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Jupyter Notebooks to demonstrate SUMMA Model at Reynolds Mountain East on CyberGIS


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Resource type: Composite Resource
Storage: The size of this resource is 3.4 MB
Created: Nov 04, 2019 at 3:52 p.m.
Last updated: Jan 15, 2020 at 8:27 a.m.
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Sharing Status: Public
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Abstract

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.
JN-1: pySUMMA_ReynoldsAspennStand_StomatalResistance_with_Plotting_module_CyberGIS.ipynb
- The notebook demonstrates plotting library of pySUMMA
JN-2: pySUMMA_ReynoldsAspennStand_StomatalResistance_CyberGIS.ipynb (Fig7)
- The notebook demonstrates the impact of the simple soil resistance method on total evapotranspiration (ET)
JN-3: SummaModel_ReynoldsAspenStand_RootDistribution_CyberGIS.ipynb (Fig8, left)
- The notebook demonstrates the impact of Root Distributions Parameters on total evapotranspiration (ET)
JN-4: SummaModel_Reynolds_Evapotranspiration_CyberGIS.ipynb (Fig8, right)
- The notebook demonstrates the impact of Lateral Flow Parameterizations on total evapotranspiration (ET)
JN-5: SummaModel_Reynolds_runoff_CyberGIS.ipynb (Fig9)
- The notebook demonstrates the impact of Lateral Flow Parameterizations on Basin-wide Runoff
JN-6: SummaModel_ReynoldsAspenStand_ShortwaveRadiation_CyberGIS.ipynb (Fig1-above)
-The notebook demonstrates the impact of shorwave radiation Parameterizations of below canopy shorwave radiation
JN-7: SummaModel_ReynoldsAspenStand_ShortwaveRadiation_LAI_CyberGIS.ipynb (Fig1-below)
- The notebook demonstrates the impact of LAI parameter values of below canopy shorwave radiation
JN-8-SummaModel_ReynoldsAspenStand_WindSpeed_CyberGIS.ipynb (Fig2)
- The notebook demonstrates the impact of the canopy wind parameter for the exponential wind profile

The procedure to simulate these notebooks in CyberGIS
1) Download "Download_pySUMMA_Jupyter_Notebooks_from_HydroShare.ipynb" Jupyter Notebook manually on your local computer.
2) Move to the CyberGIS-Jupyter web app (https://www.hydroshare.org/resource/c477900488744e4a8e1df21326e4789b/) and click "Open Web App" to start CyberGIS JupyterHub.
3) Upload "Download_pySUMMA_Jupyter_Notebooks_from_HydroShare.ipynb" Jupyter Notebook into CyberGIS JupyterHub and run the Jupyter Notebook.

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Content

References

Related Resources

The content of this resource is hosted by: https://www.hydroshare.org/resource/c477900488744e4a8e1df21326e4789b/
This resource belongs to the following collections:
Title Owners Sharing Status My Permission
A General Approach to the Design and Implementation of Online, Collaborative Environmental Modeling to Improve Reproducibility and Reuse YOUNG-DON CHOI  Public &  Shareable Open Access

Credits

Funding Agencies

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

CHOI, Y. (2020). Jupyter Notebooks to demonstrate SUMMA Model at Reynolds Mountain East on CyberGIS, https://www.hydroshare.org/resource/c477900488744e4a8e1df21326e4789b/, last accessed 1/15/2020.

This resource is shared under the Creative Commons Attribution CC BY.

 http://creativecommons.org/licenses/by/4.0/
CC-BY

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