W. Jason Morgan, 87, Dies; Developed the Theory of Plate Tectonics

W. Jason Morgan, 87, Dies; Developed the Theory of Plate Tectonics

W. Jason Morgan, who in 1967 developed the theory of plate tectonics — a framework that revolutionized the study of earthquakes, volcanoes and the slow, steady shift of the continents across the earth’s mantle — died on July 31 at his home in Natick, Mass. He was 87.

His children, Jason Morgan and Michèle Morgan DeLossa, confirmed the death.

The notion that the earth’s surface moved was not new when Professor Morgan, who taught at Princeton University, first presented his theory at a meeting of the American Geophysical Union in Washington in April 1967. People had long noticed, for example, that the northeastern edge of South America seemed to match the notch along Africa’s western coast, and wondered if they had once fit together like puzzle pieces.

By the mid-20th century, researchers had made significant steps forward in studying the movement of the earth’s surface, including the discovery that stretches of the sea floor were spreading apart. But the idea, called continental drift, remained highly debated into the 1960s, and no one had come up with a way to synthesize it all into a grand, testable framework.

Professor Morgan had initially planned to discuss underwater trenches at the Geophysical Union meeting. But after reading a paper about fracture zones — vast scars across the ocean floor that offer evidence of past distortions in the earth’s surface — he changed his mind.

Looking at a map of several such zones in the Pacific Ocean, he realized that they were not random; they could be understood as a result of great plates colliding and pulling apart as they slowly moved around the earth.

He also posited that the plates were rigid and fixed in shape, whereas previous theories had argued that the continents scooted around the earth on a malleable mantle. That insight made it possible to measure plate movement in the past and predict it in the future.

With just weeks to go before his talk, Professor Morgan set aside his original subject and dived into his new conjecture. He collected reams of data from expeditions to map the ocean floor, then built a computer program to test what he found against his hypothesis.

“Mom said he basically worked nonstop,” said his son, Jason, himself a geophysicist at Cornell University. “And she was getting a little nervous whether this was what life was going to be like, married to an academic.”

Professor Morgan took just an outline with him to the podium, along with handouts for the audience. Afterward he turned his talk into a paper, which he published in the Journal of Geophysical Research in March 1968.

In the meantime, a pair of researchers affiliated with the Scripps Institution of Oceanography, Dan McKenzie and Robert Parker, published a paper in the journal Nature describing the same theory as Professor Morgan’s, though with different evidence.

While Professor McKenzie is sometimes credited with discovering plate tectonics, and while he, Professor Morgan and Xavier Le Pichon, another tectonics pioneer, shared the prestigious Japan Prize in 1990 in recognition of their work, Professor McKenzie said in a phone interview that Professor Morgan “has priority” in taking credit for defining the theory.

The impact of plate tectonics was immediate. It offered a unified framework for research across the natural sciences, opening the door to new advances in seismology, volcanology and evolutionary biology.

“It was all very, very quick,” said Professor McKenzie, who later joined the faculty at the University of Cambridge, where he is now an emeritus professor. “In 1965, no one believed anything. By the end of 1967, everything was finished.”

So rapid and complete was the academic and public acceptance of plate tectonics that within a decade it was standard fare in grade-school science textbooks. A few skeptics remained, but they too came around once satellites and GPS data were able to confirm Professor Morgan’s theory without reservation.

“‘Paradigm shift’ is an overused phrase, but this was a paradigm shift,” John A. Tarduno, a professor of geophysics at the University of Rochester, said by phone.

William Jason Morgan was born on Oct. 10, 1935, in Savannah, Ga., to William Morgan, who owned a hardware and dry goods store with his family, and Maxie Ponita (Donehoo) Morgan, a French teacher and a volunteer with the Girl Scouts of America.

He attended Georgia Tech, where he initially studied mechanical engineering with an eye toward joining the family business. But halfway through his studies he fell in love with physics, switched majors (he graduated in 1955) and started looking for a different career.

He spent two years in the Navy as an instructor at its Nuclear Power School, an experience that pointed him toward graduate studies. He entered Princeton in 1959, received his doctorate in 1964 and remained at the university until his retirement in 2004.

He married Cary Goldschmidt in 1959. She died in 1991. In addition to their children, he is survived by six grandchildren.

Professor Morgan continued to make significant contributions after his paper on plate tectonics. In 1969 he and Professor McKenzie published a paper on the complex geophysics involved in so-called triple junctions, places where three plates intersect.

He later did important work on mantle plumes, fixed points hundreds of miles below the earth’s surface that occasionally send streams of molten rock upward — a phenomenon that he argued resulted in features like the Hawaiian Islands.

Professor Morgan remained humble about his discovery, insisting that if he hadn’t made it, someone else soon would have. Others were less hesitant in giving him credit.

“The theory of plate tectonics he published in 1968 is one of the major milestones of U.S. science in the 20th century,” Anthony Dahlen, a former chairman of Princeton’s Department of Geosciences who died in 2007, said in a statement in 2003 after Professor Morgan was selected to receive the National Medal of Science. “The scientific careers of a generation of geologists and geophysicists have been founded upon his landmark 1968 paper.”

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