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

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.

本综合资源集汇聚了用于展示 SUMMA 测试用例的 Jupyter 笔记本，这些测试用例已在 Idaho 州西南部的 Reynolds Mountain East 水系中的 Clark 等人（2015b）研究中进行验证。 JN-1: pySUMMA_ReynoldsAspennStand_StomatalResistance_with_Plotting_module_CyberGIS.ipynb - 该笔记本演示了 pySUMMA 的绘图库功能。 JN-2: pySUMMA_ReynoldsAspennStand_StomatalResistance_CyberGIS.ipynb（图7） - 该笔记本展示了简单土壤阻力方法对总蒸散量（ET）的影响。 JN-3: SummaModel_ReynoldsAspenStand_RootDistribution_CyberGIS.ipynb（图8，左侧） - 该笔记本演示了根分布参数对总蒸散量（ET）的影响。 JN-4: SummaModel_Reynolds_Evapotranspiration_CyberGIS.ipynb（图8，右侧） - 该笔记本展示了横向流动参数化对总蒸散量（ET）的影响。 JN-5: SummaModel_Reynolds_runoff_CyberGIS.ipynb（图9） - 该笔记本演示了横向流动参数化对流域面径流的影响。 JN-6: SummaModel_ReynoldsAspenStand_ShortwaveRadiation_CyberGIS.ipynb（图1，上方） - 该笔记本演示了冠层下方短波辐射参数化对短波辐射的影响。 JN-7: SummaModel_ReynoldsAspenStand_ShortwaveRadiation_LAI_CyberGIS.ipynb（图1，下方） - 该笔记本展示了冠层下方短波辐射的 LAI 参数值对短波辐射的影响。 JN-8-SummaModel_ReynoldsAspenStand_WindSpeed_CyberGIS.ipynb（图2） - 该笔记本演示了冠层风速参数对指数风廓线的影响。 在 CyberGIS 中模拟这些笔记本的步骤如下： 1) 手动在您的本地计算机上下载 "Download_pySUMMA_Jupyter_Notebooks_from_HydroShare.ipynb" Jupyter 笔记本。 2) 转至 CyberGIS-Jupyter 网页应用（https://www.hydroshare.org/resource/c477900488744e4a8e1df21326e4789b/）并点击 "打开 Web 应用" 以启动 CyberGIS JupyterHub。 3) 将 "Download_pySUMMA_Jupyter_Notebooks_from_HydroShare.ipynb" Jupyter 笔记本上传至 CyberGIS JupyterHub 并运行该笔记本。