EarthCube2020: Reproducible and Replicable Scientific Use Cases with CyberGIS-Jupyter for water and Sciunit tool using SUMMA and pySUMMA

These notebooks are created to evaluate the reproducibility and replicability using Sciunit in different computational environment. You can open these notebooks using CyberGIS-Jupyter for water from `Open with button`. Notebook1 and notebook2 were created in local computer to test computational environment and create Sciunit containers to encapsulate SUMMA simulation workflow. - Notebook1: N_1_Reproducibility_Evaluation_of_the_SUMMA_Model_in_the_Model_Agnostic_Framework.ipynb - Notebook2: N_2_Creating_and_Executing_the_Sciunit_Container_to_Encapsulating_and_Evaluating_the_immutable_computational_environment.ipynb So you can start with notebook3. - Notebook3: N_3_Reproducibility_and_Replicability_Evaluation_using_the_Sciunit_Container_in_CyberGIS_for_water.ipynb From this process, you can evaluate the reproducibility and replicability of SUMMA simulation with repeating of Sciunit container and changing the SUMMA configuration. - Reproduced SUMMA application: Three different stomatal Resistance Parameterizations (BallBerry, Jarvis, and Simple Stomatal Method) - Replicated SUMMA application: Changing the function for the soil moisture control on stomatal resistance from NoahType to CLM_Type