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Structure for Unifying Multiple Modeling Alternatives: SUMMA

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SUMMA (Clark et al., 2015a;b;c; 2021 is a hydrologic modeling framework that can be used for the systematic analysis of alternative model conceptualizations with respect to flux parameterizations, spatial configurations, and numerical solution techniques. It can be used to configure a wide range of hydrological model alternatives and we anticipate that systematic model analysis will help researchers and practitioners understand reasons for inter-model differences in model behavior. When applied across a large sample of catchments, SUMMA may provide insights in the dominance of different physical processes and regional variability in the suitability of different modeling approaches. An important application of SUMMA is selecting specific physics options to reproduce the behavior of existing models – these applications of "model mimicry" can be used to define reference (benchmark) cases in structured model comparison experiments, and can help diagnose weaknesses of individual models in different hydroclimatic regimes.

SUMMA is built on a common set of conservation equations and a common numerical solver, which together constitute the “structural core” of the model. Different modeling approaches can then be implemented within the structural core, enabling a controlled and systematic analysis of alternative modeling options, and providing insight for future model development.

The important modeling features are:

  1. The formulation of the conservation model equations is cleanly separated from their numerical solution;

  2. Different model representations of physical processes (in particular, different flux parameterizations) can be used within a common set of conservation equations; and

  3. The physical processes can be organized in different spatial configurations, including model elements of different shape and connectivity (e.g., nested multi-scale grids and HRUs).

Documentation

SUMMA documentation is available online and remains a work in progress. Additional SUMMA information including publications, test data sets, and sample applications can be found on the SUMMA web site at NCAR.

Credits

SUMMA's initial implementation is described in two papers published in Water Resources Research. If you use SUMMA, please credit these two publications.

  • Clark, M. P., B. Nijssen, J. D. Lundquist, D. Kavetski, D. E. Rupp, R. A. Woods, J. E. Freer, E. D. Gutmann, A. W. Wood, L. D. Brekke, J. R. Arnold, D. J. Gochis, R. M. Rasmussen, 2015a: A unified approach for process-based hydrologic modeling: Part 1. Modeling concept. Water Resources Research, doi:10.1002/2015WR017198.

  • Clark, M. P., B. Nijssen, J. D. Lundquist, D. Kavetski, D. E. Rupp, R. A. Woods, J. E. Freer, E. D. Gutmann, A. W. Wood, D. J. Gochis, R. M. Rasmussen, D. G. Tarboton, V. Mahat, G. N. Flerchinger, D. G. Marks, 2015b: A unified approach for process-based hydrologic modeling: Part 2. Model implementation and case studies. Water Resources Research, doi:10.1002/2015WR017200.

  • Clark, M. P., Zolfaghari, R., Green, K. R., Trim, S., Knoben, W. J. M., Bennett, A., Nijssen, B., Ireson, A., Spiteri, R. J., 2021: The Numerical Implementation of Land Models: Problem Formulation and Laugh Tests. Journal of Hydrometeorology, doi:10.1175/JHM-D-20-0175.1.

In addition, an NCAR technical note describes the SUMMA implementation in detail:

  • Clark, M. P., B. Nijssen, J. D. Lundquist, D. Kavetski, D. E. Rupp, R. A. Woods, J. E. Freer, E. D. Gutmann, A. W. Wood, L. D. Brekke, J. R. Arnold, D. J. Gochis, R. M. Rasmussen, D. G. Tarboton, V. Mahat, G. N. Flerchinger, D. G. Marks, 2015c: The structure for unifying multiple modeling alternatives (SUMMA), Version 1.0: Technical Description. NCAR Technical Note NCAR/TN-514+STR, 50 pp., doi:10.5065/D6WQ01TD.

License

SUMMA is distributed under the GNU Public License Version 3. For details see the file COPYING in the SUMMA root directory or visit the online version.

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