Theorized Northern Ocean of Mars; now long gone. (NASA)
Change is the one constant in our world– moving in ways tiny and enormous, constructive and destructive.
We’re living now in a time when a rampaging pandemic circles the globe and when the climate is changing in so many worrisome and potentially devastating ways.
With these ominous changes as a backdrop, it is perhaps useful to spend a moment with change as it happens in a natural world without humans. And just how complete that change can be:
For years now, planetary scientists have debated whether Mars once had a large ocean across its northern hemisphere.
There certainly isn’t one now — the north of Mars is parched, frigid and largely featureless. The hemisphere was largely covered over in a later epoch by a deep bed of lava, hiding signs of its past.
The northern lowlands of Mars, as photographed by the Viking 2 lander. The spacecraft landed in the Utopia Planitia section of northern Mars in 1976. (NASA/JPL)
Because our sun sent out significantly less warmth at the time of early Mars (4.2-3.5 billion years ago,) climate modelers have long struggled to come up with an explanation for how the planet — on average, 137 million miles further out than Earth — could have been anything but profoundly colder than today. And if that world was so unrelentingly frigid, how could there be a surface ocean of liquid water?
But discoveries in the 21st century have strongly supported the long-ago presence of water on a Mars in the form of river valleys, lakes and a water cycle to feed them. The work done by the Curiosity rover and Mars-orbiting satellites has made this abundantly clear.
An ocean in the northern lowlands is one proposal made to explain how the water cycle was fed.
And now, In a new paper in Journal of Geophysical Research: Planets, scientists from Japan and the United States have presented modelling and analysis describing how and why Mars had to have a large ocean early in its history to produce the geological landscape that is being found.
Lead author Ramses Ramirez, a planetary scientist with the Earth-Life Science Institute in Tokyo, said it was not possible to determine how long the ocean persisted, but their team concluded that it had to be present in that early period around 4 billion to 3.5 billion years ago. That is roughly when what are now known to be river valleys were cut in the planet’s southern highlands.… Read more
