What is water and where did it come from?
You’ve probably heard of atoms, the tiniest building blocks of all matter in the Universe. We are all made of atoms stuck together (or, as scientists would say, “bonded”). Atoms bonded together to form molecules.
A molecule of pure water is made of two hydrogen atoms bonded to an oxygen atom. As explained in a previous Curious Kids article, scientists think the water on Earth may have come from the melting of water-rich minerals during the formation of the planet and icy comets that, billions of years ago, smashed into Earth and melted.
Why can’t we just make more?
While making small volumes of pure water in a lab is possible, it’s not practical to “make” large volumes of water by mixing hydrogen and oxygen together. The reaction is expensive, releases lots of energy, and can cause really massive explosions.
While the total volume of water on Earth stays about the same, water continually changes location and state. That means sometimes it is a liquid (like the water we drink), a solid (ice) or a gas (water vapour such as steam).
Scientists call this process of change the hydrologic (water) cycle, which is where water constantly moves around the world by cycling between the air, the ground and the ocean.
Round and round
The cycle begins when water is evaporated from the ocean (or lakes, rivers and wetlands) and enters the atmosphere (the air all around us) as water vapour (gas).
As warm, water-rich air rises, it cools down and can hold less water.
As a result, clouds form. Eventually, the water vapour changes back to liquid water and falls to Earth as rain. Rain that’s not immediately evaporated back into the atmosphere either flows into the ocean as runoff or is absorbed into the earth and becomes groundwater – water stored underground in the tiny spaces within rocks.
Plants can suck up groundwater with their roots, and push water out through tiny holes in their leaves (this is called transpiration).
Groundwater flows slowly through the earth to the ocean and the cycle begins again.
The hydrologic cycle is sensitive to changes in temperature and pressure. For example, if it is hot and windy, more evaporation occurs. Therefore, climate change impacts the hydrologic cycle. Regions that were once wet can become dry (and vice-versa) because clouds drop their rain into the ocean instead of upon the land where it can be collected and used.
Two tiny drops of drinking water
We drink freshwater, but most water on Earth is salty. And the vast majority of available fresh water on Earth is actually hidden underground as groundwater.
In fact, if you imagine all the water on Earth could fit into a one-litre milk carton, it would all be ocean water except for only two tablespoons of freshwater.
Of the two tablespoons of freshwater, slightly less than three quarters would be frozen solid into ice and most of the rest would be groundwater.
The freshwater we see and use in rivers, swamps and lakes would only amount to less than two drops of the water in the world.
Therefore, protecting large freshwater sources like groundwater is very important because removing salt from ocean water can cost lots of money and energy.
The atmosphere, Earth and ocean are interconnected and things we do in one place can affect the quality of water in other places.
Chemicals poured down the sink or pumped into the atmosphere can eventually end up in the groundwater, which means less available freshwater for us to use.
Although we can’t “make” more water, we can make the best of the water we have by conserving and protecting it.