GARY, Ind. (AP) - In a story April 5 about the effects of ice on the Great Lakes, The Associated Press reported erroneously that production at U.S. Steel’s Gary Works had been temporarily halted. Production was scaled back but did not stop.
A corrected version of the story is below:
US Steel slows Indiana mill due to lack of ore
US Steel scales back Indiana mill’s steelmaking; lake ice leaves mill without iron ore
GARY, Ind. (AP) - U.S. Steel has scaled back steelmaking at its massive northwestern Indiana mill because the ice-covered Great Lakes have cut off its access to vital iron ore and other raw materials.
The company said in a letter to its customers that it has reduced production at the Gary Works complex’s blast furnaces and steelmaking operations “due to unforeseen and unprecedented ice conditions on the Great Lakes” after the Midwest’s frigid winter, The Times of Munster reported.
“These severe ice conditions have not occurred on the Great Lakes for more than three decades,” the letter states.
Treacherous ice covering much of Lake Superior has prevented freighter ships from hauling iron ore - an essential ingredient in steelmaking - from Minnesota’s Iron Range to northwestern Indiana steel mills.
The Great Lakes’ ice cover hit its highest point in 35 years this winter, and Lake Superior remains more than 80 percent frozen with a 40-inch-thick shelf ice and stacks of ice chunks reaching up to 14 feet tall. U.S. Steel said it is working closely with United States and Canadian governmental authorities “to expedite and obtain priority passage of our raw materials vessels” on the lakes.
The company has informed its customers that it might not be able to fill their steel orders but is trying to find alternative supply paths.
The Gary Works complex is the nation’s largest steel mill, stretching seven miles along Lake Michigan and capable of producing 7.5 million net tons of steel a year.
More than 5,800 employees who work at the mill continue reporting to work despite the temporary suspension of steelmaking operations.