5 Ways Studying Water Will Help Us Better Understand Earth

Studying our home planet is just as powerful as exploring what’s beyond it.

Surface Water and Ocean Topography (SWOT) is a joint mission developed by NASA and the French space agency Centre National d’Études Spatiales (CNES), with contributions from the Canadian Space Agency and the UK Space Agency. It will track water on more than 90% of Earth’s surface and help communities, scientists, and researchers better understand this finite and vital resource. And it’s launching this month!

So how will SWOT help us better understand Earth? Here are 5 ways.

This is a GIF of SWOT in space as it passes over Earth and simulates the satellite becoming operational. The SWOT satellite deploys components that were stored for the launch, including extending its solar panels and deploys its booms and antennas.

SWOT will address some of the most pressing climate change questions of our time.

An important part of predicting our future climate is determining at what point Earth’s ocean water slows down its absorption of the excess heat in the atmosphere and starts releasing that heat back into the air, where it could accelerate global warming. SWOT will provide crucial information about this global heat exchange between the ocean and the atmosphere, enabling researchers to test and improve future climate forecasts.

The satellite will also offer insights to improve computer models for sea level rise projections and coastal flood forecasting.

Data from SWOT will additionally help scientists, engineers, water managers, and others better monitor drought conditions in lakes and reservoirs and improve flood forecasts for rivers.

This GIF is a short timelapse of a tree in the middle of a wetland type environment. As the timelapse begins water slowly starts to increase and by the end of the timelapse, the area around the tree is completely flooded.

SWOT is the first satellite mission that will observe nearly all water on the planet’s surface.

SWOT will measure the height of water in Earth’s lakes, rivers, reservoirs, and the ocean, giving scientists the ability to track the movement of water around the world.

SWOT’s eye in the sky will provide a truly global view of the water on more than 90% of Earth’s surface, enriching humankind’s understanding of how the ocean reacts to and influences climate change along with what potential hazards – including floods – lie ahead in different regions of the world.

This GIF was created from video footage of Alaska water ways and roads. It is a collection of scenes throughout Alaska including a large waterway next to road, a car traveling over a bridge, as well as various large rivers and creeks.

SWOT will see Earth’s water in higher definition than ever before.

Because everything is better in HD 😉, SWOT will view Earth’s ocean and freshwater bodies with unprecedented clarity compared to other satellites, much like a high-definition television delivers a picture far more detailed than older models. This means that SWOT will be able to “see” ocean features – like fronts and eddies – that are too small for current space-based instruments to detect. Those measurements will help improve researchers’ understanding of the ocean’s role in climate change.

Not only will the satellite show where – and how fast – sea level is rising, it will also reveal how coastlines around the world are changing. It will provide similar high-definition clarity for Earth’s lakes, rivers, and reservoirs, many of which remain a mystery to researchers, who aren’t able to outfit every water body with monitoring instruments.

Animation of SWOT as it flies over Florida and conducts its measurements of the water below. SWOT will collect data across a 75-mile (120-kilometer) wide swath, with a gap in the center for an altimetry track. This is an animation that shows the collection of data over the state of Florida, which is rich with rivers, lakes, and wetlands. Green and pink lights move downwards from the satellite to Earth, mimicking the satellite collecting data over the ocean and freshwater areas.

SWOT data will be used to help make decisions about our daily lives and livelihoods.

As climate change accelerates the water cycle, more communities around the world will be inundated with water while others won’t have enough. SWOT data will be used to monitor drought conditions and improve flood forecasts, providing essential information to water management agencies, disaster preparedness agencies, universities, civil engineers, and others who need to track water in their local areas. SWOT data also will help industries, like shipping, by providing measurements of water levels along rivers, as well as ocean conditions, including tides, currents, and storm surges.

This GIF shows catastrophic flooding in various communities throughout the world. The first scene includes several houses with water up to the roofs, almost covering the entire neighborhood. The next scene shows a road that is no longer accessible due to water flooding and covering entire segments of the road.

Finally … SWOT will pave the way for future Earth missions.

With its innovative technology and commitment to engaging a diverse community of people who plan to use data from the mission, SWOT is blazing a trail for future Earth-observing missions. SWOT’s data and the tools to support researchers in analyzing the information will be free and accessible. This will help to foster research and applications activities by a wide range of users, including scientists, resource managers, and others who in the past may not have had the opportunity to access this kind of information. Lessons learned from SWOT will lead to new questions and improvements for future missions, including our upcoming Earth System Observatory, a constellation of missions focused on studying key aspects of our home planet.

This is video footage of the SWOT satellite in a Thales Alenia Space clean room facility in Cannes, France. The shot is from faraway so you can see the entirety of the satellite and sheer size – 16.4 feet (5 meters) tall. Below the satellite is a group of about 15 team members admiring the satellite.

Keep track of the mission here. And make sure to follow us on Tumblr for your regular dose of space!

Behold—the space station of the future! (…from 1973)

An artist's concept illustrating a cutaway view of the Skylab 1 Orbital Workshop (OWS). The OWS is a circular space with several vertical layers with floors that look like golden honeycombs. Different parts of the workshop are labeled, like the control and display panel where an astronaut in an orange jumpsuit works, film vaults, experiment support system, and the shower. Credit: NASA

This artist’s concept gives a cutaway view of the Skylab orbital workshop, which launched 50 years ago on May 14, 1973. Established in 1970, the Skylab Program's goals were to enrich our scientific knowledge of Earth, the sun, the stars, and cosmic space; to study the effects of weightlessness on living organisms; to study the effects of the processing and manufacturing of materials in the absence of gravity; and to conduct Earth-resource observations.

Three crews visited Skylab and carried out 270 scientific and technical investigations in the fields of physics, astronomy, and biological sciences. They also proved that humans could live and work in outer space for extended periods of time, laying the groundwork for the International Space Station.

Make sure to follow us on Tumblr for your regular dose of space!

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Artemis I Launch to the Moon (Official NASA Broadcast) - Nov. 16, 2022

Watch live as our mega Moon rocket launches an uncrewed Orion spacecraft on a six-week mission around the Moon and back to Earth. NASA is targeting Wednesday...

Now Live: Artemis I launch with Astronaut Kayla Barron.

Through Artemis missions, NASA will land the first woman and the first person of color on the Moon, paving the way for a long-term lunar presence and serving as a steppingstone to send astronauts to Mars.

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Guy Bluford, an African American man, floats near storage inside the Challenger spacecraft. He has one hand on a shiny gray bag with markings on it, and the other is nearly off-screen on the right. He wears a powder blue jumpsuit that has various zippers on it, as well as NASA, mission, and flag patches. He is looking directly at the camera while smiling. Credit: NASA

Guy Bluford Changed the Course of Space History

On Aug. 30, 1983, Guion Bluford, better known as Guy, became the first African American to fly to space. An accomplished jet pilot and aerospace engineer, Bluford became part of NASA’s 1978 astronaut class that included the first African American, the first Asian American, and the first women astronauts.

He and the other crew members of mission STS-8 were aboard the orbiter Challenger as it lifted off from Kennedy Space Center in Florida; it was the first nighttime launch and landing of the Space Shuttle program. While aboard, he and the other crew members deployed the Indian National Satellite (INSAT-1B), operated a Canadian-built robot arm, conducted experiments with live cell samples, and participated in studies measuring the effects of spaceflight on humans.

Guy Bluford chased his childhood dream of becoming an aerospace engineer, and in doing so, changed history and encouraged other Black astronauts to follow in his footsteps.

Make sure to follow us on Tumblr for your regular dose of space—and for milestones like this!

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