Every living thing on Earth needs water to survive and the water that we drink today is the same water that wooly mammoths, dinosaurs, and the first humans ever drank!
Therefore, if the water molecules in a glass of water were spread evenly throughout the entire hydrosphere, you would find around 1000 of those molecules in any glass of water. As a result, it's nearly 100% likely that water that moved around during the age of dinosaurs is in that glass of water you're drinking.
We could be gulping down the same water that dinosaurs drank
Because of the way water circulates on planet Earth, there is a "very high chance" that the tap water consumed by humans is the same that dinosaurs were drinking tens of millions of years ago.
Floodplain dinosaurs slurped from local rivers, while forest dinosaurs drank water rich in minerals that had circulated through the rocks, picking up volcanic salts on the way.
Their conclusion is that most of the water we drink formed during the early formation of the Solar System some 4.5 billion years ago. In other words, it is older than Earth itself.
Scientists looking into the origin of life on Earth have claimed that the water present on the planet is very, very old. In fact, a new study has said that it's older than the Sun. The research is based on the discovery of water vapour around V883 Orionis, a young star, 1,305 light years away from Earth.
By looking at the water on protostar V883 Orion, a mere 1,305 light-years from Earth, scientists found a "probable link" between the water in the interstellar medium and the water in our solar system. That likely means our water is billions of years older than the sun.
“Water formed in the mantle can reach the surface via multiple ways, for example, carried by magma in the form of volcanic activities.” It is possible that water is still being made this way deep inside Earth today, and the same could be true of other planets.
Earth's water is 4.5 billion years old, just like the article's title says. At least some of it is. According to the authors, planetesimals probably delivered it to Earth, but exactly how that happens isn't clear.
While all types of water may appear to be the same, they can vary greatly, depending on the source. Bottled water is often purified and thus pollutants removed that may be found in other waters.
Every glass of water contains almost 100% Jurassic pee, claim scientists. The next time you reach for a glass of water, remember this; you could be about to sip on dinosaur pee.
Some birds, like flamingos and penguins, make a special substance called "crop milk" to feed their young. A new theory suggests that some dinosaurs may have done the same to keep their young healthy.
The water on Earth is the same water that has been here for almost five billion years, which means the water you're drinking, has been drunk around ten times before and even contains dinosaur urine.
Before, when people lived as hunters/ collectors, river water was applied for drinking water purposes. When people permanently stayed in one place for a long period of time, this was usually near a river or lake. When there were no rivers or lakes in an area, people used groundwater for drinking water purposes.
Washington, DC—Our planet's water could have originated from interactions between the hydrogen-rich atmospheres and magma oceans of the planetary embryos that comprised Earth's formative years, according to new work from Carnegie Science's Anat Shahar and UCLA's Edward Young and Hilke Schlichting.
As the BBC reported, it was generally accepted that the "asteroid cut off the food supply" for the ocean's animal population, which is why its hulking sea reptiles and various organisms perished with the dinosaurs.
What does this mean exactly? It suggests that most of Earth's water was on the surface at that time, during the Archean Eon between 2.5 and 4 billion years ago, with much less in the mantle. The planet's surface may have been virtually completely covered by water, with no land masses at all.
Now, evidence is mounting that some 3 billion to 4 billion years ago, the planet's oceans held nearly twice as much water—enough to submerge today's continents above the peak of Mount Everest. The flood could have primed the engine of plate tectonics and made it more difficult for life to start on land.
The water on our Earth today is the same water that's been here for nearly 5 billion years. So far, we haven't managed to create any new water, and just a tiny fraction of our water has managed to escape out into space. The only thing that changes is the form that water takes as it travels through the water cycle.
Adam is the name given in Genesis 1-5 to the first human. Beyond its use as the name of the first man, adam is also used in the Bible as a pronoun, individually as "a human" and in a collective sense as "mankind".
While the end of oxygen is still a billion years away, when the depletion begins to take hold, it will occur rather rapidly, in about 10,000 years. Reinhard explained the severity of the change: The drop in oxygen is very, very extreme; we're talking around a million times less oxygen than there is today.
Theoretically, this is possible, but it would be an extremely dangerous process, too. To create water, oxygen and hydrogen atoms must be present. Mixing them together doesn't help; you're still left with just separate hydrogen and oxygen atoms.
Dehydration in seniors can happen quickly because water volume in the body naturally decreases with age, which can increase the risk of dehydration. Nearly 40% of seniors are chronically under-hydrated and because of this are at greater risk of urinary tract infections, falls, kidney stones, and more.
Enormous amounts of water, in gaseous form, exist in the vast stellar nurseries of our galaxy. The Hubble Space Telescope peered into the Helix Nebula and found water molecules.
One of NASA's guiding policies in the search for alien life is to "follow the water." Water is fairly common in the universe, found everywhere from vast interstellar dust clouds to the orange-red fields of Mars, but most of this water is in the form of ice.