Wicked Water Problems: Can Network Governance Deliver? Integrated Water Management Case Studies from New Zealand and Oregon, USA

Present-day worldwide water problems require new management tools and sustainable system innovations. At Delft University of Technology research is being carried out into water resources and management development aimed at forming such tools and innovations, focused on Integrated River Basin Management (IRBM). One of the case-studies deals with Dutch water management and technology in the context of European IRBM in the form of the 2000 Water Frame Directive. The Netherlands experience many water problems and European IRBM could bring help by offering a framework for both international cooperation and technological innovations. To work as an adequate management tool European IRBM should be tailored to the Dutch water tradition, which recently culminated in Integrated Water Management. Both approaches are in some respects contradicting. Europe pursues, for example, centralized control; while the Dutch have their strongly water boards based decentralized administration. The tensions between both approaches require mutual adaptation, for which the concept of subsidiarity might offer points of departure. This paper describes the first results of the case-research into Dutch water management and technology in the context of Europe as well as the backgrounds and the set-up of the research as a whole.

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Enhancing the Potential for Integrated Water Management in New Zealand Throughthrough Adaptive Governance

Adaptive and Integrated Water Management ◽

10.1007/978-3-540-75941-6_12 ◽

2007 ◽

pp. 227-247 ◽

Cited By ~ 3

Author(s):

Brett Painter ◽

Ali Memon

Keyword(s):

Water Management ◽

New Zealand ◽

Adaptive Governance ◽

Integrated Water Management

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A Constitutional Study on Integrated Water Management and Preservation

Korean Public Land Law Association ◽

10.30933/kpllr.2018.84.257 ◽

2018 ◽

Vol 84 ◽

pp. 257-279

Author(s):

Sang-Kyum Kim ◽

◽

Jung-Yun Seo ◽

Keyword(s):

Water Management ◽

Integrated Water Management

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Use competition and water exchange in Marina Baja district, Alicante, Spain

Water Science & Technology Water Supply ◽

10.2166/ws.2005.0108 ◽

2005 ◽

Vol 5 (3-4) ◽

pp. 265-272 ◽

Cited By ~ 2

Author(s):

T.T. Martí

Keyword(s):

Water Exchange ◽

Citrus Fruit ◽

Water Markets ◽

Tourist Industry ◽

Related Services ◽

Integrated Water Management ◽

The North ◽

Increasing Demand ◽

Water Problems ◽

Water Uses

The water problems in Marina Baja district, located in the north of Alicante Province, southeast Spain, gives rise to very interesting practices in the management of this scarce resource. The key issue in water use both in the Júcar Catchment and in Marina Baja district is the growing demand for water in inland areas for intensive crop irrigation (principally fruit, medlars and citrus fruit) and the growth in demand for water for urban use, as well as for use in the tourist industry and its related services mainly in the towns in the coastal areas, due to strong growth in tourism. This trend of increasing demand has created a tense situation as well as conflict between existing water uses and the need for integrated water management in the area. This step implies that procedures for water exchange contracts have to be developed, that are significantly different from emerging water markets.

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The Water in the Royal Monastery of Santa Maria De Poblet, Tarragona, Spain

Water Science & Technology Water Supply ◽

10.2166/ws.2007.030 ◽

2007 ◽

Vol 7 (1) ◽

pp. 261-267

Author(s):

J.L. De la Peña ◽

M. De la Peña ◽

M. Salgot ◽

Ll. Torcal

Keyword(s):

Water Management ◽

Water Scarcity ◽

Management System ◽

Integrated Water Management ◽

Water Management System ◽

Santa Maria ◽

Semiarid Conditions

The history and water-related features in the Poblet Cistercian Monastery, located in Tarragona province, Spain are described. The study is undertaken with the main purpose of obtaining data for the establishment of an integrated water management system inside the walls of the abbey, which is suffering water scarcity due to increasing demands and the prevalent semiarid conditions.

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Living with water: at the cross-roads of change

Water Science & Technology ◽

10.2166/wst.1995.0337 ◽

1995 ◽

Vol 31 (8) ◽

pp. 393-400 ◽

Cited By ~ 1

Author(s):

Joost de Jong ◽

Peter T. J. C. van Rooy ◽

S. Harry Hosper

Keyword(s):

Water Management ◽

Water Quality ◽

Water Environment ◽

Integrated Water Management ◽

Practical Action ◽

The People ◽

Global Perception ◽

Local Water ◽

Water Quality Deterioration ◽

The Way

Until the last two decades, the global perception of how to control our various water bodies was remarkably similar – water management was organised on a sectoral basis, as it always had been. It was only in the 1970s that the people actually responsible for implementing water management began to become aware of the serious implications of such an approach: water quality deterioration, desiccation and an alarming loss of the flora and fauna that characterised their local water environment. It was a growing awareness that led to the formation of the concept of integrated water management, a concept almost universally accepted today as the way forward. However, despite the fact that few dispute the validity of the concept, a number of obstacles remain before this theoretical agreement can be transformed into practical action. Three main bottlenecks stand in the way of implementation: institutional, communicational and socio-political. Whilst solutions to these are available, the key question still to be answered is whether society is really prepared to accept the consequent changes in the way we live that will result from putting the theory of integrated water management into practice. It was this issue that dominated the “Living with water” conference held in Amsterdam in September 1994. The following is a summary of the discussions held there and the various papers that were submitted.

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Policy analysis and complexity – a non-equilibrium approach for integrated water management

Water Science & Technology ◽

10.2166/wst.1995.0323 ◽

1995 ◽

Vol 31 (8) ◽

pp. 301-309 ◽

Cited By ~ 3

Author(s):

Govert D. Geldof

Keyword(s):

Water Management ◽

Control System ◽

Planning Process ◽

The Other ◽

Integrated Water Management ◽

Equilibrium Approach ◽

History Of ◽

The One ◽

Groundwater Policy ◽

Non Equilibrium

In integrated water management, the issues are often complex by nature, they are capable of subjective interpretation, are difficult to express in standards and exhibit many uncertainties. For such issues, an equilibrium approach is not appropriate. A non-equilibrium approach has to be applied. This implies that the processes to which the integrated issue pertains, are regarded as “alive”’. Instead of applying a control system as the model for tackling the issue, a network is used as the model. In this network, several “agents”’ are involved in the modification, revision and rearrangement of structures. It is therefore an on-going renewal process (perpetual novelty). In the planning process for the development of a groundwater policy for the municipality of Amsterdam, a non-equilibrium approach was adopted. In order to do justice to the integrated character of groundwater management, an approach was taken, containing the following features: (1) working from global to detailed, (2) taking account of the history of the system, (3) giving attention to communication, (4) building flexibility into the establishing of standards, and (5) combining reason and emotions. A middle course was sought, between static, rigid but reliable on the one hand; dynamic, flexible but vague on the other hand.

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Coping with uncertainties in integrated urban water management

Water Science & Technology ◽

10.2166/wst.1997.0677 ◽

1997 ◽

Vol 36 (8-9) ◽

pp. 265-269

Author(s):

Govert D. Geldof

Keyword(s):

Water Management ◽

Monte Carlo Simulation ◽

Monte Carlo ◽

Interdisciplinary Approach ◽

Urban Water ◽

Urban Water Management ◽

Integrated Water Management ◽

Good Design ◽

Management Techniques ◽

Simulation Results

In the practice of integrated water management we meet complexity, subjectivity and uncertainties. Uncertainties come into play when new urban water management techniques are applied. The art of a good design is not to reduce uncertainties as much as possible, but to find the middle course between cowardice and recklessness. This golden mean represents bravery. An interdisciplinary approach is needed to reach consensus. Calculating uncertainties by using Monte Carlo simulation results may be helpful.

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Temporal and Local Heterogeneities of Water Table Depth under Different Agricultural Water Management Conditions

Water ◽

10.3390/w13162148 ◽

2021 ◽

Vol 13 (16) ◽

pp. 2148

Author(s):

Jonathan A. Lafond ◽

Silvio J. Gumiere ◽

Virginie Vanlandeghem ◽

Jacques Gallichand ◽

Alain N. Rousseau ◽

...

Keyword(s):

Water Management ◽

Water Table ◽

Cropping Systems ◽

Irrigation Management ◽

Sprinkler Irrigation ◽

Water Table Depth ◽

Management Systems ◽

Integrated Water Management ◽

Growing Seasons ◽

Good Drainage

Integrated water management has become a priority for cropping systems where subirrigation is possible. Compared to conventional sprinkler irrigation, the controlling water table can lead to a substantial increase in yield and water use efficiency with less pumping energy requirements. Knowing the spatiotemporal distribution of water table depth (WTD) and soil properties should help perform intelligent, integrated water management. Observation wells were installed in cranberry fields with different water management systems: Bottom, with good drainage and controlled WTD management; Surface, with good drainage and sprinkler irrigation management; Natural, without drainage, or with imperfectly drained and conventional sprinkler irrigation. During the 2017–2020 growing seasons, WTD was monitored on an hourly basis, while precipitation was measured at each site. Multi-frequential periodogram analysis revealed a dominant periodic component of 40 days each year in WTD fluctuations for the Bottom and Surface systems; for the Natural system, periodicity was heterogeneous and ranged from 2 to 6 weeks. Temporal cross correlations with precipitation show that for almost all the sites, there is a 3 to 9 h lag before WTD rises; one exception is a subirrigation site. These results indicate that automatic water table management based on continuously updated knowledge could contribute to integrated water management systems, by using precipitation-based models to predict WTD.

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