Where do you go to quench your thirst? The kitchen sink, the local bar, or the mineral-rich springs of Bergamo, Italy? In the 21st century, you don’t have to go that far for fresh water, but still, supply is running out. What if we didn’t have to worry about water consumption? What if you could drink and shower as much as you wanted? What if a trip to the well and a trip to the beach were one and the same? You might give a lot for those privileges, but how much would it really cost?
The first big question we have to ask is why is the ocean so salty to begin with? Well, it wasn’t always like that. About 3.8 billion years ago, Earth’s surface had finally cooled to the point that water vapour turned to liquid. No salt added. That’s right, a really long time ago, the oceans were freshwater. But that wasn’t going to last. Whenever it rains, carbon dioxide from the air dissolves into the falling water. This makes the rain slightly acidic and when it falls, it causes rocks to erode. From there, rainwater slides towards nearby rivers and streams, taking loose salt and minerals along with it. From there, this runoff flows from rivers into the ocean. Add to that any additional salt and minerals that would be expelled from hydrothermal vents or submarine volcanoes, and then consider that this whole process has been recurring more or less consistently for 3.8 billion years. That’s a lot of salt. In fact, there’s so much salt in the ocean that if you spread it evenly across all the land on Earth, it would amount to one towering layer of salt that’s 40 stories tall. 97% of all the water on Earth is saline and we’ve got to assume it’s for a reason.
So what would our world look like if we took the salt out of the sea? Freshwater oceans sure do sound like a godsend right now. It’s predicted that a third of the world will be facing chronic water shortages by 2025. At our current rate of consumption, the global demand for fresh water doubles every 20 years. So maybe freshwater oceans would actually yield a good outcome this time? Nope. A sea without salt would decimate marine life and dramatically affect our weather and temperatures, making human life on Earth very difficult, if not impossible.
There are roughly 228,450 species in the ocean and as many as two million more to be discovered. But if the ocean were to become desalinated, we’d never find them. Saltwater fish and other ocean creatures evolved to be able to drink salt water to stay hydrated and get rid of excess salt. Not all sea creatures do this the same way, but being able to pump out excess salt is crucial to surviving in the ocean. Some species like salmon have adapted to tolerate freshwater and saltwater, but for the most part, all saltwater species would perish. This includes underwater algae which, believe it or not, accounts for half the photosynthesis that occurs on Earth.
Photosynthesis plays a vital role in supplying our planet with oxygen since trees and plants convert carbon dioxide from the atmosphere into the air we breathe. So without algae, not only do we get less oxygen, we also have a lot more carbon dioxide in our atmosphere. This intensification of the greenhouse effect would make some parts of the world unbearably hot. You’d definitely notice this intense heat near the equator since our ocean currents wouldn’t be circulating warm water and air the way they used to. Convection currents help warm water from the equator get farther north while colder water from the north is able to cool hotter areas down south. At the equator, warmer water can carry more salt, so this denser water sinks lower while cooler water flows over top of it. And in the far north, the water gets cold enough to freeze and form sea ice. Salt gets left behind as the water freezes and naturally this makes colder water up north denser, allowing it to sink to the bottom to make room for the incoming warmer water that’s worked its way up from the south. But without salt, the whole process breaks down. Earth’s extremities would freeze while weather around the equator would intensify. For one thing, hurricanes would be a lot more frequent and a lot more deadly.
At this point, our weather and our climate would be totally different from how we know it now. How long would we survive to see all these changes? Not long at all. You’d either freeze, overheat, die in a natural disaster, or starve to death. With significantly less photosynthesis and climates that are either extremely cold or extremely hot, our weather would no longer support the diverse plant life that exists now. The entire food chain would collapse. Most species would die off, including humans, since crops we rely on for sustenance would all disappear. So when we say ocean salinization is important, don’t take it with a grain of salt.
Of course, we respect the scientific method, so keep questioning the world and its properties on land and beyond. And come back soon for another ‘what if’ scenario.
Use an online water cycle simulation to explore how water moves through different stages: evaporation, condensation, precipitation, and collection. Pay special attention to how salt is left behind during evaporation, contributing to ocean salinity. Discuss how this process has been occurring for billions of years.
Conduct an experiment where you compare the buoyancy of objects in saltwater and freshwater. Use a clear container, water, and salt to create your own saltwater. Observe how objects float differently in each type of water and relate this to the density differences caused by salt.
Choose a saltwater species and research how it has adapted to live in a saline environment. Create a presentation or poster that explains these adaptations and what would happen to the species if the ocean became freshwater.
Participate in a classroom debate on the impact of desalinating the oceans on global climate. Split into two groups: one supporting the idea and one opposing it. Use evidence from the article to support your arguments and discuss the potential consequences on weather patterns and human life.
Write a short story imagining a day in a world where all ocean water has become freshwater. Describe the changes in marine life, climate, and human society. Use details from the article to make your story realistic and engaging.
quenching – satisfying one’s thirst or desire – After playing soccer for an hour, I had a glass of ice-cold water, which quenched my thirst.
thirst – a strong desire or need to drink – The hot weather made me develop a thirst that could only be satisfied with a cold beverage.
21st century – the current century, from 2001 to 2100 – The advancements in technology have significantly shaped the way we live in the 21st century.
fresh water – water that is clean and free from impurities – The hiker filled his water bottle from a fresh water spring in the mountains.
water consumption – the act of using or drinking water – The government has implemented campaigns to raise awareness about responsible water consumption.
well – a deep hole or shaft drilled to obtain water or oil – The villagers relied on the community well for their daily water needs.
beach – a sandy or pebbly area along the edge of a body of water – The family enjoyed a relaxing day at the beach, building sandcastles and swimming in the ocean.
cost – the amount of money required to purchase or obtain something – The cost of living in the city is much higher compared to rural areas.
ocean – a vast body of saltwater that covers most of the Earth’s surface – The cruise ship sailed across the Atlantic Ocean, offering breathtaking views of the open water.
salty – containing a high amount of salt – The fisherman’s hands were covered in a thin layer of salty residue after spending hours in the ocean.
