国产诱惑福利

This summer, a first-of-its-kind global research expedition . Drilling for fresh water under the salt water off Cape Cod, Expedition 501 extracted thousands of samples from what is now thought to be a massive, hidden aquifer stretching from New Jersey as far north as Maine.

It's just one of many depositories of 鈥渟ecret fresh water鈥� known to exist in shallow salt waters around the world that might some day be tapped to slake the , said Brandon Dugan, the expedition's co-chief scientist.

鈥淲e need to look for every possibility we have to find more water for society,鈥� Dugan, a geophysicist and hydrologist at the Colorado School of Mines, told Associated Press journalists who recently spent 12 hours on the drilling platform. The research teams looked in 鈥渙ne of the last places you would probably look for fresh water on Earth.鈥�

They found it, and will be analyzing nearly 50,000 liters (13,209 gallons) of it back in their labs around the world in the coming months. They're out to solve the mystery of its origins 鈥� whether the water is from glaciers, connected groundwater systems on land or some combination.

The potential is enormous. So are the hurdles of getting the water out and puzzling over who owns it, who uses it and how to extract it without undue harm to nature. It's bound to take years to bring that water ashore for public use in a big way, if it's even feasible.

The Ancient Mariner told us so

Why try? In just five years, the U.N. says, the global demand for fresh water . Rising sea levels from the warming climate are souring coastal freshwater sources while data centers that power AI and cloud computing are consuming water at an insatiable rate.

The fabled , 鈥淲ater, water, every where, nor any drop to drink,鈥� looms as a warning to landlubbers as well as to sailors on salty seas.

In Virginia alone, a quarter of all power produced in the state , a share expected to nearly double in five years. By some estimates, each midsize data center consumes as much water as 1,000 households. Each of the Great Lakes states has experienced groundwater shortages.

Cape Town, South Africa, to running out of fresh water for its nearly 5 million people in 2018 during an epic, three-year drought. South Africa is thought to have a coastal undersea freshwater bonanza, too, and there is at least anecdotal evidence that every continent may have the same.

Canada's Prince Edward Island, Hawaii and Jakarta, Indonesia, are among places where stressed freshwater supplies coexist with prospective aquifers under the ocean.

Enter Expedition 501, a $25 million scientific collaboration of more than a dozen countries backed by the U.S. government's National 国产诱惑福利 Foundation and the European Consortium for Ocean Research Drilling (U.S. money for it was secured before budget cuts sought by the Trump administration).

Scientists went into the project believing the undersea aquifer they were sampling might be sufficient to meet the needs of a metropolis the size of New York City for 800 years. They found fresh or nearly fresh water at both higher and lower depths below the seafloor than they anticipated, suggesting a larger supply even than that.

Drill, baby, drill. For water

Their work at sea unfolded over three months from Liftboat Robert, an oceangoing vessel that, once on site, lowers three enormous pillars to the seafloor and squats above the waves. Normally it services offshore petroleum sites and wind farms. This drill-baby-drill mission was different.

鈥淚t鈥檚 known that this phenomena exists both here and elsewhere around the world,鈥� Expedition 501 project manager Jez Everest, a scientist who came from the British Geological Survey in Edinburgh, Scotland, said of undersea water. 鈥淏ut it鈥檚 a subject that鈥檚 never been directly investigated by any research project in the past.鈥�

By that, he means no one globally had drilled systematically into the seabed on a mission to find freshwater. Expedition 501 was quite literally groundbreaking 鈥� it penetrated Earth below the sea by as many as 1,289 feet or nearly 400 meters.

But it followed a 2015 research project that mapped contours of an aquifer remotely, using electromagnetic technology, and roughly estimated salinity of the water underneath.

That mission, by the Woods Hole Oceanographic Institution and Lamont-Doherty Earth Observatory at Columbia University, of a 鈥渕assive offshore aquifer system鈥� in this area, possibly rivalling the size of America鈥檚 largest 鈥� , which supplies water to parts of eight Great Plains states.

Two developments in 1976 had stirred interest in searching for undersea freshwater.

In the middle of Nantucket island, the U.S. Geological Survey drilled a test well to see how far down the groundwater went. It from such great depths that it made scientists wonder if the water came from the sea, not the sky.

The same year, that federal agency aboard the drilling vessel Glomar Conception along a vast stretch of the Continental Shelf from Georgia to Georges Bank off New England. It drilled cores in search of the sub-seabed's resources, like methane.

It found an eye-opening amount of fresh or freshened water in borehole after borehole.

That set the stage for the water-seekers to do their work a half-century later.

A eureka moment comes early

Soon after Robert arrived at the first of three drilling sites May 19, samples drawn from below the seabed registered salinity of just 4 parts per thousand. That's far below the oceans' average salt content of 35 parts per thousand but still too briny to meet the U.S. freshwater standard of under 1 part per thousand.

鈥淔our parts per thousand was a eureka moment," Dugan said, because the finding suggested that the water must have been connected to a terrestrial system in the past, or still is.

As the weeks wore on and Robert moved from site to site 20 to 30 miles (30 to 50 kilometers) off the coast, the process of drilling into the waterlogged subsea sediment yielded a collection of samples down to 1 part per thousand salt content. Some were even lower.

Bingo. That's what you find in many bodies of fresh water on land. That's water you can drink, in theory. No one did.

Don't drink the water yet

In months of analysis ahead, the scientists will investigate a range of properties of the water, including what microbes were living in the depths, what they used for nutrients and energy sources and what byproducts they might generate; in other words, whether the water is safe to consume or otherwise use.

鈥淭his is a new environment that has never been studied before,鈥� said Jocelyne DiRuggiero, a Johns Hopkins University biologist in Baltimore who studies the microbial ecology of extreme environments and is not involved in the expedition.

鈥淭he water may contain minerals detrimental to human health since it percolated through layers of sediments,鈥� she said. 鈥淗owever, a similar process forms the terrestrial aquifers that we use for freshwater, and those typically have very high quality.鈥�

By sequencing DNA extracted from their samples, she said, the researchers can determine which microorganisms are there and 鈥渓earn how they potentially make a living.鈥�

Determining the water's age is

key

Techniques will also be used to determine whether it came from glacial ice melt thousands of years ago or is still coming via labyrinthian geologic formations from land.

Researchers will date the water back in the lab, and that will be key in determining whether it is a renewable resource that could be used responsibly. Primordial water is trapped and finite; newer water suggests the aquifer is still connected to a terrestrial source and being refreshed, however slowly.

鈥淵ounger means it was a raindrop 100 years ago, 200 years ago,鈥� Dugan said. 鈥淚f young, it鈥檚 recharging.鈥�

Those questions are for basic science. For society, all sorts of complex questions arise if the basic science affirms the conditions necessary for exploiting the water. Who will manage it? Can it be taken without an unacceptable risk of contaminating the supply from the ocean above? Will it be cheaper or environmentally friendlier than today's energy-hungry desalination plants?

Dugan said if governments decide to get the water, local communities could turn to the aquifers in time of need, such as drought, or when extreme storms flood coastal freshwater reserves and ruin them. The notion of actually using this old buried water is so new that it has not been on the radar of many policymakers or conservationists.

鈥淚t鈥檚 a lesson in how long it can take sometimes to make these things happen and the perseverance that鈥檚 needed to get there," said Woods Hole geophysicist Rob Evans, whose 2015 expedition helped point the way for 501. 鈥淭here鈥檚 a ton of excitement that finally they鈥檝e got samples."

Still, he sees some red flags. One is that tapping undersea aquifers could draw water away from onshore reserves. Another is that undersea groundwater that seeps out to the seafloor may supply nutrients vital to the ecosystem, and that could be upset.

"If we were to go out and start pumping these waters, there would almost certainly be unforeseen consequences,鈥� he said. 鈥淭here鈥檚 a lot of balance we would need to consider before we started diving in and drilling and exploiting these kinds of things.鈥�

They're a long way from home

For most in the project, getting to and from Liftboat Robert meant a voyage of seven hours or more from Fall River, Massachusetts, on a supply boat that made round trips every 10 days or so to replenish stocks and rotate people.

On the platform, around the clock, the racket of metal bore pipes and machinery, the drilling grime and the speckled mud mingled with the quieter, cleaner work of scientists in trailers converted to pristine labs and processing posts.

There, samples were treated according to the varying needs of the expedition鈥檚 geologists, geochemists, hydrologists, microbiologists, sedimentologists and more.

Passing through clear plastic tubes, muck was sliced into disks like hockey pucks. Machines squeezed water out. Some samples were kept sealed to enable study of ancient gases dissolved in the water. Other samples were frozen, filtered or left as is, depending on the purpose.

After six months of lab analysis, all the science teams of Expedition 501 will meet again 鈥� this time in Germany for a month of collaborative research that is expected to produce initial findings that point to the age and origin of the water.

On July 31, Liftboat Robert cranked up its legs from this place of hidden water to end a mission that lent credence to another passage from 鈥淭he Rime of the Ancient Mariner," Samuel Taylor Coleridge's classic poem about life, death and mysteries at sea.

In a prelude to the poem, in some editions, Coleridge wrote: "I readily believe that there are more invisible than visible Natures in the universe.鈥�

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Woodward reported from Seekonk, Massachusetts.

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