Water security has been defined as "the reliable availability of an acceptable quantity and quality of water for health, livelihoods and production, together with an acceptable level of water-related risks."[1] Water security exists when water scarcity is non-existent or has been reduced or eliminated from a previous situation, and to the extent that flooding and contamination of freshwater supplies are not a threat. Water security is part of sustainable development, due to its importance in the quality of life of the people of a region. Women, children and older adults are more susceptible to the impacts of insecurity in the provision of water resources.[2].
The areas of the world that are most likely to be water insecure are places with low rainfall, places with rapid population growth in an area with freshwater scarcity, and areas with international competition for a water source.[3] In regions with water security problems and some water scarcity, changes in the local and global environment can lead to more intense legal regulations on water. Countries with high water consumption, such as the United States and China, have various regulations on water use. International and intranational conflicts over water have long been mediated by regulations and treaties, but there are increasingly more conflicts around water management.[4].
Definitions and scale
Water security is achieved when there is enough water for everyone in a region and the water supply is not at risk of disappearing.[3] UN-Water considers both the quantity and quality of accessible water to describe water security. Water must be provided in sufficient quantity to enable sustainable livelihoods and socio-economic development, and must be managed well enough to prevent pollution and water-borne disasters, as well as to preserve water-related ecosystems.[5].
According to the Pacific Institute, "While regional impacts will vary, global climate change will potentially alter agricultural productivity, freshwater availability and quality, access to vital minerals, coastal and island flooding, and more. Among the consequences of these impacts will be challenges to political relationships, realignment of energy markets and regional economies, and security threats."
Water security affects regions, states and countries. Tensions exist between upstream and downstream water users within individual jurisdictions.[6].
Water risk management
Introduction
Water security has been defined as "the reliable availability of an acceptable quantity and quality of water for health, livelihoods and production, together with an acceptable level of water-related risks."[1] Water security exists when water scarcity is non-existent or has been reduced or eliminated from a previous situation, and to the extent that flooding and contamination of freshwater supplies are not a threat. Water security is part of sustainable development, due to its importance in the quality of life of the people of a region. Women, children and older adults are more susceptible to the impacts of insecurity in the provision of water resources.[2].
The areas of the world that are most likely to be water insecure are places with low rainfall, places with rapid population growth in an area with freshwater scarcity, and areas with international competition for a water source.[3] In regions with water security problems and some water scarcity, changes in the local and global environment can lead to more intense legal regulations on water. Countries with high water consumption, such as the United States and China, have various regulations on water use. International and intranational conflicts over water have long been mediated by regulations and treaties, but there are increasingly more conflicts around water management.[4].
Definitions and scale
Water security is achieved when there is enough water for everyone in a region and the water supply is not at risk of disappearing.[3] UN-Water considers both the quantity and quality of accessible water to describe water security. Water must be provided in sufficient quantity to enable sustainable livelihoods and socio-economic development, and must be managed well enough to prevent pollution and water-borne disasters, as well as to preserve water-related ecosystems.[5].
According to the Pacific Institute, "While regional impacts will vary, global climate change will potentially alter agricultural productivity, freshwater availability and quality, access to vital minerals, coastal and island flooding, and more. Among the consequences of these impacts will be challenges to political relationships, realignment of energy markets and regional economies, and security threats."
According to Nature (2010), approximately 80% of the world's population (5.6 billion in 2011) lives in areas with threats to water security. Water security is a shared threat to humans and nature. Human water management strategies can be harmful to wildlife, such as migratory fish. Regions with intensive agriculture and dense populations, such as the United States and Europe, have a major threat to water security. Water is increasingly used as a weapon in conflicts.[7] Water insecurity is always accompanied by one or more problems such as poverty, war and conflict, lack of opportunities for women and environmental degradation.[8] Different researchers estimate that during 2010-2015, approximately $800 billion will be needed to cover the annual global investment in water infrastructure. Good management of water resources can jointly protect biodiversity and human water security. Preserving floodplains rather than constructing flood control reservoirs would provide a cost-effective way to control flooding while protecting the biodiversity of wildlife that occupy those areas.[9].
The term water security encompasses ideas and concepts related to the sustainability, integration and adaptability of water resources management. There are four key areas of focus: increasing economic well-being, improving social equity, moving towards long-term sustainability, and reducing water-related risks.[10] Risks can be further classified as hazards (droughts, floods, and quality deterioration), exposure, and vulnerability.[10] Water security is sometimes pursued through the implementation of water desalination systems, pipelines between sources and users, water licenses with different security levels, and warfare.
Urban water security could be understood from a systems perspective, given its complexity and transversal nature. This involves understanding the types of pressures on the water system (such as climate change and urbanization), the state of the water system (water reserves and flows), the impact of the water system on the provision of water services (such as affordability and availability), and responses (including institutional reforms).[10].
The allocation of water between competing users is increasingly determined by the application of market-based prices for water licenses or actual water.[11].
Fresh water
Water, in absolute terms, is not scarce throughout the planet. But, according to the United Nations water organization, UN-Water, the total supply of usable freshwater for ecosystems and humans is only 200,000. km of water: less than one percent (<1%) of all freshwater resources. Usable freshwater includes water not contaminated or degraded by water-altering chemicals, such as sewage or any other harmful chemicals from previous continuous use.[12] Over the century, water use has grown at more than twice the rate of population increase. Specifically, water withdrawals are projected to increase by 50 percent by 2025 in developing countries and by 18 percent in developed countries.[13] Africa has been predicted to have between 75 and 250 million people without access to safe water.[14] By 2025, 1.8 billion people will live in countries or regions with absolute water scarcity, and two-thirds of the world's population could be under conditions of water stress.[15] By 2050, more than half of the world's population will live in water-scarce areas, and another billion could lack sufficient water, according to MIT researchers.[16].
The Earth has a limited but renewable supply of fresh water, stored in aquifers, surface waters and the atmosphere. The oceans are a good source of usable water, but the amount of energy required to convert saline water into drinking water is prohibitive with conventional approaches, which explains why only a very small fraction of the world's water supply is derived from desalination.[17] However, modern technologies, such as the seawater greenhouse, use solar energy to desalinate seawater for agricultural and drinking uses in an extremely cost-effective manner.
• - This work contains a translation derived from "Water security" from Wikipedia in English, specifically from this version of September 8, 2021, published by its editors under the GNU Free Documentation License and the Creative Commons Attribution-ShareAlike 4.0 International License.
[3] ↑ a b A.A., Tindall, J.A., Campbell. «USGS Fact Sheet 2010-3106: Water Security—National and Global Issues». pubs.usgs.gov. Consultado el 7 de mayo de 2017.: https://pubs.usgs.gov/fs/2010/3106/
[4] ↑ Levy, Barry S.; Sidel, Victor W. (2011). «Water Rights and Water Fights: Preventing and Resolving Conflicts Before They Boil Over». American Journal of Public Health 101 (5): 778-780. ISSN 0090-0036. PMC 3076402. PMID 21421949. doi:10.2105/AJPH.2010.194670.: https://archive.org/details/sim_american-journal-of-public-health_2011-05_101_5/page/778
[10] ↑ a b c Hoekstra, Arjen Y; Buurman, Joost; van Ginkel, Kees C H (1 de mayo de 2018). «Urban water security: A review». Environmental Research Letters 13 (5): 053002. ISSN 1748-9326. doi:10.1088/1748-9326/aaba52.: https://es.wikipedia.org//portal.issn.org/resource/issn/1748-9326
[11] ↑ Patrick Webb and Maria Iskandarani, Water Insecurity and the Poor: Issues and Research Needs. http://www.zef.de/fileadmin/webfiles/downloads/zef_dp/zef_dp2-98.pdf, Center for Development Research, Discussion Papers on Development Policy No. 2, Bonn, October 1998.: http://www.zef.de/fileadmin/webfiles/downloads/zef_dp/zef_dp2-98.pdf
[17] ↑ World Energy Outlook 2005: Middle East and North Africa Insights. International Energy Agency, Paris. 2005.
Water security affects regions, states and countries. Tensions exist between upstream and downstream water users within individual jurisdictions.[6].
According to Nature (2010), approximately 80% of the world's population (5.6 billion in 2011) lives in areas with threats to water security. Water security is a shared threat to humans and nature. Human water management strategies can be harmful to wildlife, such as migratory fish. Regions with intensive agriculture and dense populations, such as the United States and Europe, have a major threat to water security. Water is increasingly used as a weapon in conflicts.[7] Water insecurity is always accompanied by one or more problems such as poverty, war and conflict, lack of opportunities for women and environmental degradation.[8] Different researchers estimate that during 2010-2015, approximately $800 billion will be needed to cover the annual global investment in water infrastructure. Good management of water resources can jointly protect biodiversity and human water security. Preserving floodplains rather than constructing flood control reservoirs would provide a cost-effective way to control flooding while protecting the biodiversity of wildlife that occupy those areas.[9].
The term water security encompasses ideas and concepts related to the sustainability, integration and adaptability of water resources management. There are four key areas of focus: increasing economic well-being, improving social equity, moving towards long-term sustainability, and reducing water-related risks.[10] Risks can be further classified as hazards (droughts, floods, and quality deterioration), exposure, and vulnerability.[10] Water security is sometimes pursued through the implementation of water desalination systems, pipelines between sources and users, water licenses with different security levels, and warfare.
Urban water security could be understood from a systems perspective, given its complexity and transversal nature. This involves understanding the types of pressures on the water system (such as climate change and urbanization), the state of the water system (water reserves and flows), the impact of the water system on the provision of water services (such as affordability and availability), and responses (including institutional reforms).[10].
The allocation of water between competing users is increasingly determined by the application of market-based prices for water licenses or actual water.[11].
Fresh water
Water, in absolute terms, is not scarce throughout the planet. But, according to the United Nations water organization, UN-Water, the total supply of usable freshwater for ecosystems and humans is only 200,000. km of water: less than one percent (<1%) of all freshwater resources. Usable freshwater includes water not contaminated or degraded by water-altering chemicals, such as sewage or any other harmful chemicals from previous continuous use.[12] Over the century, water use has grown at more than twice the rate of population increase. Specifically, water withdrawals are projected to increase by 50 percent by 2025 in developing countries and by 18 percent in developed countries.[13] Africa has been predicted to have between 75 and 250 million people without access to safe water.[14] By 2025, 1.8 billion people will live in countries or regions with absolute water scarcity, and two-thirds of the world's population could be under conditions of water stress.[15] By 2050, more than half of the world's population will live in water-scarce areas, and another billion could lack sufficient water, according to MIT researchers.[16].
The Earth has a limited but renewable supply of fresh water, stored in aquifers, surface waters and the atmosphere. The oceans are a good source of usable water, but the amount of energy required to convert saline water into drinking water is prohibitive with conventional approaches, which explains why only a very small fraction of the world's water supply is derived from desalination.[17] However, modern technologies, such as the seawater greenhouse, use solar energy to desalinate seawater for agricultural and drinking uses in an extremely cost-effective manner.
• - This work contains a translation derived from "Water security" from Wikipedia in English, specifically from this version of September 8, 2021, published by its editors under the GNU Free Documentation License and the Creative Commons Attribution-ShareAlike 4.0 International License.
[3] ↑ a b A.A., Tindall, J.A., Campbell. «USGS Fact Sheet 2010-3106: Water Security—National and Global Issues». pubs.usgs.gov. Consultado el 7 de mayo de 2017.: https://pubs.usgs.gov/fs/2010/3106/
[4] ↑ Levy, Barry S.; Sidel, Victor W. (2011). «Water Rights and Water Fights: Preventing and Resolving Conflicts Before They Boil Over». American Journal of Public Health 101 (5): 778-780. ISSN 0090-0036. PMC 3076402. PMID 21421949. doi:10.2105/AJPH.2010.194670.: https://archive.org/details/sim_american-journal-of-public-health_2011-05_101_5/page/778
[10] ↑ a b c Hoekstra, Arjen Y; Buurman, Joost; van Ginkel, Kees C H (1 de mayo de 2018). «Urban water security: A review». Environmental Research Letters 13 (5): 053002. ISSN 1748-9326. doi:10.1088/1748-9326/aaba52.: https://es.wikipedia.org//portal.issn.org/resource/issn/1748-9326
[11] ↑ Patrick Webb and Maria Iskandarani, Water Insecurity and the Poor: Issues and Research Needs. http://www.zef.de/fileadmin/webfiles/downloads/zef_dp/zef_dp2-98.pdf, Center for Development Research, Discussion Papers on Development Policy No. 2, Bonn, October 1998.: http://www.zef.de/fileadmin/webfiles/downloads/zef_dp/zef_dp2-98.pdf