What this illustrates is that our present resolution actually is terrible. we need to spend the coin to do much better. Then we have to follow up with robotic submersibles that can run forever and close map the ocean floor. It will take millions of devices to do it all but then why not?
Our own land masses are barely as well surveyed and much there can be done also. Remote sensing works and it is now a question of equipping millions of drones to do this properly while operating other missions as well.
My point is that useful close spaced mapping of just several square miles is a huge task. Ten miles by ten miles translates into fifty million feet of fifty foot wide survey strips and a lot of effort and processing time. The scale globally is mind boggling but simply needs to be done almost contentiously to perfect data bases.
Massive Extinct Volcano Discovered Beneath Pacific Ocean
Laura Geggel, Staff Writer | September 03, 2014 02:54pm ET
http://www.livescience.com/47670-pacific-seamount-discovered.html
The newly discovered seamount rises up some 3,600 feet (1,100 meters) from the seafloor near the Johnston Atoll, at a depth of about 16,730 feet (5,100 m) under the Pacific Ocean.
Credit: Image courtesy of the Center for Coastal and Ocean Mapping/Joint Hydrographic Center.
Lurking some 3.2 miles (5.1 kilometers) beneath the Pacific Ocean, a massive mountain rises up from the seafloor, say scientists who discovered the seamount using sonar technology.
The seamount is about two-thirds of a mile high (1.1 kilometers), researchers said. Seamounts, rocky leftovers from extinct, underwater volcanoes, are found on ocean floors around the world. The newly discovered seamount is about 186 miles (300 km) southeast of Jarvis Island, an uninhabited island in a relatively unexplored part of the South Pacific Ocean, experts said.
"These seamounts are very common, but we don't know about them, because most of the places that we go out and map have never been mapped before," James Gardner, a University of New Hampshire research professor who works at the university's NOAA Center for Coastal and Ocean Mapping/Joint Hydrographic Center, said in a statement.
Gardner's team found the seamount on Aug. 13, less than five days into an expedition to map the outer limits of the U.S. continental shelf. They used a 12-kHzmultibeam echo sounder, which uses sonar to detect contours on the ocean floor. Late that night, the seamount appeared "out of the blue," Gardner said in the statement.
The multibeam echo sounder gave the researchers an advantage over other mapping methods. Low-resolution satellite data have revealed images for most of the earth's seafloor, but the technique is not advanced enough to capture most seamounts.
"Satellites just can't see these features and we can," Gardner said.
The researchers have yet to explore the effects of the as-yet-unnamed seamount on the surrounding environment, but these underwater mountains often host diverse marine life, such as commercially important fish species, research finds. However, the newly found seamount is too deep underwater to provide a home for rich fisheries, he said.
Still, because the seamount is so far underwater it won't be a navigational hazard. The United States has jurisdiction over the volcanic seamount and the waters above it, Gardner added.
"It's probably 100 million years old," Gardner said, "and it might have something in it we may be interested in 100 years from now."
The group made its discovery aboard the R/V Kilo Moana, a 186-foot (57 meter) vessel owned by the U.S. Navy and operated by the University of Hawaii Marine Center.
No comments:
Post a Comment