H13C-1564
Developing a Resource for Implementing ArcSWAT Using Global Datasets

Monday, 14 December 2015
Poster Hall (Moscone South)
Mackenzie Taggart1, Irma Otilia Caraballo Álvarez2, Chase Mueller3, Sherry L. Palacios4, Cindy Schmidt4 and Cristina Milesi4, (1)California Polytechnic State University San Luis Obispo, San Luis Obispo, CA, United States, (2)University de Puerto Rico, Caguas, PR, United States, (3)University of Texas at San Antonio, San Antonio, TX, United States, (4)NASA Ames Research Center, Moffett Field, CA, United States
Abstract:
This project developed a comprehensive user manual outlining methods for adapting and implementing global datasets for use within ArcSWAT for international and worldwide applications. The Soil and Water Assessment Tool (SWAT) is a hydrologic model that looks at a number of hydrologic variables including runoff and the chemical makeup of water at a given location on the Earth's surface using Digital Elevation Models (DEM), land cover, soil, and weather data. However, the application of ArcSWAT for projects outside of the United States is challenging as there is no standard framework for inputting global datasets into ArcSWAT. This project aims to remove this obstacle by outlining methods for adapting and implementing these global datasets via the user manual. The manual takes the user through the processes of data conditioning while providing solutions and suggestions for common errors. The efficacy of the manual was explored using examples from watersheds located in Puerto Rico, Mexico and Western Africa. Each run explored the various options for setting up a ArcSWAT project as well as a range of satellite data products and soil databases. Future work will incorporate in-situ data for validation and calibration of the model and outline additional resources to assist future users in efficiently implementing the model for worldwide applications. The capacity to manage and monitor freshwater availability is of critical importance in both developed and developing countries. As populations grow and climate changes, both the quality and quantity of freshwater are affected resulting in negative impacts on the health of the surrounding population. The use of hydrologic models such as ArcSWAT can help stakeholders and decision makers understand the future impacts of these changes enabling informed and substantiated decisions.