Did the Moon Sink the Titanic?
One question, however, has often been overlooked: Where did the killer iceberg come from, and could the Moon have helped set the stage for disaster?
Now, a team of astronomers from Texas State University-San Marcos has applied its unique brand of celestial sleuthing to the disaster to examine how a rare lunar event stacked the deck against the Titanic. Their results shed new light on the hazardous sea ice conditions the ship boldly steamed into that fateful night.
Texas State physics faculty members Donald Olson and Russell Doescher, along with Roger Sinnott, senior contributing editor at Sky & Telescope magazine, publish their findings in the April 2012 edition of Sky & Telescope, on newsstands now.
“Of course, the ultimate cause of the accident was that the ship struck an iceberg. The Titanic failed to slow down, even after having received several wireless messages warning of ice ahead,” Olson said. “They went full speed into a region with icebergs -- that’s really what sank the ship, but the lunar connection may explain how an unusually large number of icebergs got into the path of the Titanic.”
A Tide for the Ages
What they found was that a once-in-many-lifetimes event occurred on that Jan. 4. The Moon and Sun had lined up in such a way their gravitational pulls enhanced each other, an effect well-known as a “spring tide.” The Moon’s perigee -- closest approach to Earth -- proved to be its closest in 1,400 years, and came within six minutes of a full Moon. On top of that, the Earth’s perihelion -- closest approach to the Sun -- happened the day before. In astronomical terms, the odds of all these variables lining up in just the way they did were, well, astronomical. The study is a good example of how objects in the Solar System can have an effect on planet Earth and its environment. Studying the effects of the Sun and the Moon on Earth can help astrobiologists understand the conditions that lead to habitable planets.
“It was the closest approach of the Moon to the Earth in more than 1,400 years, and this configuration maximized the Moon’s tide-raising forces on Earth’s oceans. That’s remarkable,” Olson said. “The full Moon could be any time of the month. The perigee could be any time of the month. Think of how many minutes there are in a month.”
Initially, the researchers looked to see if the enhanced tides caused increased glacial calving in Greenland, where most icebergs in that part of the Atlantic originated. They quickly realized that to reach the shipping lanes by April when the Titanic sank, any icebergs breaking off the Greenland glaciers in Jan. 1912 would have to move unusually fast and against prevailing currents. But the ice field in the area the Titanic sank was so thick with icebergs responding rescue ships were forced to slow down. Icebergs were so numerous, in fact, that the shipping lanes were moved many miles to the south for the duration of the 1912 season. Where did so many icebergs come from?
Icebergs Run Aground
“As icebergs travel south, they often drift into shallow water and pause along the coasts of Labrador and Newfoundland. But an extremely high spring tide could refloat them, and the ebb tide would carry them back out into the Labrador Current where the icebergs would resume drifting southward,” Olson said. “That could explain the abundant icebergs in the spring of 1912. We don’t claim to know exactly where the Titanic iceberg was in January 1912 -- nobody can know that -- but this is a plausible scenario intended to be scientifically reasonable.”