growth of a specific crop and its interaction with the soil. Its main output variables consist of crop variables (like total biomass, yield, phenological development and leaf area index) and soil variables like soil water content. More recent versions of WOFOST also include the N/P/K amounts in the crop organs and soil. | |||
|Output format=ASCII | |Output format=ASCII | ||
|Other output format=For the python and java implementations, the model itself is independent of the input/output format. Output can be queried from the model and written to any storage option available. The older Fortran implementation write ASCII output files | |||
|Pre-processing software needed?=No | |Pre-processing software needed?=No | ||
|Post-processing software needed?=No | |Post-processing software needed?=No | ||
|Visualization software needed?=Yes | |Visualization software needed?=Yes | ||
|Other visualization software= | |Other visualization software=The python version is used a lot in combination with Jupyter notebooks to visualize and analyze results. | ||
}} | }} | ||
{{Process description model | {{Process description model | ||
|Describe processes represented by the model=In WOFOST, crop growth is simulated on the basis of eco-physiological processes. The major processes are phenological development, light interception, CO2-assimilation, transpiration, respiration, partitioning of assimilates to the various organs, and dry matter formation. | |Describe processes represented by the model=In WOFOST, crop growth is simulated on the basis of eco-physiological processes. The major processes are phenological development, light interception, CO2-assimilation, transpiration, respiration, partitioning of assimilates to the various organs, and dry matter formation. Further, the interaction with the soil is included in relation to soil moisture availability and (in more recent version) also soil N/P/K availability. | ||
Potential and water-limited growth is simulated dynamically, with a time step of one day. Nutrient-limited production is calculated statically | Potential and water-limited growth is simulated dynamically, with a time step of one day. Nutrient-limited production is calculated either statically based on the QUEFTS approach (on the basis of soil characteristics and the water-limited production output) or dynamically using nutrient demand/supply at daily time steps. | ||
|Describe key physical parameters and equations=-- | |Describe key physical parameters and equations=-- | ||
|Describe length scale and resolution constraints=-- | |Describe length scale and resolution constraints=-- | ||
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{{Model testing | {{Model testing | ||
|Describe available calibration data sets=-- | |Describe available calibration data sets=-- | ||
|Describe available test data sets= | |Describe available test data sets=Model test data are available through https://github.com/ajwdewit/pcse and described in https://doi.org/10.1016/j.agwat.2019.105746 | ||
|Describe ideal data for testing=-- | |Describe ideal data for testing=-- | ||
}} | }} | ||
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|Manual model available=Yes | |Manual model available=Yes | ||
|Model manual=User manual WOFOST CONTROL CENTRE 2 1 v2.pdf, | |Model manual=User manual WOFOST CONTROL CENTRE 2 1 v2.pdf, | ||
|Model website if any= | |Model website if any=https://www.wur.nl/en/Research-Results/Research-Institutes/Environmental-Research/Facilities-Products/Software-and-models/WOFOST/Principles-of-WOFOST.htm | ||
|Model forum=Several documents are available describing WOFOST: | |||
- An introductory paper: https://doi.org/10.1016/j.agsy.2018.06.018 | |||
- A reference manual describing the algorithms behind the model: https://wofost.readthedocs.io/en/latest/ | |||
- Description of implementations: | |||
* Fortran: https://www.wur.nl/en/show/WOFOST-7.1-User-Manual.htm | |||
* python: http://pcse.readthedocs.io/ | |||
}} | |||
{{Additional comments model | |||
|Comments=All links to documentation of WOFOST are available on the WOFOST page on the WageningenUR web site given above. | |||
}} | }} | ||
{{CSDMS staff part | {{CSDMS staff part | ||
|OpenMI compliant=No | |OpenMI compliant=No but possible | ||
|IRF interface=No | |IRF interface=No but possible | ||
|CMT component= | |CMT component=No but possible | ||
}} | }} | ||
{{Start coupled table}} | {{Start coupled table}} | ||
{{End a table}} | {{End a table}} | ||
{{End headertab}} | {{End headertab}} | ||
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{{#ifexist:Template:{{#sub:{{PAGENAME}}|0|1}}{{#sub:{{lc:{{PAGENAME}}}}|1}} download stats | ==Download statistics== | {{#ifexist:Template:{{#sub:{{PAGENAME}}|0|1}}{{#sub:{{lc:{{PAGENAME}}}}|1}} download stats | ==Download statistics== | ||
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== References == | == References == | ||
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== Issues == | == Issues == |
Latest revision as of 20:17, 16 September 2020
WOFOST
Metadata
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Introduction
History
References
Nr. of publications: | 92 |
Total citations: | 2823 |
h-index: | 21 |
m-quotient: | 0.55 |
Featured publication(s) | Year | Model described | Type of Reference | Citations |
---|---|---|---|---|
Diepen, C.A.; Wolf, J.; Keulen, H.; Rappoldt, C.; 1989. WOFOST: a simulation model of crop production. Soil Use and Management, 5, 16–24. 10.1111/j.1475-2743.1989.tb00755.x (View/edit entry) | 1989 | WOFOST |
Model overview | 598 |
de Wit, Allard; Boogaard, Hendrik; Fumagalli, Davide; Janssen, Sander; Knapen, Rob; van Kraalingen, Daniel; Supit, Iwan; van der Wijngaart, Raymond; van Diepen, Kees; 2019. 25 years of the WOFOST cropping systems model. Agricultural Systems, 168, 154–167. 10.1016/j.agsy.2018.06.018 (View/edit entry) | 2019 | WOFOST |
Model overview | 138 |
See more publications of WOFOST |