Author Topic: Water  (Read 81972 times)


Crafty_Dog

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India Pakistan Water Treaty
« Reply #102 on: July 06, 2019, 07:56:22 PM »
Has a Water-Sharing Pact Between Pakistan and India Grown Stagnant?
By Ambika Vishwanath

A composite satellite image of the Indus River Delta in Pakistan, where the Indus River flows into the Arabian Sea.
(PLANET OBSERVER/Universal Images Group via Getty Images)
Contributor Perspectives offer insight, analysis and commentary from Stratfor’s Board of Contributors and guest contributors who are distinguished leaders in their fields of expertise.

Highlights

    Severe water shortages and the prospect of a delayed monsoon season that fails to deliver enough rain will push water management up India's priority list.
    India is unlikely to withdraw from the Indus Water Treaty, which has governed India and Pakistan's use of the rivers and tributaries of the Indus Basin for nearly 60 years, but it is more likely to increase its use of the water allotted to it, which in itself could be detrimental.
    The treaty does not include China, and the tenuous nature of the relationships among India, China and Pakistan does not rule out the possibility of Beijing's involvement in the river basin.
    Questions about the Indus Water Treaty's efficacy and how well it reflects current realities will become more pressing in the years ahead.

Narendra Modi's second term as Indian prime minister is underway following his Bharatiya Janata Party's landslide victory in last month's parliamentary elections, and the National Institution for Transforming India, a policy think tank of the Indian government, has released a 100-day agenda. Among the proposals for developing infrastructure and lowering India's unemployment rate, currently at an all-time high, is an emphasis on better managing the country's water resources. Water management is a controversial and touchy subject in India, but with one-third of the country in drought, water supplies in India's sixth-largest city, Chennai, running dry, and dire predictions that this year's delayed monsoon season will fail to deliver adequate rainfall totals, water management is likely to rise higher on India's priority list.

The Modi government is focused on building a network of dams and water-linkage projects, especially across northern India, to reduce the threat from China's dam-building activity on India's northeastern border and to ensure that it is effectively using the share of water allotted to it under the decades-old Indus Water Treaty before it flows into Pakistan. Adding to an escalation in tensions between India and Pakistan in February that followed a suicide attack in Kashmir were comments by Nitin Gadkari, then India's water resources minister, declaring that India would not allow excess water to flow into Pakistan and that New Delhi would work toward completely using its portion of the shared river basin, the Indus. While persistent tensions between India and Pakistan have threatened the Indus treaty, a variety of reasons explain why India is unlikely to withdraw from it and is more likely to follow through on increased usage of water, which in itself could be detrimental.

The Indus Water Treaty

For almost 60 years, India and Pakistan have shared the rivers and tributaries of the Indus Basin under the aegis of the Indus Water Treaty. Brokered by the World Bank in 1960, the Indus Water Treaty effectively split the six main rivers of the Indus Basin into geographic halves, with the three western rivers — the Indus, Jhelum and Chenab — to be used by Pakistan and the three easternmost rivers — the Ravi, Beas and Sutlej — to be used by India. Certain restrictions were placed on India as the upper riparian nation, especially with regard to storage and irrigation activity. The Permanent Indus Commission manages the treaty. Hailed as a success story, the treaty has survived numerous wars and skirmishes between the two neighbors, and while India and Pakistan have been in a permanent state of conflict over a variety of issues since 1947, no war has been fought over water.

At a time when states within India have yet to find lasting solutions to shared bodies of water, a Teesta River agreement with Bangladesh remains elusive and a treaty with China on the Brahmaputra River abides as a pipe dream, the Indus treaty is an example of how water resources can be shared through a legal framework. However, the treaty — more of a divorce settlement between India and Pakistan — represented the best arrangement possible at the time it was signed. By creating an equal division on the use of waters in the rivers of the Indus Basin and not an equitable or jointly integrated planning and management system of the entire basin, the treaty fails to safeguard the long-term rights and health of the Indus River itself. The current state of the river, stressed by the region's growing population, changes in the climate, long-pending disputes on dam-related activity and misuse of the treaty during times of war, raise the question of potential revisions to the treaty.
Right for Its Time, but Right for Now?

During times of tension between India and Pakistan, speculation arises around the possibility of India's misuse of the Indus waters as a weapon of war. After the 2001 attack on the Indian Parliament by Pakistan-based militant groups, reports suggested that then-Prime Minister Atal Bihari Vajpayee had studied the treaty's use as a potential option for retaliation, though no official stand was taken. In 2016, Modi directly referred to the Indus waters, stating that "blood and water can't flow together," in the aftermath of an attack on India's Uri army base by the Pakistani militant group Jaish-e-Mohammed. While Modi's dramatic statement could be interpreted in many ways and fed the public outcry for revenge, the Indian government remained within the confines of the Indus pact, though it decided to review and restart construction on the Tulbul navigation project on Wular Lake, which is fed by the Jhelum River. Similar strong statements were made in February when Gadkari, the water resources minister, said India would maximize the use of its share of the eastern rivers, where currently underutilized waters flow into Pakistan and to sea.

Questions about the Indus Water Treaty's efficacy and how well it reflects current realities will become more pressing in the years ahead.

While politicians and the administration might make certain statements to appease the public, it is clear that India is likely to continue to operate within the confines of the treaty. The international community, which views the pact as part of a successful conflict resolution, would see its abrogation as irresponsible. However, while the treaty might have withstood four wars, its potential misuse, existing disputes on proposed activity, and the lack of trust between Pakistan and India could lead to consequences beyond political bluster and public sentiment. Further, the treaty does not include China, which possesses the Indus headwaters. At present, China is more closely aligned with Pakistan. The tenuous nature of the relationships among India, China and Pakistan does not rule out the possibility of Beijing's involvement in the river basin. China's dam-building activity on the Tibetan Plateau is already a cause of tension on India's eastern front (Brahmaputra-Ganga Basin), and any similar activity on the Indus will affect its flow into India and Pakistan.

India uses about 95 percent of the water allotted to it under the Indus Water Treaty. To consume the remaining 5 percent — about 2 million acre-feet (2.5 billion cubic meters) — several dams and storage facilities would have to be constructed in a manner that does not violate the treaty. However, this does not consider the decrease such additional use would cause to the river's flow, which is vital to maintaining the health of the river itself. Across the entire basin, more than 90 percent of the allotted water is already used for irrigation purposes, and further activity coupled with uncertain changes in climate will place an even greater strain on the river basin.

While it would be detrimental to suggest the Indus Water Treaty be abolished, questions about its efficacy and how well it reflects current realities will become more pressing in the years ahead. Over the past five decades, discussions on certain aspects of the treaty have been resolved through dialogue and arbitration and are possible through the Permanent Indus Commission. One area of consideration for future discussion is developing a more integrated management system that safeguards the health of the Indus River and addresses the needs of growing populations, hydroelectricity and irrigation demands on both sides of the river basin. Lessons from around the world indicate that such improvement is possible, and recent testing of the waters for a revival of talks between Pakistan and India provides a potential opening for renewed discussions.

DougMacG

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Re: Water, solar desalination
« Reply #103 on: July 10, 2019, 06:57:13 AM »
The energy shortage and clean water scarcity are two key challenges for global sustainable development. Near half of the total global water withdrawals is consumed by power generation plants while water desalination consumes lots of electricity. Here, we demonstrate a photovoltaics-membrane distillation (PV-MD) device that can stably produce clean water (>1.64 kg·m−2·h−1) from seawater while simultaneously having uncompromised electricity generation performance (>11%) under one Sun irradiation. Its high clean water production rate is realized by constructing multi stage membrane distillation (MSMD) device at the backside of the solar cell to recycle the latent heat of water vapor condensation in each distillation stage. This composite device can significantly reduce capital investment costs by sharing the same land and the same mounting system and thus represents a potential possibility to transform an electricity power plant from otherwise a water consumer to a fresh water producer."

https://www.nature.com/articles/s41467-019-10817-6

https://www.sciencealert.com/new-kind-of-solar-technology-could-provide-electricity-and-clean-water-to-millions
Hat tip, news items John Ellis
https://newsitems.substack.com/welcome
« Last Edit: July 10, 2019, 06:59:30 AM by DougMacG »



Crafty_Dog

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Re: Water
« Reply #108 on: August 09, 2019, 02:58:22 PM »
Thank you!



Crafty_Dog

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DougMacG

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Re: Water quality PFAS
« Reply #113 on: January 26, 2020, 03:24:57 PM »
https://news.yahoo.com/u-drinking-water-widely-contaminated-050229550.html

https://www.sciencealert.com/here-s-what-you-need-to-know-about-those-forever-chemicals-in-your-drinking-water

...results are not peer-reviewed and the group is looking for chemicals at such low levels, it's unclear if there would be any impact on human health
...
Calling for more research is one thing; demanding the government figure out and enforce safe levels of these chemicals is another.


Crafty_Dog

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Water reality is southwest is much worse than presently realized
« Reply #116 on: June 17, 2022, 01:30:03 PM »

Crafty_Dog

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Lake Mead update
« Reply #117 on: June 19, 2022, 07:32:06 AM »




ccp

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Re: Water
« Reply #121 on: June 29, 2022, 02:06:26 PM »
we should build a water pipeline along with the Keystone pipeline

one for the gas oil

the other for water

but of course it might upset some fish or Indian reservations or any reason that could be dreamed of to block it I suppose.....

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Re: Water
« Reply #124 on: July 05, 2022, 06:55:29 AM »
Running Dry in the American West

(Roman Genn)
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By SHAWN REGAN
June 23, 2022 3:55 PM
One way or another, people there will need to use less water
First, there was one dead body. Then, a few days later, another — both recovered in May in the mud exposed by the receding waters of Lake Mead, near Las Vegas. One corpse was discovered inside a metal barrel, the result of an apparent homicide that detectives, given the victim’s clothing and footwear, believe occurred in the early 1980s. The other was skeletal remains half buried in a newly surfaced sandbar. “There is a very good chance as the water level drops that we are going to find additional human remains,” said a lieutenant with the Las Vegas police.

It could have been a scene from Roman Polanski’s 1974 classic Chinatown. But the bodies are a gruesome illustration of a grim reality: The western United States is in the grip of a deep and prolonged drought, causing unprecedented water shortages. The Southwest has just experienced its driest two decades in 1,200 years, according to one recent study. This year is more of the same, if not worse. California just had its driest first five months on record. Ninety percent of New Mexico is in extreme or exceptional drought — the two worst categories on the U.S. Drought Monitor. As of press time, the city of Albuquerque had gone 75 days without measurable rainfall.

The drought is especially pronounced in the Colorado River Basin, which supplies water to 40 million people across nine states and irrigates 4 million acres of farmland. Water levels in Lake Mead and Lake Powell, the basin’s two largest reservoirs, have dropped to their lowest levels since they were filled in the early to mid 20th century. In response, the federal government recently issued its first formal “shortage” declaration for the river, triggering mandatory water-delivery reductions to Arizona and Nevada. Additional cutbacks are likely coming soon.

The region’s water supply has plummeted to levels unanticipated even just a few years ago. At the start of the 21st century, Lakes Mead and Powell were nearly full. Now both are below 30 percent capacity. If water levels drop much farther, officials warn, the dams’ turbines will no longer be able to generate electricity, creating additional power-supply challenges for a region already at elevated risk of rolling blackouts this summer because of extreme heat and increased reliance on intermittent wind and solar energy. And if they decline farther still, the reservoirs could reach “dead pool” conditions, in which water is unable to flow downstream from the dams.

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The consequences of the drought are being felt throughout the West. In Utah, the Great Salt Lake dipped to a historic low last year, exposing the lakebed to windstorms that pick up dust containing arsenic and other toxic elements and blow it to nearby cities on the Wasatch Front. New Mexico’s parched landscape is fueling the largest wildfire ever recorded in state history. And in California, a lack of surface water is accelerating groundwater pumping that is depleting aquifers and causing the land itself to sink in some areas.

Drought is the proximate cause of today’s water shortages, but in the Colorado River Basin, the root of the problem dates back a century. In 1922, the Colorado River Compact divvied up the river’s water, allocating 7.5 million acre-feet to the Upper Basin states of Wyoming, Utah, Colorado, and New Mexico and 7.5 million acre-feet to the Lower Basin states of California, Arizona, and Nevada. What water managers didn’t understand at the time was that the river’s flows had been abnormally high. The compact anticipated annual flows of at least 17 million acre-feet; this century the river has averaged closer to 12 million acre-feet. The compact’s allocations, it turns out, were made during what we now know was the region’s wettest period in the past 500 years.

By the second half of the 20th century, it was clear the river had been overallocated — but the damage was done. Renegotiating the compact has proven difficult, since infrastructure and industries have been built around the expectation of the compact’s original water allocations. And as climate change appears to be locking in a drier future for the region — a phenomenon some have termed “aridification,” to distinguish it from temporary drought — the problem has gotten worse. Water consumption from the basin has exceeded supply by an average of 1.1 million acre-feet each year over the past decade — a gap equal to four Las Vegases’ worth of water. Today, the Colorado River runs dry long before it reaches the Gulf of California.

The story is much the same throughout most of the American West: There are more water rights on paper than there is actual water to go around, and everyone is lawyered up with arguments for why cuts should fall on others instead of themselves. But if the arid West is to adapt to its even drier future, it’s going to have to find ways to use its limited water resources more effectively through cooperation instead of litigation, and nearly everyone is going to have to do with less.

When it comes to water in the West, navigating the future requires understanding the past. Western water rights are allocated under a doctrine known as “prior appropriation,” in which water was claimed by early settlers on a first-come, first-served basis as long as it was put to a “beneficial use.” This typically meant diverting water to irrigate crops. The oldest, most senior water-right claims — often of agricultural producers — get first dibs during times of scarcity, regardless of whether the claimants are upstream or downstream of other users. Water that is not used may be deemed abandoned and reallocated to someone else.

Today, new challenges are emerging. In addition to drought, the growth of western cities has required finding ways to meet urban water demands, often by transferring water from agricultural to municipal uses. At the same time, environmental and recreational interests have placed new demands on conserving water for fish and wildlife habitat. And groundwater resources, which are a primary water source for many western communities, are being depleted faster than they can be replenished — all at a time when there is less water to go around than when prior-appropriation water rights were initially allocated.

At a Senate hearing in June, Bureau of Reclamation commissioner Camille Touton said the Colorado River Basin states will need to conserve 2 million to 4 million acre-feet of water next year to reduce the risk that supplies will reach critically low levels. As populations continue to grow in western states, and global food shortages stemming from the war in Ukraine put pressure on U.S. agriculture, the question is where those cuts will come from.

In the face of such challenges, however, there are reasons for optimism. John Fleck, a prominent western water writer, has long argued that the West has a remarkable and underappreciated ability to adapt to water scarcity. “When people have less water,” Fleck has written, “they use less water” — whether through wastewater recycling, stormwater capture, lawn buybacks, water-banking agreements, or just good old-fashioned conservation. Predictions of catastrophe are often overstated by the media, according to Fleck.

“Fear of water shortage is greater than reality, as communities underestimate their ability to cope when supplies run dry,” Fleck wrote in 2016. To capitalize on this flexibility, he said, “we need to develop institutions that both respect current water users and provide tools for moving water around more easily” to where it’s most valued. That can include the difficult tasks of arranging deals between willing buyers and sellers, agreeing on how to measure saved water and get it to alternative uses, and sometimes even changing the rules so that water can be transferred from one use to another.

Fleck pointed to a surprising fact that is often overlooked: Water use in the Colorado River Basin has declined over the past two decades, even as the region’s population has grown. In fact, the same is true across the West as well as nationwide: Overall U.S. water use has fallen 25 percent since 1980, even as population increased more than 40 percent. Clearly, more conservation will be needed — drought-induced reductions in the Colorado River’s water supply, for example, have exceeded its water-use declines — but Fleck’s point is that we have the ability to reduce water consumption, often by a lot.

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In the West, part of the reason for the overall decline in water use is that subdivisions are less water-intensive than agricultural fields, especially those for thirsty (and often lower-value) crops such as alfalfa and cotton. To facilitate these changes, institutions have to be in place that allow water rights to be leased or transferred from agricultural to municipal uses. Arizona has drastically cut its water use in this way, in large part by building houses instead of growing cotton, with water rights exchanged between willing buyers and sellers.

Another reason is that cities have become more water-savvy, often by recycling wastewater, conserving storm-water runoff, or investing in more-efficient water-distribution systems. Fleck’s hometown of Albuquerque is illustrative: Even as the city’s population has grown during the recent drought, its total water use has declined. This decoupling of water from growth has occurred in city after city. Las Vegas, often derided as a symbol of environmental waste, has cut its per capita water use almost in half since 2002, and its overall water use has declined as well. Phoenix’s water consumption has declined by one-third since 1980, even while its population has doubled. San Diego now uses 40 percent less water than it did in 2007.

All of this points to the impressive ability of water users to adapt to scarcity without sacrificing economic growth. The biggest opportunity to continue this progress is in the agricultural sector, which uses more than 80 percent of the water consumed in the West. Farmers also have found ways to increase yields and earnings in the face of shrinking water supplies, sometimes by switching to less water-intensive crops or installing more-efficient irrigation systems. The challenge, according to Fleck, is “getting the institutional infrastructure right” to facilitate such adaptations and to move water to where it’s most needed.

114NEXT GALLERY
Lake Powell Drought
The growing shoreline of Lake Powell in Page, Ariz., April 18, 2022.

Caitlin Ochs/Reuters

Unfortunately, western water laws can discourage conservation and limit the flexibility to move water to higher-valued uses. In many cases, legal rules can discourage or prevent water-right holders from leasing or selling their conserved water. To encourage greater adaptation, water policies should allow someone who needs water to pay another user to forgo water use or to invest in water conservation. But, in reality, a variety of procedural and regulatory requirements can thwart even the most sensible win–win water trades.

Part of the challenge is that, under the prior-appropriation doctrine, the status of conserved water is often unclear. “If a water user adopts more efficient practices that result in unused water, certain interpretations of the ‘beneficial-use’ requirement could cause that user to lose that portion of their water right,” Bryan Leonard, a natural-resource economist at Arizona State University, said in an interview. In some states, farmers who take steps to save water — perhaps by updating an irrigation system or lining leaky ditches — risk forfeiting the unused amount. “Use it or lose it” rules can also make it difficult to lease or acquire water for nonuse purposes, such as boosting in-stream flows for fish and wildlife habitat.

Regulatory procedures also impede the flow of water to other uses. Transfers typically require the pre-approval of regulators, and numerous stakeholders can block trades. Regulators must consider a range of potential impacts of any water transfer, including how a water-use change would affect other rights-holders, the environmental impact of the transfer, and the economic effects that the transfer might have on the surrounding community.

In practice, these rules create significant obstacles to moving water to where it’s most needed. They can also discourage simple, short-term exchanges that have potentially big water-saving benefits. For example, an alfalfa farmer may agree to forgo irrigation in a dry year to send water to a nearby city, or an environmental group may lease agricultural water during low-flow periods to protect vulnerable fish populations. According to Mammoth Water, a company that facilitates water trades, short-term-lease approvals can often take a year or more — sometimes longer than the proposed lease is for, defeating the whole purpose of the exchange.

“The transaction costs of trading water are preventing wider adoption of water markets, leaving significant gains from trade on the table,” Leonard said. As a result, much of the West’s water gets spread on low-value agricultural crops, and users in need of additional water are often forced to tap into limited groundwater reserves, which are typically open-access and prone to overuse.

Reducing barriers to water trading would enable the West to better adapt to water shortages while also addressing concerns about the environment. A 2018 report published by the Property and Environment Research Center and the R Street Institute offered several reform ideas, including allowing users to keep or sell unused water, eliminating restrictions on changing the use of water, expediting short-term lease approvals, and recognizing aquifer storage as a valid water use. In California, for example, recharging depleted groundwater aquifers is not considered a “beneficial use” and therefore is not a legally valid use of water rights.

There is also the issue of prices. Higher prices are an obvious way to encourage conservation, but some western cities have been reluctant to raise rates, even amid dire shortages. Salt Lake City, for example, has one of the lowest per-gallon water rates in the country — and, not surprisingly, its residents consume more water than those in most other desert cities. Agricultural water prices in the West are even lower — sometimes only a few pennies per thousand gallons — owing in part to federally subsidized water projects and limitations on transferring water to municipal uses that are valued more highly. Pricing water efficiently for both agriculture and urban uses is crucial to managing scarce water resources, especially during drought.

Despite these obstacles, progress is happening. In California, some water districts are experimenting with paying farmers to temporarily fallow some fields or to plant crops that are less water-intensive. Elsewhere in California, groundwater markets are emerging to sustainably manage aquifers, with tradeable pumping rights allocated to users within a groundwater basin. And this year, Utah began allowing water rights to be leased by environmental groups for conservation purposes, to leave more water in streams for fish and wildlife habitat.

Technological advancements also give water users the ability to do more with less. Recycling treated wastewater has proven to be an effective water-saving tool in many western communities. Desalination is a viable solution for some coastal cities — although building desalination plants has proven difficult in places such as California. In May, the California Coastal Commission rejected a large-scale desalination project in Orange County that would have supplied residents with 50 million gallons of drinking water a day.

And there are market innovations as well: Online water-rights marketplaces and clearinghouses can reduce the transaction costs of trading water, and new satellite-based methods to measure consumptive water use can help address measurement and verification challenges that prevented otherwise viable water transfers in the past. Both of these tools are emerging in response to today’s shortages.

There is a classic paradox in economics: Water is cheap, but diamonds are expensive, though one is essential for life and the other is not. Even Adam Smith was puzzled by this. “Nothing is more useful than water,” Smith wrote in The Wealth of Nations, but “scarce any thing can be had in exchange for it.” A diamond has little practical value, he wrote, “but a very great quantity of other goods may frequently be had in exchange for it.” Economists have since solved the mystery, recognizing that value lies on the margin. When water is abundant, the next drops are worth little. But when it is scarce — as it is now in the West — water can be extremely valuable.

If water markets are allowed to function, prices provide incentives to conserve, and markets enable water to be moved from lower-valued to higher-valued uses. Sometimes this means transferring water rights from farms to municipalities, which can have broader economic implications for rural communities dependent on agriculture. Or it can mean finding ways to increase the economic return on water used for agriculture. In California, markets have been shifting more water to higher-revenue perennial crops, such as nuts, grapes, and fruit. Because of this, farm earnings in the state are increasing, while agricultural water use is declining.

Water markets aren’t the answer to every water-scarcity problem — an “all of the above” approach is needed, including desalination, wastewater recycling, stormwater capture, and, in some places, increased storage capacity. But markets are a proven way to effectively allocate scarce resources among competing uses through voluntary negotiation instead of legal or political conflict, of which there is no shortage in the world of western water.

In the West, old rules die hard, and outdated institutions can remain stubbornly in place in the face of new realities. But the West has the need, and the ability, to adapt to an even drier future. The question is how bad the shortages will need to get in order to force those changes.

This article appears as “Running Dry” in the July 11, 2022, print edition of National Review.

DougMacG

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Re: Water, Running Dry in the American West
« Reply #125 on: July 05, 2022, 02:34:56 PM »
Keyword there is regional problem.

"The western United States is in the grip of a deep and prolonged drought, causing unprecedented water shortages."

   - Ignored in that synopsis is population, but he gets to the key issue in the 11th paragraph.

Population Las Vegas 1950:  Roughly zero.  https://www.macrotrends.net/cities/23043/las-vegas/population

Population Phoenix, 1950: roughly zero.  It was pre-AC. https://www.macrotrends.net/cities/23099/phoenix/population

For every molecule of hydrocarbon combusted, 2 molecules of H2O are 'created'.  Who knew?
http://education-portal.com/cimages/multimages/16/methanecombustion.png
Hard to believe human fossil fuel use causes drought.

Water level of Lake Superior (right now) is two feet above 'normal', the world's largest freshwater lake.
https://lre-wm.usace.army.mil/ForecastData/BulletinGraphics/MBOGLWL-superior.pdf
Each inch of depth represents 550 Billion gallons, so that is 13 Trillion gallons above normal.  And normal is 3 quadrillion gallons, enough to cover both North and South America under a foot of water   ...   Want some?

The lake level at my house is right at the 100 year normal.  Rainfall and snowfall are right at historic normal.  At our cabin, lake levels have been at historic highs for several years.

I take a lot of sh*t for living in the land of 11,842 lakes, maybe because they freeze half the year.  But I can find water, pump it, buy it, drink it or jump in it, whenever I want.  )

You wouldn't move to a place that didn't have oxygen, but millions and millions and millions move to places without water.  Then the news is, no water. 

Strange that the more people that move there without thinking about something so basic and obvious and needed, the more Democrat these places become.  So much for Dems being better educated.  Educated in common sense?  How about survival?

Maybe the government has a solution.  Oops the government is more likely tangled up in the cause.

"Desalination" requires energy, so energy equals water.  Same people without water are prosecuting the war against energy.  Water also costs money.  Same people prosecute the war against prosperity.  I imagine Money would help address the water problem.

Now air conditioning is a "human right".  Air conditioning coincidentally is what we in the north might call heating the outside, it produces more heat than cold (causing drought) and burns fossil fuels in the process.  Air conditioning is what build Vegas, Phoenix into super cities, and built the southwest into a water sponge.  People like the dry climate.  But why do we attack the transportation sector and heat but not attack AC?  First, shut off the AC in every government building.  Do it for the planet.  AC also take water out of the air.  (Did I already ask, who knew?)

And on it goes.  All problems.  No solutions.  No one (hardly) even working on it.

One more point, flushing a toilet doesn't destroy water.  It merely moves it, from the tank to the bowl to the pipes below.  Ask the Israelis.  There are ways to use, capture and re-use waste water.  But letting it evaporate doesn't destroy it either.  I comes out as rain somewhere.  You're just not getting it back locally.
« Last Edit: July 05, 2022, 02:42:28 PM by DougMacG »

G M

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Re: Water, Running Dry in the American West
« Reply #126 on: July 05, 2022, 02:44:17 PM »
Because of government water programs, the price of water in the west does not reflect it's true cost.

That's a big part of the problem.

Aside from the plague of Californians, we also suffer from the millions of illegals here, consuming water as they wait for their free sh*t from American taxpayers.


Keyword there is regional problem.

"The western United States is in the grip of a deep and prolonged drought, causing unprecedented water shortages."

   - Ignored in that synopsis is population, but he gets to the key issue in the 11th paragraph.

Population Las Vegas 1950:  Roughly zero.  https://www.macrotrends.net/cities/23043/las-vegas/population

Population Phoenix, 1950: roughly zero.  It was pre-AC. https://www.macrotrends.net/cities/23099/phoenix/population

For every molecule of hydrocarbon combusted, 2 molecules of H2O are 'created'.  Who knew?
http://education-portal.com/cimages/multimages/16/methanecombustion.png
Hard to blive that is the cause.

Water level of Lake Superior (right now) is two feet above 'normal', the world's largest freshwater lake.
https://lre-wm.usace.army.mil/ForecastData/BulletinGraphics/MBOGLWL-superior.pdf
Each inch or depth represents 550 billion gallons, so that is 13 trillion gallons above normal. ...  Want some?

The lake level at my house is right at the 100 year normal.  Rainfall and snowfall are right at historic normal.  At our cabin, lake levels have been at historic highs for several years.

I take a lot of sh*t for living in the land of 11,842 lakes, maybe because they freeze half the year.  But I can find water, pump it, buy it, drink it or jump in it, whenever I want.  )

You wouldn't move to a place that didn't have oxygen, but millions and millions and millions move to places without water.  Then the news is, no water.

Strange that the more people that move there without thinking about something so basic and obvious, the more Democrat the places become.  So much for Dems being better educated.  Educated in common sense?  How about survival.

Maybe the government has a solution.  Oops the government is more likely tangled up in the cause.

"Desalination" requires energy, so energy equals water.  Same people without water are prosecuting the war against energy.  Water also costs money.  Same prosecute the war against prosperity.  I imagine Money could help address this problem.

Now air conditioning is a "human right".  Air conditioning coincidentally is what we in the north might call heating the outside, it produces more heat than cold (causing drought) and burns fossil fuels in the process.  Air conditioning is what build Vegas, Phoenix into super cities, and built the southwest into a water sponge.  People like the dry climate.  But why do we attack the transportation sector and heat but not attack AC?  First, shut it off in every government building.  Do it for the planet.  AC also take water out of the air.  (Did I already say, who knew?)

And on it goes.  All problems.  No solutions.  No one (hardly) even working on it.

Okay, one more point, flushing a toilet doesn't destroy water.  It merely moves it, from the tak to the bowl to the pipes below.  Ask the Israelis.  There are ways to use and re-use and capture waste water.  But letting it evaporate doesn't destroy it either.  you're just not getting it back locally.

G M

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Grim
« Reply #127 on: July 06, 2022, 05:42:51 PM »
https://chiefio.wordpress.com/2022/07/05/colorado-river-lakes-mead-powell-desert-southwest/

No water, no power, much less food.

Aside from that, everything is swell!

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Watch Lake Mead
« Reply #128 on: July 12, 2022, 04:57:30 PM »
https://lakemead.water-data.com/

A few things to consider:

Lake Mead is the source of 40% of Arizona's water supply.

Elevation 895 is Deadpool, meaning no water can flow past the dam. As of 07/11/22, the elevation is 1041. Elevation 950 means zero power production.

Because of the low water level, LM is only producing 66% of the electricity it normally produces.

The 3rd Straw intake is at Elevation 860, after that, Las Vegas has NO WATER.



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CA: Water getting salty
« Reply #129 on: August 11, 2022, 02:40:53 AM »
CALIFORNIA

Salty water creeps into state’s key waterways

California’s farms, economy put at risk

BY KATHLEEN RONAYNE ASSOCIATED PRESS RIO VISTA, CALIF. | Charlie Hamilton hasn’t irrigated his vineyards with water from the Sacramento River since early May, even though it flows just yards from his crop.

Nearby to the south, the industrial Bay Area city of Antioch has supplied its people with water from the San Joaquin River for just 32 days this year, compared to roughly 128 days by this time in a wet year.

They may be close by, but these two rivers, central arms of California’s water system, have become too salty to use in some places as the state’s punishing drought drags on.

In dry winters like the one California just had, less fresh water flows down from the mountains into the Sacramento River, the state’s largest.

That allows saltier water from Pacific Ocean tides to push further into the state’s main water hub, known as the Delta. It helps supply water to two-thirds of the state’s 39 million people and to farms that grow fruits and vegetables for the whole nation, playing a key but sometimes underappreciated role in the state’s economy.

A drought that scientists say is part of the U.S. West’s driest period in 1,200 years plus sea level rise are exposing the fragility of that system, forcing state water managers, cities and farmers to look for new ways to stabilize their supply of fresh water.

The Delta’s challenges offer a harbinger of the risks to come for critical water supplies elsewhere in the nation amid a changing climate.

Planners and farmers are coming at the problem of saltwater intrusion with a desalination plant, an artificial rock barrier and groundwater pumps. Those who can’t engineer their way out of the problem are left with a fervent hope that things will change.

“We just try to hang on and hope the water quality gets better,” said Bobby Costa, a farmer who has seen his cucumber yields go down by 25% this year compared to wetter years.

The Delta is the largest estuary on the west coast of the Americas. It’s home to endangered species such as chinook salmon and Delta smelt that require certain water flows, temperatures and salt mixes, as well as hundreds of square miles of farmland and millions of people who live, work and recreate in the region.

Other estuaries such as the Chesapeake Bay and within the Everglades don’t play as critical a role in directly supplying water for drinking and farming. But those estuaries are also at risk of creeping salt, causing problems for ecosystems, groundwater supplies and other needs.

Giant pumping systems built more than a half a century ago send Delta water south to major urban centers like Los Angeles and huge farming operations. The further east the salt moves, the more at risk that water system becomes.

Brackish water that creeps into the system isn’t as salty as ocean water, but it’s salty enough to render it undrinkable for some crops and for people.

“The fallout of losing control of the Delta is very serious,” said Jacob McQuirk, principal engineer for the state’s Department of Water Resources.

Last year, the state hauled 112,000 tons of rock and stacked it 30 feet deep in a key Delta river to stop salty water from getting too close to the pumps. It was the second time in the past decade the barrier was needed; The Department of Water Resources first installed it during the last drought in 2015.

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Germany: Rhine River Water levels
« Reply #130 on: August 11, 2022, 02:42:47 AM »
second post

German officials worry over low water levels in Rhine River

BY DANIEL N IEMANN AND FRANK JORDANS ASSOCIATED PRESS COLOGNE, GERMANY | Water levels on the Rhine River could reach a critically low point in the coming days, German officials said Wednesday, making it increasingly difficult to transport goods — including coal and gasoline — along an historically vital waterway as drought and an energy crisis grip Europe.

Weeks of dry weather have turned several of Europe’s major rivers into trickles, posing a headache for German factories and power plants that rely on deliveries by ship and making an economic slowdown ever more likely. Transporting goods by inland waterways is more important in Germany than in many other Western European countries, according to Capital Economics.

“This is particularly the case for the Rhine, whose nautical bottleneck at Kaub has very low water levels but which remains navigable for ships with small drafts,” said Tim Alexandrin, a spokesman for Germany’s Transport Ministry. Authorities predict that water levels at Kaub will dip below the mark of 16 inches early Friday and keep falling over the weekend. While this is still higher than the record low of 10.6 inches seen in October 2018, many large ships could struggle to safely pass the river at that spot, located roughly midway along the Rhine between Koblenz and Mainz.

“The situation is quite dramatic, but not as dramatic yet as in 2018,” said Christian Lorenz, a spokesman for the German logistics company HGK.

From France and Italy, Europe is struggling with dry spells, shrinking waterways and heat waves that are becoming more severe and frequent, a shift climate scientists attribute to changing climates. Low water levels are another blow for industry in Germany, which is struggling with shrinking flows of natural gas that have sent prices surging.

Due to the lack of water, ships bringing salt down the Rhine River from Heilbronn to Cologne that would normally carry 2,425 U.S. tons of cargo are only able to transport about 650 tons, he said.

“Of course, we hope that shipping won’t be halted, but we saw in 2018 that when water levels got very low the gas stations suddenly had no more fuel because ships couldn’t get through,” Mr. Lorenz said.

Authorities are taking steps to shift more goods traffic onto the rail network and, if necessary, give it priority, said Mr. Alexandrin, the Transport Ministry spokesman.

Those other options will be more expensive and take longer, with the higher cost making it impossible in some cases, said Andrew Cunningham, chief Europe economist for Capital Economics.

The river transportation issues are not as problematic for German industry as shrinking flows and rising prices for natural gas, he said, with Russia having reduced deliveries to Germany through the Nord Stream 1 pipeline to 20% of capacity. But the woes on the Rhine could still take a small bite out of economic growth if they last until December, add a bit to already-high inflation and lead industrial production to drop slightly, the economist said.

But with Capital Economics already expecting flat economic growth in Germany in the third quarter and a contraction in the last three months of the year, “the low water level in the Rhine simply makes a recession even more likely,” Mr. Cunningham said.

HGK and other shipping companies are preparing for a “new normal” in which low water levels become more common as global warming makes droughts more severe, sapping water along the length of the Rhine from the Swiss Alps to the North Sea.

“There’s no denying climate change and the industry is adjusting to it,” said Mr. Lorenz.

All new ships being ordered by the company will be built with a view to making them suitable for low water levels on the Rhine, he said.


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Severe Euro Drought
« Reply #131 on: August 11, 2022, 03:08:49 AM »
third

A Severe Drought Turns Up the Heat on Europe’s Economic and Energy Crises
10 MIN READAug 9, 2022 | 20:49 GMT





A photo taken on July 5, 2022, shows the dried-up river bed of the Po River in Italy's Veneto region. Water levels in Italy's largest river have reached record lows amid a severe drought.
A photo taken on July 5, 2022, shows a dried-up section of the Po River in Italy's Veneto region.

(ANDREA PATTARO/AFP via Getty Images)

A severe drought is magnifying Europe's economic risks by disrupting crop yields, energy production and trade flows at a time when the Continent is already facing soaring food and fuel prices, along with a possible energy crunch this winter. Several regions in Europe are facing severe droughts this summer, caused by the combination of a lack of precipitation and high temperatures since May. The European Commission estimated in July that nearly half of the European Union and large parts of the United Kingdom were experiencing ''warning'' levels of drought, with unusually dry conditions set to persist through September across most of Europe. Water shortages are particularly severe in the northern Italian lowlands, central Germany, eastern Hungary and northern Spain, as well as the southern, central and western regions of France, Portugal and the Netherlands. Scarce rain is affecting river discharge and depleting stored water volumes, impacting the energy sector for both hydropower generation and cooling systems of power plants. Low water supplies and high heat are also reducing crop yields, while dangerously low levels in river channels are hurting trade flows by forcing cargo vessels to sail with reduced loads.

Spain's water reservoir levels are currently 31% lower than the 10-year average. In Portugal, water levels in reservoirs are at half the previous seven-year average. In Italy, water levels in many reservoirs have been below the minimum historical values since September 2021. In France, where the drought has prompted widespread limits on freshwater use, rainfall was 84% down seen in July on the 20-year average.
Water levels in Italy's Po River are at a record low. The lack of rainfall has also thrown off the salt-to-fresh water ratio at the river's delta (which feeds into the Adriatic Sea near Venice), resulting in abnormally high salinity levels.
Water levels in Germany's Rhine River are dropping to dangerous levels for navigation as well. The reference waterline at Kaub — a key waypoint for the shipment of commodities — fell to a mere 49cm (19 inches) on Aug. 7. Below 40cm (16 inches), navigation is uneconomical.
Water levels in the Danube River, which flows through several eastern and central European countries, have dropped sharply as well. Levels are now several meters lower than they were just a year ago, in August 2021.
The drought comes as Europe is grappling with rising inflation, a looming recession, and an energy crunch that will worsen in the winter. Europe's economy is facing a combination of interconnected risks that is dissipating its post-COVID recovery and threatening to send the Continent into a recession as soon as this winter. Europe is currently grappling with its worst energy crisis in decades amid the fallout from the ongoing war in Ukraine, which has seen Russia reduce its natural gas supplies to European countries in retaliation against EU sanctions. Recent disruptions to natural gas flows via the Nord Stream 1 pipeline (which transports Russian gas under the Baltic Sea directly to Germany) have fueled fears that Russia could completely halt gas flows into Europe during the peak consumption season this winter. Such a cut-off in the winter — when Europeans use much more gas to heat buildings and homes — would cause inflation to soar even higher and would likely push several countries (including Germany, Italy and France) into economic recessions. This looming threat of additional gas supply disruptions and other Ukraine-related shocks is causing rising uncertainty and driving a surge in prices for goods and services. The record drought in Europe is now only adding to these inflationary pressures and the overall sense of unease, which will further weigh on economic growth, depress business activity and complicate plans to hedge against increased risks over the months ahead.

In July, the European Commission downgraded its GDP growth outlook for the euro area from its last forecast released in May. The commission now expects the eurozone's economy to expand by 2.6% in 2022 (down from its previous 2.7% forecast) before slowing further to just 1.4% in 2023 (down from its previous 2.3% forecast).
In late July, the European Central Bank (ECB) raised its main interest rate by 50 basis points in response to rising inflation in the eurozone, which reached a record high of 8.9% last month. The ECB also hinted at more hikes in September and beyond, which will further dampen economic activity.
The impact of the Ukraine crisis and associated EU sanctions has been felt most acutely in central and eastern European countries due to their economic ties with Moscow and greater reliance on Russian energy exports. Inflation in central and eastern Europe is the highest of any region on the Continent (at 15.4% in June), and could significantly worsen if Russia moves to fully cut off natural gas supplies.
Outside of the European Union, the United Kingdom's economy is also sliding into recession, according to the latest forecast from the Bank of England (BoE), which is accelerating monetary tightening to fight record-high inflation as well. According to the BoE, the U.K. economy is set to enter negative territory in the last quarter of 2022 and to contract by 2.1% through 2023. Inflation in the United Kingdom hit a 40-year high of 9.4% in June and is expected to rise beyond 13% in October.

The drought and extreme heat's impact on crop yields in Europe risks further driving up food prices on the Continent and worsening global food shortages. The combination of record-high temperatures and record-low rainfall this summer is already taking a toll on several European countries' agricultural sectors. In France, irrigation has been banned in large areas of the northwest and southeast due to water shortages. French farmers are also struggling to feed their livestock due to arid grasslands. In Italy, the decreasing quantity and quality of water from the Po River is threatening crop yields in the surrounding Po River Valley — the crucial agricultural zone that produces roughly 30% of the country's food (including wheat, tomatoes and grapes). In Spain, where water reservoirs are at just above 40% capacity, olive oil output is expected to be a third lower than last year. Against this backdrop, the European Commission expects all summer crop yields will be ''substantially reduced'' across the European Union in 2022 due to hot and dry weather. Poor harvests in Europe, which is home to some of the world's largest wheat exporters, could further strain global grain supplies and increase already inflated food prices — adding to the disruptions brought on by the crisis in Ukraine, which is also a major exporter of wheat, corn and sunflower products. Reduced agricultural output in Europe may be felt most acutely in the Mediterranean region and nearby Middle Eastern countries, which are among the largest consumers of European wheat.

In Italy, large agricultural producers along the Po River are struggling to keep their crops from drying out amid water shortages; smaller producers near the river's delta are also struggling to keep their crops alive due to the water's increasing salinity. Italian farmers' association Coldiretti estimates that Italy's production of wheat will decline by 15% this year due to an increase in production costs and the drought.
France's farm ministry forecasts the country's 2022 soft wheat production will be down 7.2% this year compared with last year's crop.
In July, the European Commission said that EU yields of soybean, sunflowers and corn were between 8-9% below the five-year average, with cereal yields down about 2% overall.
The increasing temperature and scarcity of water in Europe's rivers are reducing hydroelectric and thermoelectric power production, adding to the Continent's energy woes. Higher water temperatures are making it more difficult for power plants that rely on rivers for cooling to operate. The European Commission revealed that output from run-of-river plants until July was lower than the 2015-2021 average for countries including France, Italy, Spain, Portugal, Romania, Norway, Montenegro and Bulgaria. Norway, one of Europe's top exporters of electricity, is set to limit power exports to western Europe to preserve its low hydropower reservoirs. In Switzerland, restrictions on using warm water to cool reactors have forced the Swiss energy giant Axpo to reduce output at its Beznau nuclear power plant due to the rising temperatures of the Aar River. In France, the government recently granted a temporary waiver allowing the French electric utility company EDF to cool five of its nuclear plants into rivers despite high water temperatures. But while the waiver will help ease pressure on France's power sector, it won't fix the infrastructural issues that are also impeding the country's nuclear production, meaning France will still need to import electricity from neighboring countries.

Reduced output from France's nuclear sector is forcing Germany — which previously imported French electricity to power its own grid — to burn more gas for power generation instead of preserving the fuel in storage for winter.
In addition, dangerously low water levels in rivers are making it more difficult to transport fuel supplies across Europe. Low water levels in the Rhine River — a key shipping route for commodities including coal and oil products through Germany and into neighboring countries — are forcing fuel barges to reduce their loads into inland Europe, with alternatives such as rail and road already running at full capacity. Countries that use the Rhine to import oil-based fuel, particularly Germany and Switzerland, are thus facing difficulties in building heating oil stockpiles before winter and in receiving petrochemical feedstocks from the Amsterdam-Rotterdam-Antwerp hub. This is also impacting coal supplies at a time when industries across Europe are compensating for gas shortages by readopting coal.

The German utility firm Uniper warned that two of its coal-fired stations along the Rhine may need to curb output during summer.
These drought-related disruptions to both power production and fuel distribution are sending energy prices further up in Europe and frustrating efforts to increase storage levels before winter, which could result in severe economic impacts in the medium term. The added pressure on Europe's gas and electricity markets comes at a time when high demand for cooling amid this summer's record-high temperatures is already eating into supplies needed for the winter and disrupting efforts to stockpile fuel in case Russia halts natural gas supplies. But beyond the more immediate impacts, these developments could offer a preview of things to come in the long run, when the continent may have to adapt to rising temperatures and insufficient precipitation due to climate change.

Germany's and France's year-ahead electricity prices hit new record highs on Aug. 8, as several utilities across Europe warned of lower power supply due to weather conditions affecting nuclear and coal power generation.
In 2018, the last time water levels in the Rhine got as low as they are now, the resulting trade disruptions are estimated to have reduced Germany's GDP growth by 0.4% in the fourth quarter of that year. This time around, the impact on Germany's economic output may be much worse, given that the country already appears headed to enter an economic recession in the third quarter of this year.

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The Wonder of Water
« Reply #133 on: August 24, 2022, 07:16:49 AM »



Crafty_Dog

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Re: Water
« Reply #136 on: August 30, 2022, 09:36:37 AM »
Yup.

G M

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Re: Water
« Reply #137 on: August 30, 2022, 09:39:21 AM »
Yup.

Lucky for us, millions of illegal aliens flooding into the country don't require food or water!



ccp

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thought on post above
« Reply #140 on: September 04, 2022, 07:40:58 AM »
arizona leasing land to SA for one sixth the market value per acre?

how does this happen exactly ?







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Water Issues, Aral Sea
« Reply #144 on: November 09, 2022, 12:50:39 PM »

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« Last Edit: November 18, 2022, 09:52:36 AM by DougMacG »



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GPF: Water 2023
« Reply #148 on: January 19, 2023, 02:51:18 PM »
January 18, 2023
View On Website
Open as PDF

    
Don’t Forget About Water in 2023
This finite resource will have plenty of countries on edge in the coming year.
By: Antonia Colibasanu
On Jan. 16, the Chinese Ministry of Water Resources announced that Beijing invested more than 1 trillion yuan ($148 billion) on water resource management in 2022, a whopping 44 percent increase from the previous year. Elsewhere, Pakistan suggested that water resource management projects need to become a priority for the China-Pakistan Economic Corridor because by 2025 Pakistan is expected to be a water-scarce country. Weeks earlier, an Iranian official confirmed that 270 cities and towns were suffering from acute water shortage as water levels at dams dropped to critically low levels.

Factories in southwest China had to suspend their work last summer after a record-breaking drought caused some rivers in the country – including parts of the Yangtze – to dry up. Hydropower and shipping were also affected; Sichuan province was deemed to be in a “grave situation” because it generates more than 80 percent of its energy from hydropower.

Pakistan is in a similar situation. The Indus River is a source of more than 17 gigawatts of hydropower, and it provides water to the Indus basin irrigation system, which supports more than 90 percent of the country’s agricultural output. Poor water management, rapid population growth, and drought and floods have created a truly dire situation.

In Iran, a semi-arid climate and declining precipitation over the past decade have played their part in the crisis, but perennial inefficient water management since the 1990s is perhaps the larger problem. After the 1979 revolution, the new regime advanced a policy of national food self-sufficiency, which involved producing enough staple crops to meet the country’s own needs instead of relying on imports. To that end, agricultural production became reliant on groundwater extraction, and slow-filling aquifers have not been able to keep up with the growing number of water users and withdrawals.

These issues may not be new, but they are all getting worse. And the fact that these three countries are geographically interconnected has been a wake-up call for other nations around the world that have dealt with, or are soon to deal with, similar water shortages and their associated consequences.

Indeed, water is so fundamental to geopolitics that it is often overlooked. Water supplies play critical roles in sustaining life, agriculture and industry. The supply levels themselves can fluctuate dramatically for reasons outside of a government’s control. However, given the increasing threat of water shortages and the consequences arising from them, governments are increasingly more aggressive in taking what action they can to ensure supply.

Disputes over control of water resources historically end in violence. The historical dispute between Ethiopia and Egypt over water from the Nile River is probably the one that has garnered the most attention. Even today, the water supply in Donbas is carefully managed on both sides, and in Kherson, understanding the way water supplies to Crimea could be cut was key to understanding the fighting on the ground. More, the Russian attack on the Dnipro hydropower plant was meant to sever electricity to the region as part of the Russian strategy to down Ukraine's critical infrastructure. In war, water is at once a weapon and a casualty.

Global Water Conflicts | 2000-2021
(click to enlarge)

But water is only part of the equation. The droughts of 2022, followed by the warmest winter in years in the Northern Hemisphere, have many governments on edge this year as the downstream effects of water shortage take shape. The potential food crisis, initially the result of last year’s energy crisis, may only get worse. The impact will be felt the most in places like Africa and the Middle East, where water scarcity is a constant concern. Refugee flows from places like Iraq, Syria and Yemen may well increase. Food insecurity will likely grow in countries like Algeria, Morocco and Tunisia. And because it’s unclear how much food will be available for export from otherwise large producers such as Russia and Ukraine in 2023, countries with limited domestic production have even more reason for concern, especially as their citizens grow more restive.

But even for major powers like China, Pakistan and Iran, things will likely get worse before they get better. All three are already dealing with socio-economic distress. It’s unknown how much the COVID-19 pandemic hurt the Chinese economy, but it isn’t good, with reports painting a particularly bleak picture for youth unemployment. (That is to say nothing of the economic problems China faces independent of the pandemic.) Pakistan is seeing its worst socio-political crisis in years. Iran has been embroiled in high-profile protests for some time. Inflation is high in all three countries, as is economic unrest from class inequality. Adding water stress could make things even more explosive.

Water Quality Perception Over 10 Years
(click to enlarge)

Further instability in any of the three major players will likely have a spillover effect in the Middle East and beyond. A troubled Pakistan and Iran at the same time will certainly make Turkey and Saudi Arabia nervous. And what happens in China – one of the world’s largest consumers of resources and one of its biggest economic engines – matters to the rest of the world. Factory shutdowns due to water shortages in post-pandemic China would trigger new supply chain shocks affecting both Europe and the U.S. Neither is decoupled enough from the Chinese powerhouse to ignore such shocks.

Water Quality Perception, 2021
(click to enlarge)

Both have their own water issues to deal with. Lower levels in the Rhine triggered alarms for European inland shipping last year; further reductions will likely hamper economic activity in Western Europe. Last year, water scarcity compelled the U.S. government to limit water releases in western states. If things get worse, U.S. policymakers will be forced to choose between water releases, electricity generation and industrial and food production on the one hand and water conservation on the other.

Water is finite, so it’s clear that concerns over its use and distribution will increase as reserves dwindle. Under higher pressure from citizens, governments will search for quick fixes. If a fix for one country comes at the expense of another, tensions will inevitably arise – perhaps violently. Each government will manage, or try to manage, the situation differently. In poorer countries, militias may continue to fight over water, while in wealthier nations, new policies over water usage and likely new technologies for keeping and improving water infrastructure will be debated. All in all, water stress highlights another socio-economic challenge that the world needs to tackle before it gets worse

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WT: PFAS in Water
« Reply #149 on: July 07, 2023, 09:49:01 AM »
PUBLIC HEALTH

Study: Harmful chemicals are common in U.S. drinking water

PFAS linked to cancers, other health problems

BY JOHN FLESHER ASSOCIATED PRESS TRAVERSE CITY, MICH. | Drinking water from nearly half of U.S. faucets likely contains “forever chemicals” that may cause cancer and other health problems, according to a government study released Wednesday.

The synthetic compounds known collectively as PFAS are contaminating drinking water to varying extents in large cities and small towns — and in private wells and public systems, the U.S. Geological Survey said.

Researchers described the study as the first nationwide effort to test for PFAS in tap water from private sources in addition to regulated ones.

It builds on previous scientifi c findings that the chemicals are widespread, showing up in consumer products as diverse as nonstick pans, food packaging and water-resistant clothing and making their way into water supplies.

Because the USGS is a scientific research agency, the report makes no policy recommendations.

But the information “can be used to evaluate risk of exposure and inform decisions about whether or not you want to treat your drinking water, get it tested or get more information from your state” about the situation locally, said lead author Kelly Smalling, a research hydrologist.

The Environmental Protection Agency in March proposed the first federal drinking water limits on six forms of PFAS, or per- and polyfluorinated substances, which remain in the human body for years and don’t degrade in the environment. A final decision is expected later this year or in 2024.

But the government hasn’t prohibited companies using the chemicals from dumping them into public wastewater systems, said Scott Faber, a senior vice president of the Environmental Working Group, an advocacy organization.

“We should be treating this problem where it begins, instead of putting up a stoplight after the accident,” Mr. Farber said. “We should be requiring polluters to treat their own wastes.”

Studies of lab animals have found potential links between PFAS chemicals and some cancers, including those of the kidneys and testicles, plus issues such as high blood pressure and low birth weight.

In contrast, the USGS report was based on samples from taps in 716 locations, including 447 that rely on public supplies and 269 using private wells.

The samples were taken between 2016 and 2021 in a range of locations — mostly homes but also a few schools and offices.

They included protected lands such as national parks; residential and rural areas with no identified PFAS sources; and urban centers with industry or waste sites known to generate PFAS.

Most taps were sampled just once. Three were sampled multiple times over a threemonth period, with results changing little, Ms. Smalling said.

Scientists tested for 32 PFAS compounds — most of the ones detectable through available methods. Thousands of others are believed to exist but can’t be spotted with current technology, Ms. Smalling said.

The types found most often were PFBS, PFHxS and PFOA. Also making frequent appearances was PFOS, one of the most common nationwide.

The heaviest exposures were in cities and near potential sources of the compounds, particularly in the Eastern Seaboard; Great Lakes and Great Plains urban centers; and Central and Southern California.

Many of the tests, mostly in rural areas, found no PFAS