Water resources management and Integrated Water Resources Management implementation in Malawi: Status and implications for lake basin management

Many countries, including Malawi, are implementing integrated approaches for the development, management and use of water and other natural resources. Integrated Water Resources Management (IWRM) is, arguably, one approach considered helpful in addressing water issues effectively and sustainably. This study assesses the implementation of IWRM in Malawi to the present time, in relation to the five priority areas the country's Integrated Water Resources Management/Water Efficiency (IWRM/WE) Plan (2008–2012) sought to address, as well as the potential benefits of infusing Integrated Lake Basin Management (ILBM) in this approach. Document reviews, key informant interviews, questionnaire surveys and site visits were the employed methods in this analysis. Considering the significant importance of lakes in the country, this study, through application of the strengths, weaknesses, opportunities and threats framework, provides insight on how lake basin management issues can best be incorporated within the existing IWRM‐based framework to promote the management and utilization of lakes for sustainable use. While acknowledging the relevance of a holistic approach, the study highlights the importance for the country to ensure that its development agenda is not negatively affected in the course of implementing IWRM.     

Integrated flood management.

While there have been a number of international initiatives centred around hydrological sciences and technical approaches, the social, economic, environmental, and legal and institutional aspects of flood management have been dealt with sporadically and in a limited manner. WMO and the Global Water Partnership have established the Associated Programme on Flood Management (APFM) to address these issues and developed a concept of Integrated Flood Management (IFM) in 2002. This article is the result of the integrated flood management approaches through pilot projects and multi-disciplinary approaches launched by the initiative since the establishment of the IFM concept. This approach seeks to integrate land- and water-resources development in a river basin, within the context of Integrated Water Resources Management (IWRM) and aims at maximizing the benefits from floodplains and at the same time reducing loss of life from flooding. This approach identified the key elements of IFM and recommended that these can be put in place by: adopting a basin approach to flood management; adopting a multi-disciplinary approach in flood management; reducing vulnerability to and risks from flooding; enabling community participation; and preserving ecosystems; and addressing climate change and variability, supported by enabling mechanism through appropriate legislation and regulations.     

Water Resources Management and Integrated Water Resources Management (IWRM) in Cameroon

Cameroon is blessed with abundant water resources. Rapid population increase, unplanned urbanisation, intensive industrial and socio-economic development have led to poor and unsustainable management of these resources. Integrated Water Resources Management (IWRM) is a promising approach in ensuring sustainable management of Cameroon’s water resources. It entails management of water for various purposes and not for a single purpose which therefore involves different stake holders aiming at achieving sustainable water resources management. This paper seeks to evaluate recent efforts to implement in IWRM in Cameroon by examining the institutional framework for IWRM in Cameroon, conditions for the implementation of IWRM and proposes reforms for improving IWRM in Cameroon. The paper concludes that reforms such as public participation at local council levels, recognition of water as both an economic and a social good, putting IWRM within the larger context of Integrated Natural Resource Management (INRM) and the exploitation of mathematical models within hydrological basins will improve IWRM in Cameroon.     

The global change of continental aquatic systems: dominant impacts of human activities.

Continental aquatic systems, particularly rivers, are exposed to major changes due to human pressures. Some changes are voluntary such as flow regulation and the fragmentation of river courses, both due to damming, or the water consumption particularly in dry regions, which results in a partial to complete dry-up of some rivers (neo-arheism). Other changes result from indirect impacts of other human activities, and include: sediment unbalance of river systems, chemical contamination, acidification, eutrophication, thermal unbalance, radioactive contamination, microbial contamination, and aquatic species introduction/invasion. These changes can be regarded as syndromes which have now reached a global amplitude, even in less populated regions, as the result of damning, mining and of long-range atmospheric pollution, thus defining a new era, the Anthropocene, where continental aquatic systems are no longer controlled by earth systems processes but by human activities. Each region of the globe has developed specific patterns of syndromes trajectories that can be reconstructed from historical analysis and through environmental archives. These trajectories reveal multiple types of human responses to aquatic environmental issues (e.g. water quality), usually lasting 10 to 50 years for the successful ones. The reactions of the earth system to such major changes of fluxes (water, energy, nutrients, carbon, pollutants) via the continental waterscape, the land-ocean interactions, the water bodies-atmosphere interactions, are likely to take place over a longer time scale (100-1,000 years) yet are poorly addressed by scientists and not considered in Integrated Water Management, particularly as concerns the coastal zone.     

Analytical Support for Integrated Water Resources Management: A New Method for Addressing Spatial and Temporal Variability

This paper discusses the development of an analytical support system for implementation of the Integrated Water Resources Management (IWRM) process. The system integrates four analytical tools: (i) geographic information system; (ii) system dynamics simulation; (iii) agent-based model; and (iv) hydrologic simulation. The choice of tools is driven by their ability to (a) respond to the main requirements of the IWRM and (b) explicitly describe system behaviour as function of time and location in space. The system dynamics simulation captures temporal dynamics in an integrated feedback model that includes sectors representing physical and socioeconomic system components. Management policies established in the participatory decision making environment are easily investigated through the simulation of system behaviour. Agent-based model is used to analyze spatial dynamics of complex physical-social-economic-biologic system. The IWRM support system is tested using data from the Upper Thames River Watershed, Ontario, Canada, in collaboration with the Upper Thames River Conservation Authority.     

Identification of Major Sources of Uncertainty in Current IWRM Practice. Illustrated for the Rhine Basin

Integrated Water Resources Management (IWRM) can be viewed as a complex process in which the effect of adopted water management measures must be monitored and adjusted in an iterative way as new information and technology gradually become available under changing and uncertain external impacts, such as climate change. This paper identifies and characterises uncertainty as it occurs in the different stages of the IWRM process with respect to sources, nature and type of uncertainty. The present study develops a common terminology that honour the most important aspects from natural and social sciences and its application to the entire IWRM process. The proposed framework is useful by acknowledging a broad range of uncertainties regarding data, models, multiple frames and context. Relating this framework to the different steps of the IWRM cycle is helpful to determine the strategies to better handle and manage uncertainties. Finally, this general framework is illustrated for a case study in the transboundary Rhine river basin.     

Firming up the Conceptual Basis of Integrated Water Resources Management

This paper focuses on defining the concept and process of Integrated Water Resources Management (IWRM), and in particular what is being 'integrated'. In the 'natural system' integration traditionally involves land and water; surface water and groundwater; water quantity and quality; and upstream and downstream water-related interests, including the upstream freshwater catchments and the downstream coastal zone. However, equally important, but less traditional, is the integration in the 'human system' involving a holistic institutional approach; mainstreaming water in the national economy; cross-sectoral integration in national policy development; linkages to national security and trade regimes; and involvement of all stakeholders across different management levels.     

Water governance, resilience and global environmental change - a reassessment of integrated water resources management (IWRM).

Integrated Water Resource Management (IWRM) is gaining increased acceptance among water policy makers and researchers as a way to create more effective governance institutions, leading towards integrated water development solutions for poverty alleviation, while addressing social, economic and environmental aspects of water challenges. However, global environmental change poses fundamental challenges to water policy makers as it implies vast scientific, and hence, policy uncertainty; its implications for international water governance initiatives remain unspecified, effectively hindering dialogue on how current IWRM initiatives should be modified. This paper addresses the lag between our growing understanding of resilient interconnected freshwater resources (and their governance) and the reforms being promoted by policy makers. In particular, there is a need to rethink some of IWRM's key components to better tackle the challenges posed by the complex behaviour of interconnected social-ecological systems and global environmental change.     

Integrated Water Resources Management in the Cross River Basin,Nigeria

This paper examines the implementation of Integrated Water Resources Management (IWRM) in the Cross river basin, Nigeria. The Cross River Basin Development Authority (CRBDA) was established in 1976 with a mandate for integrated development, using the abundant water resources available in the region. Thirty years after the creation of the CRBDA, there is still a large gap between the original objectives and the actual delivery of services to meet the needs of the people. A wide range of study methods, including stakeholder meetings, focus group sessions, interviews and observations at village meetings of selected communities was used to examine the implementation of IWRM against the expectations and needs of the people. The paper concludes that IWRM in the Cross river basin (CRB) has not been very successful. This is attributed to a number of institutional factors, including legal, political, administrative and financial obstacles. This paper recommends that IWRM policies in the CRB should be reformed to reflect local circumstances and conditions.     

A Systematic Review of Water Vulnerability Assessment Tools

The important relationship between health and water necessitates consideration of water vulnerability. Water vulnerability is contingent upon biophysical and social drivers operating at multiple scales, and is difficult to assess. This paper offers a systematic review of 50 water vulnerability assessment tools. We identify and synthesise the contents of these assessment tools (710 indicators) into five dimensions and 22 sub-dimensions and consider the extent to which they reflect environmental and social aspects. The findings are discussed in light of a holistic approach to water resources management, and specifically Integrated Water Resources Management (IWRM). Significant opportunities exist to enhance the efficacy of water vulnerability assessment tools by incorporating indicators and operational measures for social considerations (e.g., adaptation, institutions, governance) that are developed outside the context of water.     

Web Based Meta-database and its Role in Improving Water Resources Management in the Mediterranean Basin

Water is a very crucial natural resource in the world and because of its selective availability among different countries; it will be the most precious commodity in the future. In the Mediterranean basin one can find a mosaic of countries rich in water and others poor. However, the common issue for all these countries is how to improve water resources management. NOSTRUM-DSS [Network on Governance, Science and Technology for Sustainable Water Resources Management in the Mediterranean. The role of DSS (Decision Support System) tools. Contract 509158. August 2004–August 2007], which is a co-ordination action funded by the European Commission under the Sixth Framework Program, aims to contribute to the achievement of improved governance and planning in the field of sustainable water management. In order to achieve this goal, DSS tools which can ease the problem of accessing information about an Integrated Water Resource Management (IWRM) for decision makers, scientific community, and other organizations must be created. An online database is one of these tools which can help in creating an IWRM. This tool can reduce information redundancy, eliminate unneeded expenses, and create regional cooperation in the area of water resources management. In this paper a new Web based meta-database about climate, remote sensing, and Geographic Information System (GIS) related to water resources management is introduced, and its role in improving water resources management is discussed.     

Bridging parallel discourses of Integrated Water Resources Management (IWRM): institutional and political challenges in developing and developed countries

This paper provides a comparative review of the literature on the institutional challenges and politics of IWRM, in relation to the EU's Water Framework Directive (WFD). It reveals two parallel debates with little interaction. The extent to which IWRM is actually addressed in the WFD literature is questioned, as is the assumption that developing countries can learn from WFD experiences. Finally, the mutual benefits of connecting these parallel discussions are demonstrated, especially in terms of encouraging greater sensitivity to the contingencies and complexities of water management.     

Pushing the Governance Boundaries: Making Transparent the Role of Water Utilities in Managing Urban Waterways

Integrated Water Resource Management (IWRM) requires simultaneous consideration of the multiple benefits that attend water. IWRM can also be more challenging in regulatory environments where the resource manager must justify choices and elements of each intervention. This is particularly challenging in the context of urban waterways that have many uses including an ecological function and a source of human amenity. To justify expenditure on maintaining and improving urban waterways for ecological and/or amenity changes regulated utilities must be able to articulate and measure these types of values with at least some degree of precision. This paper presents a generic and systematic framework for understanding the ecological and amenity values of urban waterways. We illustrate deployment of the framework in the case of Melbourne, one of Australia’s fastest growing cities and a location ranked as amongst the most liveable since 2011. We also explore how the results could improve the way we measure benefits in dollar terms.     

Mathematical Modelling for the Integrated Management of Water Resources in Hydrological Basins

Mathematical models are tools that can facilitate the instrumentation of the Integrated Water Resources Management (IWRM). The first basin models to be developed were completely hydrological; today, due to the urgent need to plan the sustainable use of water resources, new models are needed that in addition to hydrology also incorporate social, economic, legal, environmental and other aspects. The objective of this work was to identify the characteristics that mathematical basin models must have in order to satisfy the requirements of IWRM. To achieve this, the conclusions of the main international conferences on water and the environment were analyzed; these were conferences in which IWRM was promoted as a strategy to face the challenges of both sectors. IWRM considers social participation as a key element in the decision-making process; consequently, the models must be accepted and applied, and their results interpreted, by those who participate in the process even if they are not modelling experts. This requires a change of perspective in the scientific community for the development of new IWRM models, in government institutions regarding their role as water administrators, and in water stakeholders regarding their role as decision-makers. The results of the analysis indicate that models for IWRM must be accessible to non-expert users, integrate different viewpoints, representing adequately the problem to be solved, in addition be flexible and have a structure focused on practical solutions.     

Management Implications to Water Resources Constraint Force on Socio-economic System in Rapid Urbanization: A Case Study of the Hexi Corridor,NW China

As water has become the shortest resources in arid, semi-arid and rapid urbanization areas when the water resources utilization has approached or exceeded its threshold, water resources system slows down the socio-economic growth rate and destroys the projected targets to eradicate poverty and realize sustainable development. We put forward the concept of Water Resources Constraint Force (WRCF) and constructed a conceptual framework on it. Conceptual models on the interactions and feedbacks between water resources and socio-economic systems in water scarce regions or river basins indicate that, if the socio-economic system always aims at sustainable development, WRCF will vary with a normal distribution curve. Rational water resources management plays an important role on this optimistic variation law. Specifically, Water Demand Management (WDM) and Integrated Water Resources Management (IWRM) are considered as an important perspective and approach to alleviate WRCF. A case study in the Hexi Corridor of NW China indicates that, water resources management has great impact on WRCF both in Zhangye and Wuwei Region, and also the river basins where they are located. The drastic transformation of water resources management pattern and the experimental project – Building Water-saving Society in Zhangye Region alleviated the WRCF to some extent. However, from a water resources management view, WRCF in Zhangye Region still belongs to the severe constraint type. It will soon step into the very severe constraint type. In order to shorten the periods from the very severe constraint type finally to the slight constraint type, WDM and IWRM in the Hei River Basin should be improved as soon as possible. However, in the Shiyang River Basin, WRCF belongs to the very severe constraint type at present due to poor water resources management in the past. Though the socio-economic system adapted itself and alleviated the WRCF to some extent, the Shiyang River Basin had to transform the water supply management pattern to WDM, and seek IWRM in recent years. It is concluded that WDM and IWRM is a natural selection to alleviate the WRCF on the socio-economic system and realize sustainable development.     

Das Makrozoobenthos als Indikatorgruppe zur Bewertung großer Flüsse unter Einbeziehung auenökologischer Aspekte

With the guideline 2000/60/EG, which called for the creation of a framework on water policy, the environmental policy of the European Community took on a new dimension. The goal of the guideline is (among others) the creation of a framework for the protection of inland surface waters, transitional waters, coastal waters and groundwater in order to avoid their deterioration; and to protect and improve the status of aquatic ecosystems, their associated land ecosystems directly dependent on them, and wetlands in terms of their water budget. Thanks to various forms of use, e.g. hydropower production, flood protection and ship traffic, especially major European rivers like the Danube, Rhine and Elbe have changed massively from their original typological characteristics. Reference conditions are hardly anywhere to be found, many native species are now extinct, and river biotopes are often dominated by invasive species. The size and depth of these rivers also pose challenges in terms of taking samples, and it has also become apparent that all methods currently used to assess rivers’ ecological status focus solely on the main channels; the various habitats to be found in large rivers’ riparian systems aren’t taken into account. However, there is international consensus that these systems are key elements in rivers’ processes and biodiversity, and as such are significant for the continuing functionality of major rivers. In the context of an Austrian Ministry of Life-funded research project, the Institute of Hydrobiology and Aquatic Ecosystem Management’s Working Group on Benthic Ecology and Ecological Status Assessment, together with the University of Vienna and the Environment Agency Austria, is currently working to develop a practice-oriented riparian zone index based on macrozoobenthos as an indicator of quality. To date, Europe has no Water Framework Directive-compliant assessment systems for riparian zones. Given the fact that established methods are limited to river’s main channels, precluding a holistic view of and approach to river ecosystems, this project represents a pioneering work in the field of European water resource management.     

Integrated modelling of nitrate loads to coastal waters and land rent applied to catchment-scale water management.

The EU Water Framework Directive (WFD) requires an integrated approach to river basin management in order to meet environmental and ecological objectives. This paper presents concepts and full-scale application of an integrated modelling framework. The Ringkoebing Fjord basin is characterized by intensive agricultural production and leakage of nitrate constitute a major pollution problem with respect groundwater aquifers (drinking water), fresh surface water systems (water quality of lakes) and coastal receiving waters (eutrophication). The case study presented illustrates an advanced modelling approach applied in river basin management. Point sources (e.g. sewage treatment plant discharges) and distributed diffuse sources (nitrate leakage) are included to provide a modelling tool capable of simulating pollution transport from source to recipient to analyse the effects of specific, localized basin water management plans. The paper also includes a land rent modelling approach which can be used to choose the most cost-effective measures and the location of these measures. As a forerunner to the use of basin-scale models in WFD basin water management plans this project demonstrates the potential and limitations of comprehensive, integrated modelling tools.     

The use of models for synthesizing knowledge for integrated lake basin management, and facilitating implementation of the World Lake Vision

Integrated water resources management (IWRM) is becoming increasingly accepted as the most logical and effective means of managing aquatic ecosystems for their sustainable use. Despite efforts to provide practical examples of the application of IWRM, we still lack knowledge on how to best consider and integrate the potentially large quantity of data and information, both scientific and socioeconomic, which must be considered in pursuit of the goal of sustainable water resources. The unique features of (i) an integrating nature; (ii) long water retention time, and (iii) complex response dynamics make the management of lakes and reservoirs particularly difficult to achieve. Although the World Lake Vision has provided substantial management guidance to address some of the complex issues facing lake and reservoir management, additional work directed to analysing the interactions and linkages between the scientific/technical and the socioeconomic components of the sustainability ‘equation’ is needed. This report examines the use of mathematical models as a synthesizing tool in developing and applying management strategies for lakes and reservoirs. The different types of available models, and the criteria that can be used to select the ‘best’ model for a given situation, also are discussed, as is the important role of environmental indicators in the process. A case study focusing on the restoration of Lake Fure in Denmark provides an illustrative example of the application of the approach discussed in this report.     

EU Water Framework Directive vs. Integrated Water Resources Management: The Seven Mismatches

The aim of this paper is to analyze how the EU Water Framework Directive complies with the international principles concerning Integrated Water Resources Management (IWRM) agreed in major conferences. The outcomes of the International Conference on Water and Environment (Dublin, 1992), the Second World Water Forum (The Hague, 2000), the International Conference on Freshwater (Bonn, 2001), and the World Summit on Sustainable Development (WSSD) (Johannesburg, 2002) were compared with the EU Water Framework Directive. Seven notable mismatches were found, even though several EU countries have played a leading role in those conferences. The question arises whether the outcome of these conferences is not efficient enough to influence EU policies—do the conferences just produce collections of idealistic buzzwords or is there a requirement for different principles regarding IWRM for developing countries and developed countries?     

对流域综合管理和水资源综合管理概念的探讨

流域综合管理是系统解决流域性问题的重要手段．但是目前国内外对流域综合管理的概念和内涵尚未达成共识。流域综合管理和水资源综合管理是两个容易让人混淆的概念,通过这两个术语的提出背景和国内外学者对其认识的分析,可以得出它们之间既有区别,又有联系,都为解决流域问题提供了有效的方法和手段。当前,应结合我国流域实际,探索适合我国国情的流域综合管理模式,推进我国流域综合管理的进程,促进流域的可持续发展。