Capacity building for desalination in Jordan: necessary conditions for sustainable water management

In order to balance between financial and social constraints of water and respond to competing for water requirements, it is important to sustain and manage essential water systems. Therefore, this paper aims to evaluate sustainable water management in specific sectors: urban, agricultural, and environmental and addresses questions, such as (1) how is sustainable water management described and assessed? (2) what challenges occur in sustainable water development in different sectors? (3) which aspects/elements of sustainable water developments are important in agricultural and urban water management? and (4) how do different countries improve sustainable water management? Depending on the complexity of water systems, water users and sources of water, techniques for estimating performances of water management can be simple (such as indicator techniques) or complex (such as several models). The techniques are analyzed in this study. The findings from implementing sustainable water management suggest that all water users consider which source of water (e.g., usable and reusable) is more suitable to use. They also state that increasing agricultural water use efficiency can significantly reduce total water consumption, which can lead to global food security. In addition, results showed that the level of local infrastructure conditions and financial capabilities are more important in sustainable water management than is the level of regional development.

This research aims to explore the feasibility of adopting urban symbiosis for sustainable urban water reduction and management through a bibliometric analysis of key literature. A Scopus-based systematic review was conducted to analyse journal articles related to urban symbiosis, water management, and water reduction, with a focus on their intersection towards achieving sustainability. The outcomes of the systematic review were analysed using bibliometric techniques to examine the evolution of publications, identify leading journals, and determine the authors and countries which have published the most papers on the topic. The research also conceptualised the benefits, barriers, and enablers associated with adopting urban symbiosis for water reduction and management. The findings of this study contribute to a deeper understanding of the potential implications and practical implications of urban symbiosis in the context of sustainable water management. The study contributes to the knowledge of the potential of urban symbiosis in addressing the challenges of water management in urban areas and gives insights to policymakers, urban planners, and practitioners interested in implementing sustainable water management practices in urban areas.

Sustainable urban water management is an increasingly important socio-political objective, however implementation remains ad hoc. While numerous tools and technologies have been developed to achieve sustainable urban water management, significant socio-institutional barriers remain. These impediments include, among others, institutional fragmentation, poor political leadership and technological lock-in. Exacerbated by a lack of theory and conceptual frameworks to link sustainable urban water management principles with on-ground execution, these barriers contribute to low levels of system-wide implementation capacity. Institutional capacity building is advocated in the sustainable urban water literature as a strategy to facilitate implementation; however, institutional capacity building has limited ability to provide an overview of regime operation, considered critical for enabling system-wide change. Focusing on processes, actor agency and institutions, the field of governance studies provides a useful perspective for understanding holistic regime operation and change. Yet the environmental governance literature remains contested; many scholars support a network or market governance approach while others advocate for hybrid approaches. Moreover, the governance systems needed for enabling sustainable urban water management have been given limited attention. Therefore, the purpose of this thesis is to develop a guiding framework for sustainable urban water governance. Through an emergent research design, systematically drawing on the perspectives of scholars and leading Australian urban water sustainability practitioners, likely attributes of a sustainable urban water management regime were identified. The attributes were focused through the lens of individual, organisational, inter-organisational relationships, and administrative and regulatory regime components. A comparison of the scholarly and practitioner perspectives, together with governance, regime and institutional literatures, explored which governance modes are most likely to enable sustainable urban water management. Overall, this investigation revealed a suite of likely sustainable urban water management regime attributes that are substantially different from traditional and contemporary practice highlighting the considerable regime change required to enable sustainable urban water management. The scholars supported a network governance approach, similar to current adaptive governance and conceptual scholarly urban water management projections, with interdependent actor relations and largely informal administrative arrangements. In comparison, the practitioners advocated hybrid governance arrangements comprising hierarchical and network modes, including a formal administrative framework, with mutually dependent and interconnected actor relationships to facilitate implementation of site specific sustainable urban water management solutions. Both scholars and practitioners supported using a variety of policy instruments, including market governance instruments. The outcomes of this investigation suggest the hybrid governance approach supported by practitioners extends current scholarship by providing detailed information on regime attributes and operation, which can provide insight for practical implementation of network governance approaches which are supported in current urban water management and adaptive governance literature. Additionally, the hybrid approach offers suggestions for successfully integrating the three ideal governance modes and reducing potential tension among the modes. In practice, the proposed framework could be used to design capacity building programs and policy initiatives drawing on mixed governance approaches. To extend this research and improve insight into regime operation and governance dynamics, future research testing the tentative sustainable urban water governance framework in other locations is required.

Smart water management, driven by the integration of photovoltaic (PV)- powered pumps and the Internet of Things (IoT), represents a revolutionary approach to address the challenges of sustainable water resource management. This chapter explores the concept of "Smart Water Management: PV-Powered Pumps and IoT Integration," highlighting the transformative potential of combining solar energy with intelligent data-driven decision-making in water pumping systems. The chapter begins by tracing the evolution of water management practices, emphasizing the need for more sustainable and efficient approaches in the face of increasing water demands, population growth, and climate change. According to the United Nations World Water Development Report 2021, an estimated 2.2 billion people lack access to safely managed drinking water services, underscoring the urgency of sustainable water management solutions. It then focuses on the advantages of PV-powered pumps over conventional fossil fuel-based alternatives, including reduced carbon emissions, cost- effectiveness, and energy independence. Advancements in PV technology and its potential applications in smart water management are also discussed. The World Health Organization estimates that around 485,000 people die each year from diarrhea, primarily due to unsafe drinking water and poor sanitation, highlighting the need for improved water quality monitoring and management. The pivotal role of the Internet of Things in smart water management is explored, highlighting how IoT integrationelevates water pumping systems to new levels of intelligence and efficiency. Real- time data collection, remote monitoring, predictive maintenance, and adaptive control mechanisms empower stakeholders with valuable insights for optimizing water usage and ensuring system reliability. Efficient water distribution and consumption, critical elements of smart water management, are addressed through IoT-enabled sensors and data analytics. Case studies demonstrate successful implementations of IoT-driven smart water distribution projects across various sectors. The chapter also delves into how IoT- enabled water quality monitoring enhances safety and supports environmental conservation efforts. Smart water management's impact on resilience and disaster management is examined, showcasing its ability to facilitate rapid response and recovery during emergencies. A study by the International Energy Agency (IEA) indicates that the deployment of solar PV for water pumping applications has the potential to save around3.6 billion liters of diesel fuel and avoid nearly 10 million tonnes of CO2emissions annually by 2030.Furthermore, the integration of PV-powered pumps with urban infrastructure and smart grids is explored to optimize water resources and enhance sustainable urban water management. The United Nations projects that by 2050, 68% of the world's population will reside in urban areas, further exacerbating water challenges. Smart water management powered by PV and IoT technologies offers a scalable and efficient approach to address the growing water demands of urbanization. The chapter concludes by discussing the policy and governance aspects necessary for scaling up smart water management practices. Regulatory frameworks, incentives, and public-private partnerships play a crucial role in fostering widespread adoption of PV-powered pumps and IoT integration for sustainable water management. In summary, "Smart Water Management: PV-Powered Pumps and IoT Integration" holds the promise of transforming water management practices. Leveraging solar energy and intelligent data-driven decision-making, smart water management enhances efficiency, conserves water resources, and mitigates environmental impact. Embracing this paradigm shift is vital in ensuring water security and resilience in the face of global water challenges and environmental concerns.

To develop a sustainable and vibrant agricultural sector capable of meeting the food demands of the growing population, freshwater in agriculture must be used efficiently and effectively to ensure sustainable socio-economic development of the economy. Issues such as climate change, land degradation, water pollution and population growth among others will continue to influence sustainable water management and agricultural development in South Africa. The challenge facing South Africa is how to ensure water and food security in the face of recurring droughts, increasing urbanisation and decreasing freshwater resources. South Africa will need to understand the drivers influencing water management and agricultural development to develop improved methods for planning sustainable water management and agricultural development. This study made use of a participatory approach, which provided a valuable platform for the identification of drivers of change, their characteristics and relative importance regarding agricultural water resource management and agricultural development in South Africa through participation. The study identified and analysed 5 clusters and 37 drivers, and their relative importance in influencing water management agricultural development in South Africa. The study found that population growth; education, climate extremes, irrigation technology, land degradation, rainwater harvesting, government support, and land reform, mismanagement of public resources and net agricultural export were among the most influential drivers in agricultural water management. The implication of these results for sustainable agricultural water management is discussed.

The role of UNESCO in sustainable water resources management in the Arab World

Sustainable Water Management in Agriculture under Climate Change

Assessment of employees' perceptions of approaches to sustainable water management by coal and iron ore mining companies

Management based on sustainable approaches increases the resilience of systems in which they are implemented. The following study explores the sustainability and efficiency of water management in the regions of Ukraine and the role of these factors in its resilient development. The study conducts a bibliometric analysis of sources on sustainable water management, a comprehensive assessment of water resource efficiency in the regions of Ukraine, identifies and maps regional differences, and analyzes their dynamics over the period 2016–2020. The assessment shows that almost half of the regions (48.3%) have sufficient water management efficiency, 40.8% are very high, and 10.9% are average. Most regions (79.2%) maintained the same level of water resource efficiency. The Kharkiv region was examined in-depth, revealing higher water losses during transport and municipal/household sectors than the national average. Based on the assessment’s results, a differentiated approach to sustainable water management should be taken, depending on the type of regions. For regions with a very high and sufficient level of water efficiency, strategies to maintain the achieved positions should be implemented, while for regions with an average level of efficiency, strategies to improve the respective indices should be implemented. These research findings and policy recommendations can be utilized to guide policy-makers aiming to enhance the economic mechanism of sustainable water management at regional and national levels and improve their resilience to face the intensifying challenges.

Sustainable water allocation between local food production and protecting watershed health is a priority area in water resource planning in Hawai‘i. This paper employs the multinomial logit model to measure public preferences for water allocation and provides policy recommendations for formulating a sustainable agricultural water management policy. Estimated positive marginal willingness-to-pay (WTP) values of food self-sufficiency, watershed health, and biodiversity richness reflect public desire to invest in sustainable water management. Hence, stakeholder involvement at the watershed level is important for sustainable water management, as water is considered a public trust resource. The social cost of alternative water uses should be incorporated into water policy decisions on water allocation to preserve economic efficiency and ecological sustainability. Water policy and law in Hawai‘i account for social, economic, and ecological concerns in water resource management. This study integrates such concerns and the Public Trust Doctrine into water management policy decisions to benefit water users. Hence, the study findings are crucial for setting priorities in funding and making decisions regarding efficient water allocation for food production and protecting watersheds in Hawai‘i.

Sustainable water management has vital ramifications for people’s societal, economic and environmental future. To advance research in this domain, this article synthesizes the current state of knowledge regarding water resource management in the residential context. The aim of this paper is to identify research gaps and future research directions for residential water management in order to recommend solutions against water scarcity. To that end, this article applies bibliometric analysis and the Antecedents, Decisions and Outcomes (ADO) framework to the literature on residential sustainable water management. We reviewed the most impactful journals, most frequently cited articles, keyword trends and density-centrality maps. The in-depth analysis on 114 articles underscored three orientations for residential water usage and management: urban, household and consumer. Based on this analysis, we were able to identify the significant topics that structure this research field, as well as research gaps and future directions.

Sustainable water resources management is increasingly recognized as a critical challenge where effective solutions depend not only on public policies, but also on the active participation of local communities. The review utilized a structured methodology, including the PICOC and PRISMA approaches, to analyze relevant literature published from 2010 to 2024. The findings highlight that community participation empowers local stakeholders, fosters responsibility, and integrates both traditional and scientific knowledge for adaptive water management. Furthermore, inclusive water governance frameworks that promote transparency and cooperation among various stakeholders are critical for equitable and effective resource management. Challenges to implementing these strategies include limited access to information, technical capacity, and resistance from some sectors to relinquish control. The review concludes that overcoming these obstacles requires stronger political commitment, capacity building, and the development of regulatory frameworks that support community rights and inter-institutional cooperation.

A holistic approach to embracing the United Nation's Sustainable Development Goal (SDG-6) towards water security in Pakistan

Mbay City is a lowland city flanked by rows of mountains and agricultural rice fields. This barren mountain range causes rainwater mostly flow towards the urban lowlands, as flood. The city of Mbay which consists of 3 different regional groups, namely mountains-lowlands-rice fields, encourages a sustainable water supply and management with an eco-hydraulic concept. First, it is necessary to understand the terms eco-hydraulics, sustainable water management and sustainable water supply as well. Furthermore, we can find the right innovation to handle the three distinctive areas of the different Mbay cities. Mountain areas need water conservation that applies ecological concepts, while urban plains need hydraulic handling to drain flood water from the city, and rice fields also need ecological handling so that rice fields are protected from overflowing sea water when high tide occurs. Finally, it can be said that the integrated handling of ecology and hydraulics concepts has made the city of Mbay able to manage and supply water in a sustainable manner.

This study was conducted to find the distribution pattern of the Batanghari River water pollution, to find out the status of water quality in terms of the value of the Batanghari River Pollution Index (IP), and to analyze the Batanghari River water management strategy which is sustainable. Determining the distribution patterns of the contamination by analyzing the test results of Batanghari River water quality parameters was conducted by the Environment Agency Jambi. The determination of the status of the water quality is done by using the calculation method Pollution Index (IP) and comparing it to the water quality standard for class I as a source of raw drinking water of Governmental Regulation No 82/2001. The formulation of the strategy of sustainable water management Batanghari River used the SWOT analysis. Batanghari River water flowing from upstream to downstream has decreased quality, as indicated from the parameters of pH, BOD, COD, TSS, Cu, PO4 which exceed the quality standard which has been established. The quality status of Batanghari River water quality is in medium polluted category. So it can be concluded that the water quality of Batanghari River is not suitable for the designation of class 1 as a source of raw drinking water. Thus, it is necessary to implement a strategy for sustainable water quality management of Batanghari River so that the river water can be useful according to its allocation. The sustainable Batanghari River water management strategy that can be carried out is by making Batanghari River as a water tourism area, implementing of the policy on pollution control, increasing knowledge and community participation in the waste management, improving supervision and guidance of water waste disposal, making communal and home industry wastewater treatment and determining the pollution load capacity.