Towards more credible models in catchment hydrology to enhance
hydrological process understanding: Preface
- Jens Christian Refsgaard,
- Juliane Mai,
- Markus Hrachowitz,
- Sharad K. Jain,
- Simon Stisen
Jens Christian Refsgaard
De Nationale Geologiske Undersogelser for Danmark og Gronland
Corresponding Author:jcr@geus.dk
Author ProfileJuliane Mai
University of Waterloo Department of Civil and Environmental Engineering
Author ProfileMarkus Hrachowitz
Technische Universiteit Delft Afdeling Watermanagement
Author ProfileSharad K. Jain
Indian Institute of Technology Roorkee Department of Civil Engineering
Author ProfileSimon Stisen
De Nationale Geologiske Undersogelser for Danmark og Gronland
Author ProfileAbstract
Catchment modelling has undergone tremendous developments during the
past decades. In the 1970s, the focus was on simulation of catchment
runoff with process descriptions and data inputs being lumped to the
catchment scale. Later developments included spatially distributed
models allowing data inputs and hydrological processes to be simulated
at model grid scale, i.e. much finer than catchment scale. These models
were able to explicitly simulate various processes such as soil
moisture, evapotranspiration, groundwater and surface runoff. With the
advancements in remote sensing technology and availability of
high-resolution data, increased attention has in recent years been given
to enhancing the capability of catchment models to reproduce spatial
patterns and in this way improve our understanding of hydrological
processes and the physical realism of catchment models. This development
process has involved a wide spectrum of different aspects in the
modelling process, reaching from an improved understanding of
uncertainties in data, model parameters and model structures to new
protocols for good modelling practices in water management. Recognizing
the important role of biodiversity and social aspects, hydrologists are
now extending the scope of their models to capture the interactions
between water, biota and human social systems.03 Sep 2023Submitted to Hydrological Processes 05 Sep 2023Submission Checks Completed
05 Sep 2023Assigned to Editor
05 Sep 2023Reviewer(s) Assigned
05 Sep 2023Review(s) Completed, Editorial Evaluation Pending
05 Sep 2023Editorial Decision: Accept