Dépôt numérique
RECHERCHER

Open science in practice: Learning integrated modeling of coupled surface-subsurface flow processes from scratch.

Yu, Xuan; Duffy, Christopher J.; Rousseau, Alain N.; Bhatt, Gopal; Pardo Álvarez, Álvaro; Charron, Dominique (2016). Open science in practice: Learning integrated modeling of coupled surface-subsurface flow processes from scratch. Earth and Space Science , vol. 3 , nº 5. p. 190-206. DOI: 10.1002/2015EA000155.

Ce document n'est pas hébergé sur EspaceINRS.

Résumé

Integrated modeling of coupled surface-subsurface flow and ensuing role in diverse Earth system processes is of current research interest to characterize nonlinear rainfall-runoff response and also to understand land surface energy balances, biogeochemical processes, geomorphological dynamics, etc. A growing number of complex models have been developed for water-related research, and many of these are made available to the Earth science community. However, relatively few resources have been made accessible to the potentially large group of Earth science and engineering users. New users have to invest an extraordinary effort to study the models. To provide a stimulating experience focusing on the learning curve of integrated modeling of coupled surface-subsurface flow, we describe use cases of an open source model, the Penn State Integrated Hydrologic Model, PIHM. New users were guided through data processing and model application by reproducing a numerical benchmark problem and a real-world watershed simulation. Specifically, we document the PIHM application and its computational workflow to enable intuitive understanding of coupled surface-subsurface flow processes. In addition, we describe the user experience as important evidence of the significance of reusability. The interaction shows that documentation of data, software, and computational workflow in research papers is a promising method to foster open scientific collaboration and reuse. This study demonstrates how open science practice in research papers would promote the utility of open source software. Addressing such open science practice in publications would promote the utility of journal papers. Further, popularization of such practice will require coordination among research communities, funding agencies, and journals.

Type de document: Article
Mots-clés libres: computational workflow; coupled processes; integrated hydrologic model; open science; reproducibility
Centre: Centre Eau Terre Environnement
Date de dépôt: 07 mai 2018 19:11
Dernière modification: 07 mai 2018 19:11
URI: http://espace.inrs.ca/id/eprint/6489

Actions (Identification requise)

Modifier la notice Modifier la notice