{"id":2619,"date":"2014-05-19T12:52:37","date_gmt":"2014-05-19T11:52:37","guid":{"rendered":"http:\/\/people.unica.it\/researchersinmotion\/?p=2619"},"modified":"2014-07-28T16:19:10","modified_gmt":"2014-07-28T15:19:10","slug":"july-21-25-2014-short-course-on-fundamental-and-advanced-topics-in-hydrogeology-and-hydrological-simulation","status":"publish","type":"post","link":"https:\/\/people.unica.it\/researchersinmotion\/2014\/05\/19\/july-21-25-2014-short-course-on-fundamental-and-advanced-topics-in-hydrogeology-and-hydrological-simulation\/","title":{"rendered":"July, 21-25 2014: Short Course on Fundamental and Advanced Topics in Hydrogeology and Hydrological Simulation"},"content":{"rendered":"

Department of Environmental Engineering\u00a0<\/span><\/em><\/p>\n

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Short Course<\/span><\/a>\u00a0on <\/span><\/p>\n

“Fundamental and Advanced Topics <\/span><\/p>\n

in Hydrogeology and Hydrological Simulation”<\/span><\/p>\n

Cagliari – Italy July, 21st\u00a0to 25th 2014<\/span><\/p>\n

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APPLICATION OPEN<\/span><\/p>\n

Deadline June 30, 2014<\/strong><\/p>\n

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Lecturer:<\/strong> <\/span>Prof. Claudio Paniconi,\u00a0 INRS-ETE, University of Quebec, Quebec City, Canada<\/p>\n

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Course Description: <\/b><\/span>The hydrological cycle is characterized by continuous interactions between the atmosphere (rainfall and evaporation), the land surface (overland and channel flow), and the subsurface (soil infiltration and aquifer recharge). Reliable observation and modeling of these interlinked processes is critical to sustainable water management in the face of increasing resource degradation and societal conflicts arising from population, land use, and climate changes. The challenges in monitoring and simulating hydrological processes can be attributed to several factors, not least of which the sheer complexity of these interactions, the spatio-temporal heterogeneity that characterizes natural systems, the difficulty in measuring key parameters and state variables, and the knowledge gaps and uncertainties in the models we use to study hydrological dynamics. These challenges are being addressed by continual advances in several domains, including: computer technology (in support of observation networks, data analysis, and process simulation); hydrological observation (on the ground, airborne, and from space); numerical algorithms (to deal more effectively and efficiently with scale, nonlinearity, and other complexities); and evolving methodologies for model calibration, parameter estimation, and data assimilation (so that simulation models and observation data can be integrated in a physically consistent manner).<\/p>\n

This intensive 5-day course will review fundamental and practical aspects of hydrological theory and modeling. The primary focus will be on the subsurface (groundwater and soil water), and special attention will be devoted to advanced topics such as:<\/p>\n