Water diplomacy focuses on establishing novel solutions founded on a scientific basis and sensitive to societal constraints to a wide range of water problems. [1] [2] Tools of water diplomats include environmental policy, water management strategy, and engineering solutions and are applied within the context of the individual water problem at the appropriate scale. [1] [3]
Water problems involve stakeholders such as agriculture and industry, urban developers and environmental conservationists competing for the limited and common resource of available water. [1] These problems also cross physical, disciplinary, and jurisdictional boundaries. [1] [4] [5] Because of these competing needs and objectives, it is difficult to find acceptable solutions to water problems. [4] Recognizing that women are disproportionally affected by water supply and quality issues, there is increasing attention worldwide to including women in water diplomacy. [6] [7] Training and capacity building programs for water professionals in developing regions are intended to develop skills to help resolve unaligned interests. [8]
The “Water 2100” approach, differing from other tools used in water politics and traditional diplomacy, is to examine problems as an interconnected grouping of natural and societal domains in which competition and feedbacks occur between variables. The natural constraints of quantity, quality, and ecosystem needs interact with societal domain variables including social values/norms, economy, and governance. This “Water 2100” approach seeks to synthesize scientific and contextual water knowledge into actionable solutions through formulating/framing water problems as questions that can be used to negotiate solutions appropriate to the context and stakeholders for each water dispute. [4]
The virtual water trade is the hidden flow of water in food or other commodities that are traded from one place to another. The virtual water trade is the idea that when goods and services are exchanged, so is virtual water. Virtual water trade allows a new, amplified perspective on water problems: In the framewond balancing different perspectives, basic conditions, and interests. Analytically, the concept enables one to distinguish between global, regional, and local levels and their linkages. However, the use of virtual water estimates may offer no guidance for policymakers seeking to ensure that environmental objectives are being met.
A modeling language is any artificial language that can be used to express data, information or knowledge or systems in a structure that is defined by a consistent set of rules. The rules are used for interpretation of the meaning of components in the structure Programing language.
Development communication refers to the use of communication to facilitate social development. Development communication engages stakeholders and policy makers, establishes conducive environments, assesses risks and opportunities and promotes information exchange to create positive social change via sustainable development. Development communication techniques include information dissemination and education, behavior change, social marketing, social mobilization, media advocacy, communication for social change, and community participation.
In planning and policy, a wicked problem is a problem that is difficult or impossible to solve because of incomplete, contradictory, and changing requirements that are often difficult to recognize. It refers to an idea or problem that cannot be fixed, where there is no single solution to the problem; and "wicked" denotes resistance to resolution, rather than evil. Another definition is "a problem whose social complexity means that it has no determinable stopping point". Moreover, because of complex interdependencies, the effort to solve one aspect of a wicked problem may reveal or create other problems. Due to their complexity, wicked problems are often characterized by organized irresponsibility.
A water supply network or water supply system is a system of engineered hydrologic and hydraulic components that provide water supply. A water supply system typically includes the following:
The International Institute for Applied Systems Analysis (IIASA) is an independent international research institute located in Laxenburg, near Vienna in Austria, founded as an East-West scientific cooperation initiative during the Cold War. Through its research programs and initiatives, the institute conducts policy-oriented interdisciplinary research into issues too large or complex to be solved by a single country or academic discipline. These include climate change, energy security, population aging, and sustainable development. The results of IIASA research and the expertise of its researchers are made available to policymakers worldwide to help them make informed and evidence-based policies.
IHE Delft Institute for Water Education is the largest international graduate water education facility in the world and is based in Delft, Netherlands. Delft is a world renowned knowledge centre on water infrastructure, technology and sciences, and attracts high-level students and scientists from around the globe. IHE Delft cooperates with Delft, the water knowledge city, and water related institutes based in Delft. The Institute confers fully accredited MSc degrees, and PhD degrees together with partners in the Netherlands. Since 1957 the Institute has provided graduate education to more than 23,000 water professionals from over 190 countries, and is a flagship institute in the UN-Water family.
The Stockholm Environment Institute (SEI) is an international research organization focusing on the issue of sustainable development. SEI has its headquarters in Stockholm with a network structure of permanent and associated staff worldwide and with centres the US, York (UK), Oxford (UK), Tallinn (Estonia), and Bangkok (Thailand).
Natural resource management (NRM) is the management of natural resources such as land, water, soil, plants and animals, with a particular focus on how management affects the quality of life for both present and future generations (stewardship).
Presented annually since 1991, the Stockholm Water Prize is an award that recognizes outstanding achievements in water related activities. Over the past three decades, Stockholm Water Prize Laureates have come from across the world and represented a wide range of professions, disciplines and activities in the field of water.
The Stockholm International Water Institute, SIWI, works globally to change how water is understood, valued and managed.
The STAR-TIDES project is a global knowledge-sharing research network coordinated at the George Mason University (GMU). It is derived from a research project called TIDES which was originally a research effort for the Institute for National Strategic Studies (INSS) at the National Defense University (NDU)--part of the Department of Defense. The STAR-TIDES project promotes sustainable support to stressed populations – post-war, post-disaster, or impoverished, in foreign or domestic contexts, for short-term or long-term (multi-year) operations. The project provides reach-back “knowledge on demand” to decision-makers and those working in the field. It uses public-private partnerships and “whole-of-government” approaches to encourage unity of action among diverse organizations where there is no unity of command, and facilitates both inter-agency and international engagement.
AquaPedia is free, web-based, collaborative self-learning repository of interactive and searchable water case studies from across the planet for information and analysis of water conflicts. It was developed at Tufts University in 2008.
Type II partnerships were developed at the Johannesburg World Summit on Sustainable Development in 2002. Arising in opposition to the state-centred eco-governmentality of previous approaches to sustainable development policy, the partnerships facilitate the inclusion of private and civil actors into the management of sustainable development. The partnerships are employed alongside traditional intergovernmental mechanisms in order to effectively implement the United Nations' Agenda 21 and Millennium Development Goals, particularly at sub-national level. Although widely acknowledged as one of the most innovative and effective developments in global environmental governance in recent years, the partnerships have faced criticism due to fears of a lack of accountability, and the risk that they may exacerbate inequalities of power between Northern and Southern states. Despite these reservations, there is a general consensus among state and non-governmental actors that Type II partnerships are a significantly progressive step in global environmental governance in general, and sustainable development discourse in particular.
The environmental movement has made considerable progress from the first Greenpeace protest involving six people and a boat in 1971, to the environmental conferences of today involving the world’s leaders and commanding global attention. Environmental mega conferences differ from small environmental and sustainability conferences in fundamental ways. Rather than focusing on specific regional problems such as acid rain or ‘sectoral’ problems such as human health or food, they try to take a synoptic overview of the relationship between human society and the natural world. They aim to; “firstly address the overall trajectory of human development and its relationship with the environment as a whole and secondly take a broader view of the complex environment and development issues over a longer time frame, as each summit is preceded by a number of pre-conferences”.
Future Earth is an international research program which aims to build knowledge about the environmental and human aspects of Global change, and to find solutions for sustainable development. It aims to increase the impact of scientific research on sustainable development.
Nature-based solutions is the sustainable management and use of natural features and processes to tackle socio-environmental issues. These issues include for example climate change, water security, food security, preservation of biodiversity, and disaster risk reduction. Through the use of NBS healthy, resilient, and diverse ecosystems can provide solutions for the benefit of both societies and overall biodiversity. The 2019 UN Climate Action Summit highlighted nature-based solutions as an effective method to combat climate change. For example, NBS in the context of climate action can include natural flood management, restoring natural coastal defences, providing local cooling, restoring natural fire regimes.
The Geneva Water Hub is a water research and policy institute headquartered in Geneva, Switzerland. Established by the Swiss Confederation and the University of Geneva it focuses on hydro-diplomacy to prevent and resolve water-related conflicts, conducts water related research, runs education courses and is a think-tank on global water governance and its challenges.
Shafiqul Islam is a Bangladeshi American researcher, academic and author. He is a Professor of Civil and Environmental Engineering and Professor of Water Diplomacy at Tufts University. He serves as the Director of Water Diplomacy. He is also the Founding Editor of the Water Diplomacy Series.
Sustainable Development Goals and Lebanon explains major contributions launched in Lebanon towards the advancement of the Sustainable Development Goals SDGs and the 2030 agenda.
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