Formation | 1985 |
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Type | Nonprofit research organisation |
Location |
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Key people | Dr Mark Smith, Director General; Syon Niyogi, Corporate Services Director |
Parent organization | CGIAR |
Website | www |
Remarks | IWMI won the 2012 Stockholm Water Prize Laureate |
The International Water Management Institute (IWMI) is a non-profit international water management research organisation under the CGIAR with its headquarters in Colombo, Sri Lanka, and offices across Africa and Asia. Research at the Institute focuses on improving how water and land resources are managed, with the aim of underpinning food security and reducing poverty while safeguarding the environment.
Its research focuses on: water availability and access, including adaptation to climate change; how water is used and how it can be used more productively; water quality and its relationship to health and the environment; and how societies govern their water resources. In 2012, IWMI was awarded the prestigious Stockholm Water Prize Laureate by Stockholm International Water Institute for its pioneering research, which has helped to improve agricultural water management, enhance food security, protect environmental health and alleviate poverty in developing countries. [1]
IWMI is a member of CGIAR, a global research partnership that unites organizations engaged in research for sustainable development, and leads the CGIAR Research Program on Water, Land and Ecosystems. IWMI is also a partner in the CGIAR Research Programs on: Aquatic Agricultural Systems (AAS); Climate Change, Agriculture and Food Security (CCAFS); Dryland Systems; and Integrated Systems for the Humid Tropics.
The institute was founded under the name International Irrigation Management Institute (IIMI) in 1985 by the Ford Foundation and the Government of Sri Lanka, supported by the Consultative Group on International Agricultural Research and the World Bank. During the Green Revolution of the 1940s to 1970s, billions of dollars had been spent building large-scale irrigation systems. These contributed, along with new fertilizers, pesticides and high-yielding varieties of seeds, to helping many countries produce greater quantities of food crops. [2] By the mid-1980s, however, these irrigation systems were no longer performing efficiently; IIMI's job was to find out why.
IIMI's researchers discovered that problems affecting irrigation were often more institutional than technical. It advocated ‘Participatory Irrigation Management’ (PIM) as the solution, an approach that sought to involve farmers in water management decisions. In 1992, the Rio de Janeiro Earth Summit gave credence to this approach by recommending that water management be decentralized, with farmers and other stakeholders playing a more important role in managing natural resources. [3] Initially met with resistance, PIM went on to become the status quo for governments and major lending agencies. IIMI became a member of the CGIAR system in 1991.
By the mid-1990s, competition for water resources was rising, thanks to a larger global population, expanding cities and increasing industrial applications. [4] Viewing irrigation in isolation was no longer relevant to the global situation. A new approach was needed that would consider it within a river basin context, encompassing competing users and the environment. IIMI began developing new fields of research, on topics such as open and closed basins, water accounting, multiple-use systems, basin institutions, remote sensing analysis and environmental flows. [5] In 1998, its name changed to the International Water Management Institute (IWMI), reflecting this new wider approach.
Although it was becoming evident that water could no longer be considered an "infinite resource", as had been the case in the 1950s when there were fewer people on the planet, no one knew just how scarce the resource was. This prompted IWMI to try to find out. Its research culminated in publication of Water for food, Water for life: A comprehensive assessment of water management in agriculture . A map within the report showed that a third of the world's population already suffered from ‘water scarcity’. The report defined physical water scarcity, as being where there are insufficient water resources to meet the demands of the population, and economic water scarcity as where water requirements are not satisfied because of a lack of investment in water or human capacity. [6]
IWMI's approach towards defining water scarcity provided a new context within which the scientific debate on water availability subsequently became centred. For example, the theme of the UN World Water Day in 2007 was Coping with Water Scarcity; [7] The USA's Worldwatch Institute featured a chapter on water management in its assessment State of the World 2008; [8] and reports published in 2009 by the World Economic Forum and UNESCO concluded that water scarcity is now a bigger threat than the global financial crisis. [9] Dr. Rajendra K. Pachauri, Chair of the Intergovernmental Panel on Climate Change, also highlighted water scarcity at the 2009 Nobel Conference. [10]
If current trends continue, global annual water usage is set to increase by more than two trillion cubic metres by 2030, rising to 6.9 trillion cubic metres. That equates to 40 per cent more than can be provided by available water supplies. [11] At Stockholm World Water Week 2010, IWMI highlighted a six-point plan for averting a water crisis. According to the institute, the following actions are required: 1) gather high-quality data about water resources; 2) take better care of the environment; 3) reform how water resources are governed; 4) revitalize how water is used for farming; 5) better manage urban and municipal demands for water; and 6) involve marginalized people in water management. [12]
In 2011, IWMI celebrated its 25th anniversary by commissioning a series of essays on agricultural and development.
IWM's work in Gujarat, India, exemplifies how improving water management can have an influence on peoples' livelihoods. The state faced the dual problem of bankrupt electricity utilities and depleted groundwater storage following the introduction of electricity subsidies to farmers from around 1970. The situation arose because the subsidies enabled farmers to easily pump groundwater from ever-increasing depths. The Asian Development Bank and World Bank both indicated that governments should cut the electricity subsidies and charge farmers based on metered consumption of power. However, when some state governments tried to do so, the farmers formed such powerful lobbies that several chief ministers lost their seats. A different solution was clearly required.
IWMI scientists who studied the problem suggested governments should introduce ‘intelligent rationing’ of farm power supply by separating the power cables carrying electricity to farmers from those supplying other rural users, such as domestic households and industries. They should then provide farmers with a high-quality power supply for a set number of hours each day at a price they could afford. Eventually Gujarat decided to include these recommendations in a larger programme to reform the electricity utility. A study conducted afterwards found its impacts to be much greater than anticipated. Prior to the change, tube-well owners had been holding rural communities to ransom by ‘stealing’ power for irrigation. After the cables were separated, rural households, schools and industries had a much higher-quality power supply, which in turn boosted individuals’ well-being. [13]
Agricultural policy describes a set of laws relating to domestic agriculture and imports of foreign agricultural products. Governments usually implement agricultural policies with the goal of achieving a specific outcome in the domestic agricultural product markets.
An agricultural subsidy is a government incentive paid to agribusinesses, agricultural organizations and farms to supplement their income, manage the supply of agricultural commodities, and influence the cost and supply of such commodities.
The only mandated international agricultural research organization is the CGIAR The CGIAR Fund supports 15 international agricultural research centers such as the International Water Management Institute (IWMI), International Rice Research Institute (IRRI), the International Institute of Tropical Agriculture (IITA), the International Livestock Research Institute (ILRI), the International Food Policy Research Institute (IFPRI) and the Center for International Forestry Research that form the CGIAR Consortium of International Agricultural Research Centers and are located in various countries worldwide, The centers carry out research on various agricultural commodities, livestock, fish, water, forestry, policy and management.
CGIAR is a global partnership that unites international organizations engaged in research about food security. CGIAR research aims to reduce rural poverty, increase food security, improve human health and nutrition, and sustainable management of natural resources.
The International Crops Research Institute for the Semi-Arid Tropics (ICRISAT) is an international organisation which conducts agricultural research for rural development, headquartered in Patancheru, Hyderabad, Telangana, India, with several regional centres and research stations . It was founded in 1972 by a consortium of organisations convened by the Ford- and the Rockefeller- foundations. Its charter was signed by the FAO and the UNDP.
Lester Russel Brown is an American environmental analyst, founder of the Worldwatch Institute, and founder and former president of the Earth Policy Institute, a nonprofit research organization based in Washington, D.C. BBC Radio commentator Peter Day referred to him as "one of the great pioneer environmentalists."
The International Food Policy Research Institute (IFPRI) is an international agricultural research center founded in 1975 to improve the understanding of national agricultural and food policies to promote the adoption of innovations in agricultural technology. Additionally, IFPRI was meant to shed more light on the role of agricultural and rural development in the broader development pathway of a country. The mission of IFPRI is to provide research-based policy solutions that sustainably reduce poverty and end hunger and malnutrition.
Water scarcity is the lack of fresh water resources to meet the standard water demand. There are two type of water scarcity. One is physical. The other is economic water scarcity. Physical water scarcity is where there is not enough water to meet all demands. This includes water needed for ecosystems to function. Regions with a desert climate often face physical water scarcity. Central Asia, West Asia, and North Africa are examples of arid areas. Economic water scarcity results from a lack of investment in infrastructure or technology to draw water from rivers, aquifers, or other water sources. It also results from weak human capacity to meet water demand. Many people in Sub-Saharan Africa are living with economic water scarcity.
Water resources are natural resources of water that are potentially useful for humans, for example as a source of drinking water supply or irrigation water. 97% of the water on Earth is salt water and only three percent is fresh water; slightly over two-thirds of this is frozen in glaciers and polar ice caps. The remaining unfrozen freshwater is found mainly as groundwater, with only a small fraction present above ground or in the air. Natural sources of fresh water include surface water, under river flow, groundwater and frozen water. Non-natural or human-made sources of fresh water can include wastewater that has been treated for reuse options, and desalinated seawater. People use water resources for agricultural, industrial and household activities.
Farm water, also known as agricultural water, is water committed for use in the production of food and fibre and collecting for further resources. In the US, some 80% of the fresh water withdrawn from rivers and groundwater is used to produce food and other agricultural products. Farm water may include water used in the irrigation of crops or the watering of livestock. Its study is called agricultural hydrology.
The Basin Focal Projects (BFPs) are a set of CGIAR Challenge Program on Water and Food projects aimed at identifying and catalyzing the implementation of strategic interventions to enhance human and ecological well-being through increases in river basin and local level water productivity.
Deficit irrigation (DI) is a watering strategy that can be applied by different types of irrigation application methods. The correct application of DI requires thorough understanding of the yield response to water and of the economic impact of reductions in harvest. In regions where water resources are restrictive it can be more profitable for a farmer to maximize crop water productivity instead of maximizing the harvest per unit land. The saved water can be used for other purposes or to irrigate extra units of land. DI is sometimes referred to as incomplete supplemental irrigation or regulated DI.
The main causes of water scarcity in Africa are physical and economic water scarcity, rapid population growth, and the effects of climate change on the water cycle. Water scarcity is the lack of fresh water resources to meet the standard water demand. The rainfall in sub-Saharan Africa is highly seasonal and unevenly distributed, leading to frequent floods and droughts.
Crops For the Future, known by its acronym CFF, is an independent international organisation with a mandate to promote and facilitate the greater use of neglected and underutilised crops for enhanced diversification of agricultural systems and human diets, particularly for the benefit of poor people in developing countries. Crops for the Future is the only such organisation exclusively dedicated to an agenda increasingly recognised as important to achieving food security in a sustainable manner and making use of local agricultural biodiversity. Crops for the Future is based in Semenyih, Malaysia, and is governed by a Board of Directors, including a representative of the Government of Malaysia.
Rainfed agriculture is a type of farming that relies on rainfall for water. It provides much of the food consumed by poor communities in developing countries. E.g., rainfed agriculture accounts for more than 95% of farmed land in sub-Saharan Africa, 90% in Latin America, 75% in the Near East and North Africa, 65% in East Asia, and 60% in South Asia.
The Regional Strategic Analysis and Knowledge Support System (ReSAKSS) was established in 2006 and compiles and analyzes information to help design and evaluate rural development strategies and monitor the progress of the Comprehensive Africa Agriculture Development Programme (CAADP). CAADP is a program of the African Union and the New Partnership for Africa's Development (NEPAD), which aims to increase the share of national budgets allocated to agriculture.
The report A Comprehensive Assessment of Water Management in Agriculture was published in 2007 by International Water Management Institute and Earthscan in an attempt to answer the question: how can water in agriculture be developed and managed to help end poverty and hunger, ensure environmentally sustainable practices, and find the right balance between food and environmental security?
Water, Land and Ecosystems is one of several new research programmes approved by the CGIAR during 2011 after an extensive period of consultation that began in 2009. This research programme will draw on the resources of 14 CGIAR and numerous external partners to provide a more integrated approach to research into managing natural resources. The aim of the research programme is to increase agricultural productivity while protecting the environment, so food security is ensured for most of humanity and that poverty becomes history. The five main strands to the programme are: River basins; Irrigation systems; Information systems; Resource reuse and recovery; and Rainfed agriculture systems.
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International Center for Biosaline Agriculture (ICBA) is an international, not-for-profit applied agricultural research center with a unique focus on marginal environments. It identifies, tests and introduces resource-efficient, climate-smart crops and technologies that are best suited to different regions affected by salinity, water scarcity and drought. Through its work, ICBA aims to improve food security, nutrition and livelihoods of resource-poor farming communities around the world.