In this March 31, 2014 file photo, HMAS Success scans the southern Indian Ocean, near the coast of Western Australia, as a Royal New Zealand Air Force P3 Orion flies over, while searching for missing Malaysia Airlines Flight MH370. After nearly three years, the hunt for Malaysia Airlines Flight 370 ended in futility and frustration on Tuesday, Jan. 17, 2017, as crews completed their deep-sea search of a desolate stretch of the Indian Ocean without finding a single trace of the plane. (AP Photo/Rob Griffith, File)
The deep-sea sonar search for Malaysia Airlines Flight 370 may not have found the plane but will reveal more about how land beneath the Indian Ocean formed over millions of years and where oil fields could lie.
National geoscience agency Geoscience Australia will soon release detailed sonar mapping of 120,000 square kilometers (46,000 square miles) of seabed that was searched for the wreckage of the Boeing 777 that vanished with 239 passengers and crew on March 8, 2014.
The unique information about plate tectonics would interest geoscientists as well as oil and gas explorers, said Australian National University marine geologist Neville Exon, who has advised Geoscience Australia on the sonar data.
“It’s fascinating that so much good science is coming out of an absolute disaster and a heck of a lot of money has gone into it,” Exon said.
The mapping was unique in its detail of the enormous area up to 6.5 kilometers (4 miles) in depth, he said
Australian marine research ship RV Investigator will use the detailed sonar images, once they’re available, to identify areas of interest to collect rock and core samples and work out how the seabed formed, he said.
“What’ll happen now is that academia will do a whole lot of studies working out what is going on there and they will publish those studies and industry will be interested in those, particularly if they are working in an adjacent area,” Exon said.
Before the search for Flight 370, maps of the seafloor in the search area were derived from satellites and only indicated the depth at a coarse resolution, not showing the shape of the seafloor in enough detail for safe navigation of underwater vehicles.
These coarse maps provided data at a low resolution of approximately 1,500 meters per pixel. Searchers conducted a bathymetric survey of more than 200,000 square kilometers (77,000 square miles) of sea bed and collected data at 40 to 110 meters (130 to 360 feet) per pixel before the task of looking for wreckage began.
Exon said two seafloor features within the search zone potentially contained oil and gas: Broken Ridge and Kerguelen Plateau. But he doubted drilling in such deep water would be financially viable.
South of Broken Ridge, a field of potato-like manganese nodules could be dredged. These also contain iron ore, nickel, copper and cobalt. But Exon did not think mining these would be economically viable at present.
But Exon said understanding how the seabed formed in the search area would give oil and gas explorers clues where to look for energy fields closer to the Australian shore.
“It hasn’t been a waste of time,” Exon said of the search. “It’s been a great step forward for science.”
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