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For 20 years, NASA satellites have monitored Earth from space, tracking the pulse of life in seasonal patterns as heat moves around the planet, sea ice grows and shrinks, and vegetation blooms and recedes on the continents.

And now, data gathered by a fleet of satellites circling Earth since 1997 have been visualized as a breathtaking time-lapse video of our dynamic planet, capturing the most complete view to date of biology on a global scale, spanning two decades.

During warm months in each hemisphere, sea-ice cover near the poles declines and the lush green colors of emerging plant life spread in undulating waves over land, as more plants take up carbon dioxide and produce oxygen. In the oceans, microscopic phytoplankton swirl to form growing and shrinking clouds, likewise following seasonal cycles of growth that are visible to NASA satellites as subtle color changes in the water. [Earth Pictures: Iconic Images of Earth from Space]

"That's the Earth — that is it breathing every single day, changing with the seasons, responding to the sun, to the changing winds, ocean currents and temperatures," Gene Carl Feldman, an oceanographer at NASA's Goddard Space Flight Center in Greenbelt, Maryland, said in a statement.

"These are incredibly evocative visualizations of our living planet," Feldman said.

There's no question that the time-lapse video is mesmerizing to watch, but it also shows researchers something unprecedented, revealing the behavior of oceans and land simultaneously and through time, over decades.

From space, satellites can see Earth breathe. A new NASA visualization shows 20 years of continuous observations of plant life on land and at the  ocean’s surface, from September 1997 to September 2017.
From space, satellites can see Earth breathe. A new NASA visualization shows 20 years of continuous observations of plant life on land and at the ocean’s surface, from September 1997 to September 2017.
Credit: NASA

"We've never had data like these before," Compton Tucker, an Earth scientist with NASA, said in a video statement.

"Half of our photosynthesis occurs in the oceans and the other half on land. And having these data to show both [sites of photosynthesis] at the same time — day after day, month after month, year after year for 20 years — is a great tool to study life on Earth," Tucker added.

NASA experts compiled all this data from space to tell the fascinating visual story of the changes that happen on land and sea from season to season, creating a map that enables researchers to monitor ocean and forest health, and track conditions in fisheries and agriculture. As years tick by, larger-scale changes reveal how these cycles may be shifting in response to human activities that are reshaping the planet and its climate.

"You can see greening of the Arctic. You can see earlier summers, later winters," NASA oceanographer Jeremy Werdell said in a video statement.

"The view from space has opened our eyes to so many different things," Werdell said.

The SeaWiFS satellite launched in late 1997, just in time to capture the phytoplankton that bloomed in the eastern equatorial Pacific as conditions changed from El Niño to La Niña, seen here in yellow.
The SeaWiFS satellite launched in late 1997, just in time to capture the phytoplankton that bloomed in the eastern equatorial Pacific as conditions changed from El Niño to La Niña, seen here in yellow.
Credit: NASA

Continuous, global viewing of Earth's oceans began with the launch of the Sea-viewing Wide Field-of-view Sensor (SeaWiFS) satellite in 1997, and scientists were just in time to observe the transition from El Niño to La Niña — when tropical ocean temperatures in the Pacific shift from being warmer than average to being cooler than average.

That transition had a dramatic impact on phytoplankton growth, with plankton blooming in ocean regions where hardly any signs of planktonic life had been spied by satellites before.

"And we watched it happen in real time," Feldman said in the statement.

"For me, that was the first demonstration of the power of this kind of observation, to see how the ocean responds to one of the most significant environmental perturbations it could experience, over the course of just a few weeks," he said.

Certain patterns can also be observed over land, on a regional level. In the United States, for example, the recent impacts of drought in Texas, California and the Pacific Northwest are visible, while the southeastern part of the country has been spared extremes of dryness and flood. Consolidating this data from Earth-orbiting satellites helps scientists to better understand the interconnectedness of all these processes — in the oceans and on land, Fedldman said.

The fact that the time-lapse is beautiful and fascinating doesn't hurt either, Werdell added.

"The ability to expand your senses into space; compress time; watch visualizations like these; see how the ecosystems of land, sea, atmosphere, ice all interact; and then to be able to rewind it and watch it again and again — it's amazing," he said.

Original article on Live Science.