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Jupyter Notebooks to demonstrate SUMMA Model at Reynolds Mountain East on CyberGIS-Jupyter for water
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|Created:||Aug 20, 2020 at 11:43 p.m.|
|Last updated:|| Oct 05, 2020 at 6:26 a.m.
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This Composite Resource is the collection of Jupyter notebooks to demonstrate SUMMA TestCases that was tested at the Clark et al., (2015b) study in the Reynolds Mountain East catchment in southwestern Idaho.
- The notebook demonstrates plotting library of pySUMMA
JN-2: SummaModel_ReynoldsAspennStand_StomatalResistance_Figure7.ipynb (Fig7)
- The notebook demonstrates the impact of the simple soil resistance method on total evapotranspiration (ET)
JN-3: SummaModel_ReynoldsAspenStand_RootDistribution_Figure8_Left.ipynb (Fig8, left)
- The notebook demonstrates the impact of Root Distributions Parameters on total evapotranspiration (ET)
JN-4: SummaModel_Reynolds_Evapotranspiration_Figure8_Right.ipynb (Fig8, right)
- The notebook demonstrates the impact of Lateral Flow Parameterizations on total evapotranspiration (ET)
JN-5: SummaModel_Reynolds_runoff_Figure9.ipynb (Fig9)
- The notebook demonstrates the impact of Lateral Flow Parameterizations on Basin-wide Runoff
JN-6: SummaModel_ReynoldsAspenStand_ShortwaveRadiation_Figure1_Top.ipynb (Fig1-Top)
-The notebook demonstrates the impact of shorwave radiation Parameterizations of below canopy shorwave radiation
JN-7: SummaModel_ReynoldsAspenStand_ShortwaveRadiation_LAI_Figure1_Bottom.ipynb (Fig1-Bottom)
- The notebook demonstrates the impact of LAI parameter values of below canopy shorwave radiation
- The notebook demonstrates the impact of the canopy wind parameter for the exponential wind profile
|The content of this resource is derived from||http://www.hydroshare.org/resource/743d82ad22e94fa195aad4c1247abbd8|
|Title||Owners||Sharing Status||My Permission|
|Toward Open and Reproducible Environmental Modeling by Integrating Online Data Repositories, Computational Environments, and Model Application Programming Interfaces||Young-Don Choi||Public & Shareable||Open Access|
|Toward Open and Reproducible Environmental Modeling by Integrating Online Data Repositories, Computational Environments, and Model Application Programming Interfaces||Iman Maghami||Private & Shareable||None|
This resource was created using funding from the following sources:
|Agency Name||Award Title||Award Number|
|National Science Foundation||Collaborative Research: SI2-SSI: Cyberinfrastructure for Advancing Hydrologic Knowledge through Collaborative Integration of Data Science, Modeling and Analysis||OAC-1664061, OAC-1664018, OAC-1664119|
How to Cite
This resource is shared under the Creative Commons Attribution CC BY.http://creativecommons.org/licenses/by/4.0/
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