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56-453: The province is subject to extreme water stress in the wake of the proliferation of avocado plantations in the Axarquía region, with the arid local climate being unsuitable to the plant's large water demands. The province of Málaga has an area of 7,308 square kilometres (2,822 sq mi) and a population of 1,652,999 (2013), concentrated mainly in the metropolitan area of Málaga ,

112-601: A demand for food, and for the food output to match the population growth, there would be an increased demand for water to irrigate crops. The World Economic Forum estimates that global water demand will surpass global supply by 40% by 2030. Increasing the water demand as well as increasing the population results in a water crisis where there is not enough water to share in healthy levels. The crises are not only due to quantity but quality also matters. A study found that 6-20% of about 39 million groundwater wells are at high risk of running dry if local groundwater levels decline by

168-486: A direct cause of a large number of people at risk of water stress. As global demand for water increases and temperatures rise, it is likely that two thirds of the population will live under water stress in 2025. According to a projection by the United Nations, by 2040, there can be about 4.5 billion people affected by a water crisis (or water scarcity). Additionally, with the increase in population, there will be

224-918: A drawback because it is an average. Precipitation delivers water unevenly across the planet each year. So annual renewable water resources vary from year to year. This metric does not describe how easy it is for individuals, households, industries or government to access water. Lastly this metric gives a description of a whole country. So it does not accurately portray whether a country is experiencing water scarcity. For example, Canada and Brazil both have very high levels of available water supply. But they still face various water-related problems. Some tropical countries in Asia and Africa have low levels of freshwater resources. Water scarcity assessments must include several types of information. They include data on green water ( soil moisture ), water quality , environmental flow requirements, globalisation, and virtual water trade . Since

280-437: A few meters. In many areas and with possibly more than half of major aquifers this would apply if they simply continue to decline. Controllable factors such as the management and distribution of the water supply can contribute to scarcity. A 2006 United Nations report focuses on issues of governance as the core of the water crisis. The report noted that: "There is enough water for everyone". It also said: "Water insufficiency

336-453: A function of prevailing economic policy and planning approaches. Water scarcity assessments look at many types of information. They include green water ( soil moisture ), water quality , environmental flow requirements, and virtual water trade . Water stress is one parameter to measure water scarcity. It is useful in the context of Sustainable Development Goal 6 . Half a billion people live in areas with severe water scarcity throughout

392-530: 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. There is enough freshwater available globally and averaged over the year to meet demand. As such, water scarcity is caused by a mismatch between when and where people need water, and when and where it

448-513: A point for water privatization . The clean water crisis is an emerging global crisis affecting approximately 785 million people around the world. 1.1 billion people lack access to water and 2.7 billion experience water scarcity at least one month in a year. 2.4 billion people suffer from contaminated water and poor sanitation. Contamination of water can lead to deadly diarrheal diseases such as cholera and typhoid fever and other waterborne diseases . These account for 80% of illnesses around

504-463: A question of new infrastructure. Economic and political intervention are necessary to tackle poverty and social inequality. The lack of funding means there is a need for planning. The emphasis is usually on improving water sources for drinking and domestic purposes. But more water is used for purposes such as bathing, laundry, livestock and cleaning than drinking and cooking. This suggests that too much emphasis on drinking water addresses only part of

560-438: A result of consumption is the extensive use of water in agriculture / livestock breeding and industry . People in developed countries generally use about 10 times more water a day than people in developing countries . A large part of this is indirect use in water-intensive agricultural and industrial production of consumer goods . Examples are fruit, oilseed crops and cotton. Many of these production chains are globalized, So

616-431: A third of the volume of water we presently take from rivers. Today, the competition for water resources is much more intense. This is because there are now seven billion people on the planet and their consumption of water-thirsty meat is rising. And industry , urbanization , biofuel crops, and water reliant food items are competing more and more for water. In the future, even more water will be needed to produce food because

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672-485: Is extracting groundwater at an unsustainable rate. Many cities have experienced aquifer drops of between 10 and 50 meters. They include Mexico City , Bangkok , Beijing , Chennai and Shanghai . Until recently, groundwater was not a highly used resource. In the 1960s, more and more groundwater aquifers developed. Improved knowledge, technology and funding have made it possible to focus more on drawing water from groundwater resources instead of surface water. These made

728-401: Is a feature of much of Sub-Saharan Africa. So better water infrastructure there could help to reduce poverty . Investing in water retention and irrigation infrastructure would help increase food production. This is especially the case for developing countries that rely on low-yield agriculture. Providing water that is adequate for consumption would also benefit public health. This is not only

784-424: Is a much smaller amount. Some academics favour adding a third type which would be called ecological water scarcity. It would focus on the water demand of ecosystems. It would refer to the minimum quantity and quality of water discharge needed to maintain sustainable and functional ecosystems. Some publications argue that this is simply part of the definition of physical water scarcity. Economic water scarcity

840-591: Is a sufficient amount of freshwater on a global scale. So in theory there is more than enough freshwater available to meet the demands of the current world population of 8 billion people. There is even enough to support population growth to 9 billion or more. But unequal geographical distribution and unequal consumption of water makes it a scarce resource in some regions and groups of people. Rivers and lakes provide common surface sources of freshwater. But other water resources such as groundwater and glaciers have become more developed sources of freshwater. They have become

896-445: Is available. One of the main causes of the increase in global water demand is the increase in the number of people . Others are the rise in living conditions, changing diets (to more animal products), and expansion of irrigated agriculture . Climate change (including droughts or floods ), deforestation , water pollution and wasteful use of water can also mean there is not enough water. These variations in scarcity may also be

952-470: Is being used at a faster rate than it can be replenished. The increase in the number of people is increasing competition for water. This is depleting many of the world's major aquifers. It has two causes. One is direct human consumption. The other is agricultural irrigation. Millions of pumps of all sizes are currently extracting groundwater throughout the world. Irrigation in dry areas such as northern China , Nepal and India draws on groundwater. And it

1008-509: Is both fresh and easily accessible . Of the remaining water, 97% is saline, and a little less than 3% is difficult to access. The fresh water available to us on the planet is around 1% of the total water on earth. The total amount of easily accessible freshwater on Earth is 14,000 cubic kilometers. This takes the form of surface water such as rivers and lakes or groundwater , for example in aquifers . Of this total amount, humanity uses and resuses just 5,000 cubic kilometers. Technically, there

1064-524: Is called ecological water scarcity . It considers water quantity, water quality, and environmental flow requirements. Water is scarce in densely populated arid areas . These are projected to have less than 1000 cubic meters available per capita per year. Examples are Central and West Asia, and North Africa). A study in 2007 found that more than 1.2 billion people live in areas of physical water scarcity. This water scarcity relates to water available for food production, rather than for drinking water which

1120-657: Is crucial for people that live in regions that cannot depend on precipitation or surface water for their only supplies. It provides reliable access to water all year round. As of 2010, the world's aggregated groundwater abstraction is estimated at 1,000 km per year. Of this 67% goes on irrigation, 22% on domestic purposes and 11% on industrial purposes. The top ten major consumers of abstracted water make up 72% of all abstracted water use worldwide. They are India, China, United States of America, Pakistan, Iran, Bangladesh, Mexico, Saudi Arabia, Indonesia, and Italy. Goundwater sources are quite plentiful. But one major area of concern

1176-427: Is due to a lack of investment in infrastructure or technology to draw water from rivers, aquifers, or other water sources. It also reflects insufficient human capacity to meet the demand for water. It causes people without reliable water access to travel long distances to fetch water for household and agricultural uses. Such water is often unclean. The United Nations Development Programme says economic water scarcity

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1232-412: Is often due to mismanagement, corruption, lack of appropriate institutions, bureaucratic inertia and a shortage of investment in both human capacity and physical infrastructure". Economists and others have argued that a lack of property rights , government regulations and water subsidies have given rise to the situation with water. These factors cause prices to be too low and consumption too high, making

1288-500: Is the "Falkenmark Water Stress Indicator". This was developed by Malin Falkenmark . This indicator says a country or region experiences "water stress" when annual water supplies drop below 1,700 cubic meters per person per year. Levels between 1,700 and 1,000 cubic meters will lead to periodic or limited water shortages. When water supplies drop below 1,000 cubic meters per person per year the country faces "water scarcity". However,

1344-494: Is the lack of fresh water resources to meet the standard water demand. There are two types 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

1400-423: Is the most common cause of water scarcity. This is because most countries or regions have enough water to meet household, industrial, agricultural, and environmental needs. But they lack the means to provide it in an accessible manner. Around a fifth of the world's population currently live in regions affected by physical water scarcity. A quarter of the world's population is affected by economic water scarcity. It

1456-644: Is the renewal or recharge rate of some groundwater sources. Extracting from non-rewable groundwater sources could exhaust them if they are not properly monitored and managed. Increasing use of groundwater can also reduce water quality over time. Groundwater systems often show falls in natural outflows, stored volumes, and water levels as well as water degradation. Groundwater depletion can cause harm in many ways. These include more costly groundwater pumping and changes in salinity and other types of water quality. They can also lead to land subsidence, degraded springs and reduced baseflows. The main cause of water scarcity as

1512-464: The Middle East and North Africa Region and regional conflicts over scarce water resources. Around fifty years ago, the common view was that water was an infinite resource. At that time, there were fewer than half the current number of people on the planet. People were not as wealthy as today, consumed fewer calories and ate less meat, so less water was needed to produce their food. They required

1568-484: The UN Global Compact , proposed to harmonize these in 2014. In their discussion paper they state that these three terms should not be used interchangeably. Some organizations define water stress as a broader concept. It would include aspects of water availability, water quality and accessibility. Accessibility depends on existing infrastructure. It also depends on whether customers can afford to pay for

1624-472: The World Economic Forum listed water scarcity as one of the largest global risks in terms of potential impact over the next decade. Water scarcity can take several forms. One is a failure to meet demand for water, partially or totally. Other examples are economic competition for water quantity or quality, disputes between users, irreversible depletion of groundwater , and negative impacts on

1680-508: The environment . About half of the world's population currently experience severe water scarcity for at least some part of the year. Half a billion people in the world face severe water scarcity all year round. Half of the world's largest cities experience water scarcity. Almost two billion people do not currently have access to clean drinking water. A study in 2016 calculated that the number of people suffering from water scarcity increased from 0.24 billion or 14% of global population in

1736-734: The 1900s to 3.8 billion (58%) in the 2000s. This study used two concepts to analyse water scarcity. One is shortage, or impacts due to low availability per capita. The other is stress, or impacts due to high consumption relative to availability. In the 20th century, water use has been growing at more than twice the rate of the population increase. Specifically, water withdrawals are likely to rise by 50 percent by 2025 in developing countries, and 18 per cent in developed countries. One continent, for example, Africa , has been predicted to have 75 to 250 million inhabitants lacking access to fresh water. By 2025, 1.8 billion people will be living in countries or regions with absolute water scarcity, and two-thirds of

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1792-463: The Earth's population is forecast to rise to 9 billion by 2050. In 2000, the world population was 6.2 billion. The UN estimates that by 2050 there will be an additional 3.5 billion people, with most of the growth in developing countries that already suffer water stress. This will increase demand for water unless there are corresponding increases in water conservation and recycling . In building on

1848-536: The Falkenmark Water Stress Indicator does not help to explain the true nature of water scarcity. It is also possible to measure water scarcity by looking at renewable freshwater . Experts use it when evaluating water scarcity. This metric can describe the total available water resources each country contains. This total available water resource gives an idea of whether a country tend to experience physical water scarcity. This metric has

1904-432: The agricultural groundwater revolution possible. They expanded the irrigation sector which made it possible to increase food production and development in rural areas. Groundwater supplies nearly half of all drinking water in the world. The large volumes of water stored underground in most aquifers have a considerable buffer capacity. This makes it possible to withdraw water during periods of drought or little rainfall. This

1960-765: The beaches along the Costa del Sol . These beaches are visited by millions of European tourists; other attractions include the gorge of El Chorro near Álora , El Torcal de Antequera , the Moorish-Mudéjar district of Frigiliana , the Dolmen of Menga , the Tholos de El Romeral , the Dolmen de Viera and the Caves of Nerja . The historical population is given in the following chart: Water stress Water scarcity (closely related to water stress or water crisis )

2016-424: The case of wetlands, a lot of ground has been simply taken from wildlife use to feed and house the expanding human population. Other areas have also suffered from a gradual fall in freshwater inflow as upstream water is diverted for human use. Other impacts include growing conflict between users and growing competition for water. Examples for the potential for conflict from water scarcity include: Food insecurity in

2072-715: The context of Sustainable Development Goal 6 . A report by the FAO in 2018 provided a definition of water stress. It described it as "the ratio between total freshwater withdrawn (TFWW) by all major sectors and total renewable freshwater resources (TRWR), after taking into account environmental flow requirements (EFR)". This means that the value for TFWW is divided by the difference between TRWR minus EFR. Environmental flows are water flows required to sustain freshwater and estuarine ecosystems . A previous definition in Millennium Development Goal 7, target 7.A,

2128-574: The data presented here by the UN, the World Bank goes on to explain that access to water for producing food will be one of the main challenges in the decades to come. It will be necessary to balance access to water with managing water in a sustainable way. At the same time it will be necessary to take the impact of climate change and other environmental and social variables into account. In 60% of European cities with more than 100,000 people, groundwater

2184-422: The early 2000s, water scarcity assessments have used more complex models. These benefit from spatial analysis tools. Green-blue water scarcity is one of these. Footprint-based water scarcity assessment is another. Another is cumulative abstraction to demand ratio, which considers temporal variations. Further examples are LCA -based water stress indicators and integrated water quantity–quality environment flow. Since

2240-473: The early 2010s assessments have looked at water scarcity from both quantity and quality perspectives. Experts have proposed a further indicator. This is called ecological water scarcity . It considers water quantity, water quality, and environmental flow requirements. Results from a modelling study in 2022 show that northern China suffered more severe ecological water scarcity than southern China. The driving factor of ecological water scarcity in most provinces

2296-481: The environment in several ways. This includes increased salinity , nutrient pollution , and the loss of floodplains and wetlands . Water scarcity also makes it harder to use flow to rehabilitate urban streams. Through the last hundred years, more than half of the Earth's wetlands have been destroyed and have disappeared. These wetlands are important as the habitats of numerous creatures such as mammals, birds, fish, amphibians, and invertebrates . They also support

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2352-893: The growing of rice and other food crops. And they provide water filtration and protection from storms and flooding. Freshwater lakes such as the Aral Sea in central Asia have also suffered. It was once the fourth largest freshwater lake in the world. But it has lost more than 58,000 square km of area and vastly increased in salt concentration over the span of three decades. Subsidence is another result of water scarcity. The U.S. Geological Survey estimates that subsidence has affected more than 17,000 square miles in 45 U.S. states, 80 percent of it due to groundwater usage. Vegetation and wildlife need sufficient freshwater. Marshes , bogs and riparian zones are more clearly dependent upon sustainable water supply. Forests and other upland ecosystems are equally at risk as water becomes less available. In

2408-497: The impact of high water use (either withdrawals or consumption) relative to water availability." This means water stress would be a demand-driven scarcity . Experts have defined two types of water scarcity. One is physical water scarcity. The other is economic water scarcity. These terms were first defined in a 2007 study led by the International Water Management Institute . This examined

2464-430: The interior. The prevailing climate is a warm Mediterranean, with dry and warm long summers with short mild winters. The geographical relief varies greatly from zone to zone. In general, the coastal zone has a subtropical Mediterranean climate . To the north, a continental Mediterranean climate exists with cold, dry winters and warm summers. The main industry and claim to fame are tourist resorts, particularly those on

2520-465: The main source of clean water. Groundwater is water that has pooled below the surface of the Earth. It can provide a usable quantity of water through springs or wells. These areas of groundwater are also known as aquifers. It is becoming harder to use conventional sources because of pollution and climate change. So people are drawing more and more on these other sources. Population growth is encouraging greater use of these types of water resources. In 2019

2576-475: The problem. So it can limit the range of solutions available. There are several indicators for measuring water scarcity. One is the water use to availability ratio. This is also known as the criticality ratio. Another is the IWMI Indicator. This measures physical and economic water scarcity. Another is the water poverty index. "Water stress" is a criterion to measure water scarcity. Experts use it in

2632-477: The provincial capital, and throughout the coastal area. The population density surpasses both the Andalusia and Spanish averages, reaching 222.53 inhabitants per km. Málaga contains 102 municipalities . Besides the capital, the main cities are Marbella , Mijas , Fuengirola , Vélez-Málaga , Torremolinos , Estepona , and Benalmádena , all in the coastal zone. The towns of Antequera and Ronda are located in

2688-478: The use of water in agriculture over the previous 50 years. It aimed to find out if the world had sufficient water resources to produce food for the growing population in the future. Physical water scarcity occurs when natural water resources are not enough to meet all demands. This includes water needed for ecosystems to function well. Dry regions often suffer from physical water scarcity. Human influence on climate has intensified water scarcity in areas where it

2744-583: The virtual water trade. Water scarcity has been defined as the " volumetric abundance, or lack thereof, of freshwater resources " and it is thought to be "human-driven". This can also be called "physical water scarcity". There are two types of water scarcity. One is physical water scarcity and the other is economic water scarcity . Some definitions of water scarcity look at environmental water requirements. This approach varies from one organization to another. Related concepts are water stress and water risk . The CEO Water Mandate, an initiative of

2800-476: The water. Some experts call this economic water scarcity . The FAO defines water stress as the "symptoms of water scarcity or shortage". Such symptoms could be "growing conflict between users, and competition for water, declining standards of reliability and service, harvest failures and food insecurity". This is measured with a range of Water Stress Indices. A group of scientists provided another definition for water stress in 2016: "Water stress refers to

2856-401: The world population could be under stress conditions. By 2050, more than half of the world's population will live in water-stressed areas, and another billion may lack sufficient water, MIT researchers find. With the increase in global temperatures and an increase in water demand, six out of ten people are at risk of being water-stressed. The drying out of wetlands globally, at around 67%, was

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2912-461: The world. Using water for domestic, food and industrial uses has major impacts on ecosystems in many parts of the world. This can apply even to regions not considered "water scarce". Water scarcity damages the environment in many ways. These include adverse effects on lakes, rivers, ponds, wetlands and other fresh water resources. Thus results in water overuse because water is scarce. This often occurs in areas of irrigation agriculture. It can harm

2968-624: The year, and around four billion people face severe water scarcity at least one month per year. Half of the world's largest cities experience water scarcity. There are 2.3 billion people who reside in nations with water scarcities (meaning less than 1700 m of water per person per year). There are different ways to reduce water scarcity. It can be done through supply and demand side management, cooperation between countries and water conservation . Expanding sources of usable water can help. Reusing wastewater and desalination are ways to do this. Others are reducing water pollution and changes to

3024-455: Was already a problem. It also occurs where water seems abundant but where resources are over-committed. One example is overdevelopment of hydraulic infrastructure . This can be for irrigation or energy generation . There are several symptoms of physical water scarcity. They include severe environmental degradation , declining groundwater and water allocations favouring some groups over others. Experts have proposed another indicator. This

3080-455: Was simply the proportion of total water resources used, without taking EFR into consideration. This definition sets out several categories for water stress. Below 10% is low stress; 10-20% is low-to-medium; 20-40% medium-to-high; 40-80% high; above 80% very high. Indicators are used to measure the extent of water scarcity. One way to measure water scarcity is to calculate the amount of water resources available per person each year. One example

3136-460: Was water pollution rather than human water use. A successful assessment will bring together experts from several scientific discipline. These include the hydrological, water quality, aquatic ecosystem science, and social science communities. The United Nations estimates that only 200,000 cubic kilometers of the total 1.4 billion cubic kilometers of water on Earth is freshwater available for human consumption. A mere 0.014% of all water on Earth

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