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It is the task of the engineer, as of any other professional person, to do everything that is reasonably possible to analyse the difficulties with which his or her client is confronted, and on this basis to design solutions and implement these in practice. The distributed hydrological model is, correspondingly, the means for doing everything that is reasonably possible - of mobilising as much data and testing it with as much knowledge as is economically feasible - for the purpose of analysing problems and of designing and implementing remedial measures in the case of difficulties arising within the hydrological cycle. Thus the aim of distributed hydrologic modelling is to make the fullest use of cartographic data, of geological data, of satellite data, of stream discharge measurements, of borehole data, of observations of crops and other vegetation, of historical records of floods and droughts, and indeed of everything else that has ever been recorded or remembered, and then to apply to this everything that is known about meteorology, plant physiology, soil physics, hydrogeology, sediment transport and everything else that is relevant within this context. Of course, no matter how much data we have and no matter how much we know, it will never be enough to treat some problems and some situations, but still we can aim in this way to do the best that we possibly can.




This book deals with probably the most important and certainly the most complex issues in hydrological modelling today, namely distributed, physically-based models. The book consists of contributions from 10 European individuals or teams which are internationally recognised within their respective fields. It covers the various aspects of distributed hydrological modelling, including their coupling with spatial data originating from radars, satellites and geological models. The applicability of the distributed, physically-based approach for addressing environmental issues is dealt with in chapters on modelling of geochemical reactive transport, agricultural pollution and soil erosion. Through definition of a modelling protocol and methodology the book contributes to establishing more rigorous procedures for model setup, calibration, verification and validation. The challenges and future directions in hydrological modelling are addressed in a discussion between one of the principal critics and the editors. The target groups are hydrologists, engineers, water-asset managers and others working with hydrological modelling, either as researchers or practitioners.


This book deals with probably the most important and certainly the most complex issues in hydrological modelling today, namely distributed, physically-based models. The book consists of contributions from 10 European individuals or teams which are internationally recognised within their respective fields. It covers the various aspects of distributed hydrological modelling, including their coupling with spatial data originating from radars, satellites and geological models. The applicability of the distributed, physically-based approach for addressing environmental issues is dealt with in chapters on modelling of geochemical reactive transport, agricultural pollution and soil erosion. Through definition of a modelling protocol and methodology the book contributes to establishing more rigorous procedures for model setup, calibration, verification and validation. The challenges and future directions in hydrological modelling are addressed in a discussion between one of the principal critics and the editors. The target groups are hydrologists, engineers, water-asset managers and others working with hydrological modelling, either as researchers or practitioners.
Content:
Front Matter....Pages i-ix
The Role of Distributed Hydrological Modelling in Water Resources Management....Pages 1-16
Terminology, Modelling Protocol And Classification of Hydrological Model Codes....Pages 17-39
Construction, Calibration And Validation of Hydrological Models....Pages 41-54
Distributed Physically-Based Modelling Of The Entire Land Phase of The Hydrological Cycle....Pages 55-69
Multi-Species Reactive Transport Modelling....Pages 71-91
Soil Erosion Modelling....Pages 93-120
Agrochemical Modelling....Pages 121-141
Weather Radar Precipitation Data And Their Use In Hydrological Modelling....Pages 143-163
Application of Remote Sensing For Hydrological Modelling....Pages 165-191
Geological Modelling....Pages 193-214
Use Of GIS And Database with Distributed Modelling....Pages 215-232
An Engineering Case Study - Modelling the Influences of Gabcikovo Hydropower Plant on the Hydrology and Ecology in the Slovakian Part of the River Branch System of Zitny Ostrov....Pages 233-253
A Discussion of Distributed Hydrological Modelling....Pages 255-278
Comment on ’A Discussion of Distributed Hydrological Modelling’ by K. Beven....Pages 279-287
Response to comments on ‘a discussion of distributed hydrological modelling’ by j c refsgaard et al....Pages 289-295
Hydrological Modelling in a Hydroinformatics Context....Pages 297-312
Back Matter....Pages 313-324


This book deals with probably the most important and certainly the most complex issues in hydrological modelling today, namely distributed, physically-based models. The book consists of contributions from 10 European individuals or teams which are internationally recognised within their respective fields. It covers the various aspects of distributed hydrological modelling, including their coupling with spatial data originating from radars, satellites and geological models. The applicability of the distributed, physically-based approach for addressing environmental issues is dealt with in chapters on modelling of geochemical reactive transport, agricultural pollution and soil erosion. Through definition of a modelling protocol and methodology the book contributes to establishing more rigorous procedures for model setup, calibration, verification and validation. The challenges and future directions in hydrological modelling are addressed in a discussion between one of the principal critics and the editors. The target groups are hydrologists, engineers, water-asset managers and others working with hydrological modelling, either as researchers or practitioners.
Content:
Front Matter....Pages i-ix
The Role of Distributed Hydrological Modelling in Water Resources Management....Pages 1-16
Terminology, Modelling Protocol And Classification of Hydrological Model Codes....Pages 17-39
Construction, Calibration And Validation of Hydrological Models....Pages 41-54
Distributed Physically-Based Modelling Of The Entire Land Phase of The Hydrological Cycle....Pages 55-69
Multi-Species Reactive Transport Modelling....Pages 71-91
Soil Erosion Modelling....Pages 93-120
Agrochemical Modelling....Pages 121-141
Weather Radar Precipitation Data And Their Use In Hydrological Modelling....Pages 143-163
Application of Remote Sensing For Hydrological Modelling....Pages 165-191
Geological Modelling....Pages 193-214
Use Of GIS And Database with Distributed Modelling....Pages 215-232
An Engineering Case Study - Modelling the Influences of Gabcikovo Hydropower Plant on the Hydrology and Ecology in the Slovakian Part of the River Branch System of Zitny Ostrov....Pages 233-253
A Discussion of Distributed Hydrological Modelling....Pages 255-278
Comment on ’A Discussion of Distributed Hydrological Modelling’ by K. Beven....Pages 279-287
Response to comments on ‘a discussion of distributed hydrological modelling’ by j c refsgaard et al....Pages 289-295
Hydrological Modelling in a Hydroinformatics Context....Pages 297-312
Back Matter....Pages 313-324
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