The challenge of implementing integrated water resources management (IWRM) in the Lower Okavango River Basin, Ngamiland district, Botswana.

Kgomotso, Phemo Karen

January 2005

Water resources management practice has undergone changes in management approaches and principles over time. It was previously characterised by what scholars refer to as the hydraulic mission where ‘extreme engineering’ was the order of the day (Allan, 2003). As Radif (1999) argues, water resources managers and policy makers were initially driven to manage and supply water to people for its direct use / these included drinking, growing food, and providing power for domestic and industrial use. This modus operandi continued until the end of the 1970s. Over two decades later, this focus is still prevalent in many countries in southern Africa including Botswana. As Swatuk and Rahm (2004) state, “augmenting supply is a continuing focus of government activity”. The National Water Master Plan (NWMP) is the current policy document guiding water resources management in Botswana and it focuses on supply-side interventions in response to increasing water demand. According to SMEC et al. (1991), the consulting company that conducted the NWMP study, “the investigation and studies... indicated the need for the continuing development of water supplies throughout Botswana over the next 30 years”. Based on these observations, government has developed significant human and technical capacity in exploiting both surface and groundwater resources (Swatuk and Rahm, 2004).

Understanding and modelling of surface and groundwater interactions

Tanner, Jane Louise

January 2014

The connections between surface water and groundwater systems remain poorly understood in many catchments throughout the world and yet they are fundamental to effectively managing water resources. Managing water resources in an integrated manner is not straightforward, particularly if both resources are being utilised, and especially in those regions that suffer problems of data scarcity. This study explores some of the principle issues associated with understanding and practically modelling surface and groundwater interactions. In South Africa, there remains much controversy over the most appropriate type of integrated model to be used and the way forward in terms of the development of the discipline; part of the disagreement stems from the fact that we cannot validate models adequately. This is largely due to traditional forms of model testing having limited power as it is difficult to differentiate between the uncertainties within different model structures, different sets of alternative parameter values and in the input data used to run the model. While model structural uncertainties are important to consider, the uncertainty from input data error together with parameter estimation error are often more significant to the overall residual error, and essential to consider if we want to achieve reliable predictions for water resource decisions. While new philosophies and theories on modelling and results validation have been developed (Beven, 2002; Gupta et al., 2008), in many cases models are not only still being validated and compared using sparse and uncertain datasets, but also expected to produce reliable predictions based on the flawed data. The approach in this study is focused on fundamental understanding of hydrological systems rather than calibration based modelling and promotes the use of all the available 'hard' and 'soft' data together with thoughtful conceptual examination of the processes occurring in an environment to ensure as far as possible that a model is generating sensible results by simulating the correct processes. The first part of the thesis focuses on characterising the 'typical' interaction environments found in South Africa. It was found that many traditional perceptual models are not necessarily applicable to South African conditions, largely due to the relative importance of unsaturated zone processes and the complexity of the dominantly fractured rock environments. The interaction environments were categorised into four main 'types' of environment. These include karst, primary, fractured rock (secondary), and alluvial environments. Processes critical to Integrated Water Resource Management (IWRM) were defined within each interaction type as a guideline to setting a model up to realistically represent the dominant processes in the respective settings. The second part of the thesis addressed the application and evaluation of the modified Pitman model (Hughes, 2004), which allows for surface and groundwater interaction behaviour at the catchment scale to be simulated. The issue is whether, given the different sources of uncertainty in the modelling process, we can differentiate one conceptual flow path from another in trying to refine the understanding and consequently have more faith in model predictions. Seven example catchments were selected from around South Africa to assess whether reliable integrated assessments can be carried out given the existing data. Specific catchment perceptual models were used to identify the critical processes occurring in each setting and the Pitman model was assessed on whether it could represent them (structural uncertainty). The available knowledge of specific environments or catchments was then examined in an attempt to resolve the parameter uncertainty present within each catchment and ensure the subsequent model setup was correctly representing the process understanding as far as possible. The confidence in the quantitative results inevitably varied with the amount and quality of the data available. While the model was deemed to be robust based on the behavioural results obtained in the majority of the case studies, in many cases a quantitative validation of the outputs was just not possible based on the available data. In these cases, the model was judged on its ability to represent the conceptualisation of the processes occurring in the catchments. While the lack of appropriate data means there will always be considerable uncertainty surrounding model validation, it can be argued that improved process understanding in an environment can be used to validate model outcomes to a degree, by assessing whether a model is getting the right results for the right reasons. Many water resource decisions are still made without adequate account being taken of the uncertainties inherent in assessing the response of hydrological systems. Certainly, with all the possible sources of uncertainty in a data scarce country such as South Africa, pure calibration based modelling is unlikely to produce reliable information for water resource managers as it can produce the right results for the wrong reasons. Thus it becomes essential to incorporate conceptual thinking into the modelling process, so that at the very least we are able to conclude that a model generates estimates that are consistent with, and reflect, our understanding (however limited) of the catchment processes. It is fairly clear that achieving the optimum model of a hydrological system may be fraught with difficulty, if not impossible. This makes it very difficult from a practitioner's point of view to decide which model and uncertainty estimation method to use. According to Beven (2009), this may be a transitional problem and in the future it may become clearer as we learn more about how to estimate the uncertainties associated with hydrological systems. Until then, a better understanding of the fundamental and most critical hydrogeological processes should be used to critically test and improve model predictions as far as possible. A major focus of the study was to identify whether the modified Pitman model could provide a practical tool for water resource managers by reliably determining the available water resource. The incorporation of surface and groundwater interaction routines seems to have resulted in a more robust and realistic model of basin hydrology. The overall conclusion is that the model, although simplified, is capable of representing the catchment scale processes that occur under most South African conditions.

Groundwater -- South Africa

Water-supply -- Management

Integrated water development

Hydrogeology

Water -- Analysis

Groundwater -- Management

Watersheds -- South Africa

Hydrologic models

Challenges of water supply management : a case of Umdoni Local Municipality, Kwa-Zulu Natal-South Africa

Gumbi, Ntokozo

January 2017

Thesis (M. Dev.) -- University of Limpopo, 2017 / The aim of the study was to examine the challenges of water supply management in Umdoni Local Municipality. Two methods were employed to collect data in the study. The first method involved one-on-one interviews with the participants. An interview guide was used to obtain data pertaining water supply services from a water services manager, a municipal manager and ten (10) ward councillors. The second method entailed analysis of documents within the municipality. In this study findings were based on issues such as prioritization of effective water supply for Umdoni Local Municipality, community consultation and participation, addressing capacity constrains in the Municipality such as human resources, water service infrastructure and skills development. The underlying causes of the water supply problems are based on the basic infrastructure, provision of water supply being very poor and dismal across the area. Water serves as a basic need to which everybody has the right to access, however, water supply is unfortunately disrupted by many factors. The findings in this study shows that poor water supply emanates from many factors such as management skills, technical challenges and illegal connections. This study recommends that Umdoni Local Municipality has additions of water plants, building of new reservoirs and upgrades of water pipes, especially in Amahlongwa area as it needs urgent attention.

Potable water

Free basic water

Water management

Water-supply -- Management

Water conservation and water demand management pilot project: the case of Newcastle Municipality

Dube, Sandile Bonga

January 2017

A research report submitted to the Faculty of Engineering and the Built Environment, University of the Witwatersrand, Johannesburg, in partial fulfilment of the requirements for the degree of Master of Science in Engineering, 2016 / The Newcastle Local Municipality (NLM) has been experiencing water supply interruptions since 2010 due to high demand. Between June 2011 to December 2011, water losses ranged from 49% to 62% (about 23 to 30 megalitres per day) in Madadeni and Osizweni townships (Newcastle East). The suburban areas (i.e. Newcastle West) also experienced water interruptions due to collapsing and/or aging infrastructure. About a thousand households in Madadeni were involved in this study to find the cause of the high water losses. Awareness campaigns, repairing household leaks, installation of intelligent meters and the increase of free basic water in indigent households from 6kℓ to 12kℓ per month reduced water losses from about 246 kℓ to 177kℓ per month. If similar Water Conservation (WC) and Water Demand Management (WDM) could be rolled out to the 35 000 households in the NLM and similar results to those in Madadeni are attained, conservative water saving of about 21Mℓ per day could be achieved. This would reduce the demand on the Ngagane Water Treatment Works (WTW) by 20%. / CK2018

Water-supply--South Africa--Management

Municipal water supply--South Africa

Water-supply--South Africa

Municipal water supply--Management

Adaptive Water Management Concepts: Principles and Applications for Sustainable Development

Edalat, F.D., Abdi, M. Reza

January 2017

No / his book explores a new framework of Adaptive Water Management (AWM) for evaluating existing approaches in urban water management. It highlights the need to adopt multidisciplinary strategies in water management while providing an in-depth understanding of institutional interactions amongst different water related sectors. The key characteristics of AWM i.e. polycentric governance, organisational flexibility and public participation are investigated and described through a critical review of the relevant literature. The book presents an empirical case study undertaken in a selected developing-country city to investigate the potential gaps between the current water management approaches and possible implementation of AWM. Feasibility of AWM operations is examined in an environment surrounded by established water management structure with centralised governance and an institutional process based on technical flexibility. The key elements of AWM performance are (re)structured and transformed into decision support systems. Multi criteria decision models are developed to facilitate quantification and visualization of the elements derived from the case study, which is involved with water companies and water consumers. The book describes how the concept of AWM, along with structuring suitable decision support systems, can be developed and applied to developing-country cities. The book highlights the barriers for applying the AWM strategies that include established centralised decision making, bureaucratic interactions with external organisations, lack of organisational flexibility within the institutions, and lack of recognition of public role in water management. The findings outline that despite the lack of adaptability in the current water management in the case study, as an example of developing countries, there are positive attitudes among water professionals and the public towards adaptability through public-institutional participation.

Water management

Sustainable development

Water consumption management

Decision support system

Analytical hierarchical process

Water supply management

Water demand management

Integrated water resources management

Impact of climate change on fresh water resources of Elliot town in the Eastern Cape

Ndlela, Bekithemba

11 1900

Climate change and variability have great impact on the hydrological cycle and consequently on the availability of water resources. Variations in temperature and precipitation trends that are occurring are a consequent of the increase in the concentrations of greenhouse gases, which are subsequently affecting the hydrological cycle. This in turn affects water quantity and quality, which is essential for agriculture, domestic and industrial uses. This study, done in Elliot Town and the surrounding areas of Sakhisizwe Municipality in the Eastern Cape Province of South Africa, evaluates how climate change and variability is affecting water availability and its quality in the town. The impact climate change and variability on agricultural production is also assessed. Remote Sensing, Geographic Information Systems (GIS), databases and some statistical packages have been used to collect, analyse and create spatial maps used to derive concrete conclusions. The methods used aided in spatially analysing the changes in temperature and rainfall along the years and make a comparative analysis. The study has shown that the spatial changes in the amount, intensity and frequency of rainfall affects the magnitude and frequency of stream flows; consequently, increasing the intensity of floods and droughts that have been recurring in the last few decades. The municipality is more affected by climate variability than change, and the resultant extreme climate events are affecting the water resources resulting in domestic water cuts, poor water quality and low agriculture productivity. This study recommends the importance of an awareness campaigns on climate change and variability and their effect directed towards the community, especially on novel water harvesting technologies. The study also highlights the importance of a robust early warning system to prepare the community in case of a climate shock, which is an area that needs further research. / Environmental Sciences

Climate change

Climate variability

Rainfall

Temperature,

Water quality

Flooding

Drought

GIS

Remote Sensing

Sakhisizwe Municipality

333.910096875

Examining the representativeness of Georgia's state water plan

Marshall, Amanda Christine

18 November 2010

This thesis provides an analysis of the Georgia statewide regional water planning process; a system deemed to be operating in the adaptive management framework. The principal focus of this analysis is to detail a novel paradigm capable of dynamic response to changing resource demands which stems from adaptive management principles and ensures representativeness. The paradigm extends directly from application of the theories of bounded rationality and adaptive management. Development of the framework is accomplished through application of theory and correlated empirical analysis. Extreme drought conditions signal a punctuated-equilibrium effecting statewide water resource management which in turn drives the issuance of an executive-level directive to prioritize and effectively manage critical state water resources. This study evolves directly from analysis of the current effort to establish unified regional water plans which address rapid population growth, and escalating water resource conflicts with Alabama and Florida while satisfying priorities established within the executive directive. Fundamental to this analysis is the survey of currently seated regional water planning council members. The essential function of the survey is to provide a qualitative assessment of the perceptions of appointed council members. These perceptions influence water management techniques prescribed by the final policy. While this is a fuzzy correlation, a primary function of this analysis is to quantify the strength of correlation between perceptions and developed policy. This survey details appointed council member attitudes and attributes and affords analysis of future decision making outcomes. The method prescribed herein unifies multi-level decision making processes under a dynamic adaptive management paradigm, and is intended to link the regional water planning processes with continuous annual assessment in order to achieve the pluralistic benefits of adaptive management decision making.

Public participation

Collaborative public management

Punctuated-equilibrium theory

Adaptive governance

State water planning

Sustainability

Water policy

Adaptive management

Bounded rationality

Representativeness

Procedural decision-making theory

Water supply Georgia

Decision making

Water supply Management

Investigation of drinking water quality, sanitation-hygiene practices and the potential of indigenous plant seed for water purification in Southeast Ethiopia

Ahmed Yasin Mohammed

07 1900

Background: Access to safe water and sanitation are universal need and basic human right, but the provision of quality water and improved sanitation remains a challenge in many African countries including Ethiopia. Objectives: The study investigated drinking water quality, sanitation-hygiene practices and the potential of Moringa stenopetala seed powder for the purification of water in Bale Zone, Southeast Ethiopia. Methodology: A community-based cross-sectional study was conducted among 422 randomly selected households in Robe and Ginnir Towns. Data were collected by interviewer-administered structured questionnaires from June 2012 to August 2013. An observation checklist was used to observe the sanitary condition of water sources. A total of 71 water samples were collected using sterile glass bottles in accordance with the standard method of American Public Health Association APHA. The physicochemical and bacteriological water quality analyses were done in Addis Ababa Environmental protection and Oromia water and Energy laboratories. The efficiency of Moringa stenopetala seed powder for removal of turbidity, hardness, and nitrate was evaluated. Data were analyzed SPSS Version 21.0 for the window. Descriptive analysis was done for appropriate variables. Logistic regression was used to identify the factors associated with under-five diarrhea. The results were presented using adjusted odds ratio and P-value of < 0.05 was used to declare significance association. Results: From the total sample, 401 respondents participated making a response rate of 95%. More than one third (37.9%) of the respondents were found to use pipe water. Two hundred and eighty (69.8%) of households wash storage containers before refilling and 325 (81%) of households were using separate containers for water storage. Two hundred seventy (67.3%) of the households had pit latrine. Prevalence of childhood diarrhea was found to be 50.1%. From the logistic regression model, those households having access to clean water source are 68% less likely to have under-five diarrhea, the households having clean storage of drinking water are 45% less likely to have under-five diarrhea in their home, and those households having poor latrine sanitation are 68% more likely to have under-five diarrhea in their home. Seed powder of 200mg/l Moringa stenopetala reduced the Nitrate concentration doses from 5.49mg/l to 8.18mg/l, a 75mg/l was reduced the turbidity from 4.49NTU to 1.07 NTU. A total hardness of 427 was reduced by 7.8% after treatment with powder seed of Moringa stenopetala. Conclusion: Prevalence of childhood diarrhea was high and it is associated with lack of access to a clean water source, poor sanitation of drinking water storage and latrine. Prevalence of open field defecation was remarkably high. The iron content of drinking water was above the range of World Health Organization standards. Moringa stenopetala seed powder has efficiency in the reduction of total and faecal coliform, turbidity, hardness and nitrate level in drinking water Recommendation: Health education on water handling, sanitation and low-cost effective water treatment methods like Using Moringa stenopetala seed should be practiced at the household level. / Environmental Sciences / Ph. D. (Environmental Science)

Drinking water quality

Sanitation-hygiene

Water purification

Indigenous plant seed

628.16209632

Water quality management -- Ethiopia

Water – Purification -- Ethiopia

Endemic plants -- Ethiopia

Drinking water -- Analysis

Evaluation of the role of stakeholders in the development of the Water Resource Classification System policy

Thobejane, Matsebe Jerry

04 June 2014

M.A. (Public Management and Governance) / “Water will be the scarce resources in the 21st century.” This vision was brought to the South African Government’s attention after the Water Research Commission (WRC) conducted extensive research as illustrated in the WRC’s Annual report for 2007/8. According to the WRC, the research aimed to enlighten decision and policy makers to take precautionary measures that will help guarantee that water resources are “protected, used, developed, conserved, and managed in a sustainable manner”. Hence, the Department of Water Affairs and Forestry (DWAF) has started developing the Water Resource Classification System to mitigate the anticipated challenge envisioned. Among others, the WRC’s findings guided the development of this policy. On the other hand, the South African Constitution, 1996 states that, “people have the right to environment which is not harmful to the citizen”. Other legislation, such as the National Environmental Management Act (1998), the National Water Act, 1998 and the Water Services Act, 1997 echoed the same sentiment. The National Water Act, 1998 served as basis for a National Water Resources Strategy as a framework to guide the entire Water Resource Classification System policy process (Chapter 2: Part 1 of the National Water Act, 1998. Section 195 (e) of the South African Constitution, 1996, highlights that “people’s needs must be responded to, and the public must be encouraged to participate in the policy making”. Thus, the role of stakeholder participation in the DWAF Water Resource Classification System (WRCS) was chosen as a topic for investigation to inform policy makers as well as to identify policy defects. The research project aimed to evaluate the level of stakeholder participation in developing policy, as well as identifying and assessing the nature, influence and levels of their participation. It was established that broad stakeholder participation was a critical success factor during this policy development process. However, the WRCS was finalised based only on the information gathered from a few stakeholders. It should be noted that when water classification was undertaken the environmental issues were considered in such a way that the classification process does not in one way or another compromise the environment in general and is not detrimental to ecosystems in particular. According to the National Water Act, 1998, water is classified in three categories, namely minimally, moderately and heavily. In other countries water is treated as just another natural resource, but in South Africa water is treated as government’s scarce resource. This study investigated the importance of stakeholder participation as a key to policy development in a democratic state and concluded that better participation would have enhanced citizen ownership and shaping the policy concerned.

Water-supply - Management - South Africa

An investigation and analysis of the incentives and disincentives for conflict prevention and mitigation in the Bureau of Reclamation's water management

Ogren, Kimberly

11 May 2012

This study addresses the question: "What are the incentives and disincentives for conflict prevention and mitigation in the Bureau of Reclamation (Reclamation), and how do they factor into Reclamation's management of water in the western United States?" Incentives and disincentives for conflict prevention (i.e., actions taken to avoid conflict) and mitigation (i.e., actions taken to resolve, manage, or temper a conflictive situation after conflict has occurred) are identified through a survey and focus groups of Reclamation employees. The two dominant disincentives identified are a lack of resources and Reclamation's organizational culture--specifically its reliance on crisis management, water delivery tunnel vision, and being slow to change. Other disincentives include a lack of forward planning, the existence of an acceptable bandwidth or level of conflict, a perception that conflict is unavoidable or entrenched, politics, and limits on acceptable actions associated with the legal authorization of Reclamation projects. Fewer incentives for conflict prevention and mitigation were identified, but include, pressure from higher management, the promotion of collaboration within the Bureau, and a desire to avoid litigation. The institutional analysis and development (IAD) framework offers some insight into how these incentives and disincentives factored into the implementation of the Water2025 Initiative, and Reclamation’s experience with the Middle Rio Grande silvery minnow and the Endangered Species Act. As attributes of the community and rules-in-use, incentives and disincentives such as organizational culture, politics, funding availability, the desire to avoid litigation, the promotion of collaboration within the agency, and a lack of planning effort offer possible explanations of why Reclamation chose to act as it did. / Graduation date: 2012

Water resources

Bureau of Reclamation

Conflict mitigation

Conflict prevention

Incentives

Western United States