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Publié par | friedrich-schiller-universitat_jena |
Publié le | 01 janvier 2009 |
Nombre de lectures | 30 |
Langue | English |
Poids de l'ouvrage | 3 Mo |
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Design of Watershed Based Water Quality Monitoring
The Case of Nitrate Pollution in the Aconcagua River, Chile
Dissertation
Zur Erlangung des akademischen Grades Doctor rerum naturalium
(Dr. rer. nat.)
Vorgelegt dem Rat der Chemisch-Geowissenschaftlichen Fakultät der
Friedrich-Schiller-Universität Jena
von Diplom Chemiker Lars Ribbe (M.Eng.)
geboren am 28.06.1968 in Bremen
Februar 2008
Gutachter:
1. Prof. Dr. Wolfgang Albert Flügel (Friedrich-Schiller-Universität Jena)
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2. Prof. Dr. Hartmut Gaese (Fachhochschule Köln)
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Tag der öffentlichen Verteidigung: 7.5.2008 Design of Watershed Based Water Quality Monitoring
The Case of Nitrate Pollution in the Aconcagua River, Chile
Dissertation
For the academic degree of Doctor rerum naturalium
(Dr. rer. nat.)
Friedrich-Schiller-University Jena
Faculty of Chemistry and Earth Sciences
Author: Dipl.Chem. Lars Ribbe (M.Eng)
February 2008
Preface
The research which led to the present dissertation has been realized between 2004 and
2007 under the umbrella of the university cooperation between the Catholic University of
Valparaíso, Chile and Cologne University of Applied Sciences, Germany. Both universities
provided valuable support in terms of funding and personnel to render the research
possible. In addition, the support of the German Ministry of Education and Science
(BMBF) is appreciated as they provided support to the project for mobility and
consumables. In particular, I would like to thank Prof. Dr. Hartmut Gaese for his
incessant personal and institutional support and Prof. Dr. Eduardo Salgado for the
invaluable help on the Chilean side throughout the study.
I am very grateful to have had Prof. Dr. Wolfgang-Albert Flügel as the main supervisor
during this research and appreciated his critical and very helpful review and
recommendations throughout the work leading to this thesis. Through him and through
his research team at the Friedrich-Schiller-University I had the chance to become
acquainted with new and fascinating aspects of integrated river basin modelling and
management.
In addition, there are other institutions and persons that generously supported the field
work, above all the Chilean Water Service (DGA). DGA-Santiago provided the bulk of the
required data on hydrology, water quality and GIS. The regional DGA in Quillota
supported the sampling in the Pocochay sub-watershed. Personally, I would like to thank
Mesenia Atenas, Monica Pardo, Cristian Nuñez and Francisco Riestra (Department of
Water Conservation and Protection) and Ana Maria Gangas, María Angélica Alegría and
Victoria Pozo (Department of Studies) for their kind support and advice.
At the Catholic University of Valparaiso I thank Paula Delgado for supporting sampling
and for discussing sampling design in the Pocochay stream and for organising the
agricultural survey in the Pocochay sub-watershed study together with Sebastian Rivera.
Finally, I would like to thank Maxime Souvignet regarding tremendous support in many
technical aspects and on the revision of the text, Santiago Penedo, Rui Pedroso, and
Alexandra Nauditt for the review and support in all aspects during the final phase of
compiling the thesis.
Content
List of Tables ........................................................................................................i
List of Figures...................................................................................................... ii
List of Acronyms ................................................................................................. iv
Abstract..............................................................................................................v
Zusammenfassung (Summary in German) .............................................................. vi
1. Introduction1
2. Background3
2.1. Significance of Monitoring ....................................................................................3
2.1.1. Relation between Monitoring and the Decision Making Process................................................3
2.1.2. Definitions and Types of Monitoring.....................................................................................6
2.1.3. Conclusions......................................................................................................................8
2.2. Review of Monitoring Network Design ....................................................................8
2.2.1. Introduction .....................................................................................................................8
2.2.2. Monitoring Frequency ......................................................................................................11
2.2.3. Monitoring Locations .......................................................................................................14
2.2.4. Variability of Water Quality Parameters .............................................................................16
2.2.5. Shortcomings of Monitoring Design Methods ......................................................................17
2.3. Research Problem ............................................................................................. 18
2.4. Objectives 19
2.5. Methodology .................................................................................................... 20
3. Nitrate Processes and Modelling.................................................................... 22
3.1. Environmental Behaviour of Nitrate ..................................................................... 22
3.1.1. Significance of Nitrate Pollution in Surface Waters...............................................................22
3.1.2. Nitrogen Pathways to Surface Waters................................................................................23
3.1.3. Factors influencing Nitrogen Export from Irrigated Areas .....................................................25
3.1.4. Nitrogen impacts from Point Sources.................................................................................28
3.1.5. Nitrogen Processes in Surface Waters28
3.2. Modelling Nitrate in Watersheds.......................................................................... 30
3.3. Conceptual Model to Develop Long Term Nitrate Concentrations .............................. 31
3.3.1. Nitrogen Inputs to River Reaches......................................................................................32
3.3.2. Watershed Hydrology ......................................................................................................35
4. Aconcagua Watershed Analysis..................................................................... 39
4.1. Introduction to the Study Area............................................................................ 39
4.2. Watershed Description....................................................................................... 41
4.2.1. Location and General Description of the Watershed.............................................................41
4.2.2. Climate and Hydrology ....................................................................................................43 4.2.3. Land Use .......................................................................................................................56
4.2.4. Water Uses ....................................................................................................................62
4.2.5. Nitrogen Sources of Pollution............................................................................................68
4.2.6. Reported River Water Quality Data....................................................................................75
4.2.7. Conclusions77
5. Pocochay Sub-watershed Analysis................................................................. 78
5.1. Land and Fertilizer Use ...................................................................................... 79
5.1.2. Fertilizer Applications ......................................................................................................81
5.2. Water Quality and Discharge Measurements ......................................................... 82
5.2.1. Monitoring Points ............................................................................................................82
5.2.2. Measurement Methods.....................................................................................................82
5.2.3. Nitrogen Loads and Export Coefficients..............................................................................83
5.2.4. Interpre