Last year, a group of Australian researchers "undiscovered" an island the size of Manhattan in the South Pacific.
A mysterious place called
Sandy Island
had popped up on maps, northwest of New Caledonia.
It even showed up as
a black polygon on Google Earth.
But when scientists sailed there last
November, they found open water instead of solid ground.
In an obituary for the island published this month, the researchers
explained why the phantom landmass had been included on some maps for
more than a century, pointing to some human errors and a possible pumice
raft.
A GEBCO bathymetry grid merged with HR swath bathymetry from Eartern Coral Sea Tectonics (ECOSAT voyage). Dots represents echo soundings from AHS database. "Sandy Island" colored in orange, is on Gebco maps. Black contours represent gravity anomalies (milligals) from satellite altimetry (sSandwell & Smith, 2009)
B Regional map of the SW pacific with Sandy Island highlighted by a black box. Magenta olygon denotes the pumice trajectory path from the study of Bryan et al. (2004)
C Bathymetry profiles along the ECOSAT transit line. ECOSAT swath bathymetry, shown in black, is much deeper that the calculated by the other global bathymetry models.
Sandy Island was first recorded by the whaling ship Velocity in 1876
and first mentioned on a British Admiralty chart in 1908.
But future
expeditions failed to find the island, and it was removed from some
official hydrographic charts by the 1970s.
However, the errant island stuck on some maps and then crept into
digital databases like the widely used World Vector Shoreline Database,
which was developed by the U.S. military.
"During the conversion from hard-copy charts to digital formats the
'Sandy Island' error was entrenched," said Maria Seton, of the
University of Sydney.
(Seton was chief scientist on an expedition to
study plate tectonics on the RV Southern Surveyor when the "undiscovery"
was made.)
But what did the crew of the Velocity see in the first place that led
to the false discovery of Sandy Island in 19th century?
Seton and her
colleagues speculate that it might have been a
giant pumice raft.
Pumice forms when volcanic lava cools quickly, trapping gas inside and
creating lightweight rocks that can float.
Taken in the afternoon on July 19, 2012, this NASA MODIS image reveals the Havre Seamount eruption, including the gray pumice, ash-stained water and the volcanic plume.
credit : Jeff Schmaltz, LANCE MODIS Rapid Response Team at NASA GSFC
Last summer, an erupting
undersea volcano called the Havre Seamount sent pumice drifting off the
coast of New Zealand across an astounding area of 8,500 square miles
(22,000 square kilometers). And Sandy Island happens to sit along a
pumice "superhighway."
"It is believed that wind and ocean surface currents in the area
combine to funnel pumice rafts through the area between Fiji and New
Caledonia on their way to Australia," Seton and her colleagues wrote in
an
article in the journal EOS.
"The formation of this 'pumice raft superhighway,' which passes by the
location of Sandy Island, lends weight to the idea that the Velocity may
have captured a moment when some sea‐rafted pumice was traversing the
area."
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