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| Wed, 12th May 2021 1:01:00 |
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Oceans' extreme depths measured in precise detail |
Scientists say we now have the most precise information yet on the deepest points in each of Earth's five oceans.
The key locations where the seafloor bottoms out in the Pacific, Atlantic, Indian, Arctic and Southern oceans were mapped by the Five Deeps Expedition.
Some of these places, such as the 10,924m-deep (6.8 miles) Mariana Trench in the western Pacific, had already been surveyed several times.
But the Five Deeps project removed a number of remaining uncertainties.
For example, in the Indian Ocean, there were two competing claims for the deepest point - a section of the Java Trench just off the coast of Indonesia; and a fracture zone to the southwest of Australia.
The rigorous measurement techniques employed by the Five Deeps team confirmed Java to be the winner, but this lowest section in the trench - at a depth of 7,187m - is actually 387km from where previous data had suggested the deepest point might be.
Likewise, in the Southern Ocean, there is now a new place we must consider that region's deepest point. It's a depression called Factorian Deep at the far southern end of the South Sandwich Trench. It lies 7,432m down.
There is a location in the same trench, just to the north, that's deeper still (Meteor Deep at 8,265m) but it's technically in the Atlantic Ocean. The dividing line with the Southern Ocean starts at 60 degrees South latitude.
All of the new bathymetry (depth data) is contained in a paper published in the Geoscience Data Journal.
Its lead author is Cassie Bongiovanni from Caladan Oceanic LLC, the company that helped organise the Five Deeps Expedition, which had as its figurehead the Texan financier and adventurer Victor Vescovo.
The former US Navy reservist wanted to become the first person in history to dive to the lowest points in all five oceans and achieved this goal when he reached a spot known as the Molloy Hole (5,551m) in the Arctic on 24 August, 2019.
But in parallel to Mr Vescovo setting dive records in his submarine, the Limiting Factor, his science team were taking an unprecedented number of measurements of the temperature and salinity (saltiness) of the seawater at all levels down to the ocean floor.
This information was crucial in correcting the echo-sounder depth readings made from the hull of the sub's support ship, the Pressure Drop. The reported depths therefore have high confidence, even if they come with uncertainties of plus or minus 15m.
In this context, refining the observations any further will be extremely hard.
The wider context here is the quest to get better mapping data of the seabed in general. Current knowledge is woeful. Roughly 80% of the global ocean floor remains to be surveyed to the modern standard delivered by the likes of the Five Deeps Expedition.
"Over the course of 10 months, as we visited these five locations, we mapped an area the size of continental France. But within that was an area the size of Finland that was totally new, where the seafloor had never been seen before," explained team-member Dr Heather Stewart from the British Geological Survey.
"It just shows what can be done, what still needs to be done. And the Pressure Drop continues to work, so we are gathering more and more data," she told BBC News.
All of this information is being handed over to the Nippon Foundation-GEBCO Seabed 2030 Project, which aims to compile, from various data sources, a full-ocean depth map by the end of the decade.
It would be a critical resource. Better seafloor maps are needed for a host of reasons.
They are essential for navigation, of course, and for laying underwater cables and pipelines.
They are also important for fisheries management and conservation, because it is around the underwater mountains that wildlife tends to congregate. Each seamount is a biodiversity hotspot.
In addition, the rugged seafloor influences the behaviour of ocean currents and the vertical mixing of water. This is information required to improve the models that forecast future climate change - because it is the oceans that play a pivotal role in moving heat around the planet.
Read original full article
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