Alfred Wegener: Science, Exploration, and the Theory of Continental Drift

  • Mott T. Greene
Johns Hopkins University Press: 2015. 9781421417127 | ISBN: 978-1-4214-1712-7

There is a moment in Star Wars: The Empire Strikes Back (1980) that neatly encapsulates two contrasting scientific types. An officer reports a lead from a drone sent to find a rebel hideout. Admiral Ozzel dismisses his claim with statistical objections; Darth Vader takes one look and says, “That's it. The rebels are there.” Such intuitive certainty characterized the discoverer of continental drift, Alfred Wegener, subject of science historian Mott Greene's much-anticipated biography. Wegener saw what others missed and knew that he was right — and mostly was. The force was with him.

Alfred Wegener crossing a glacier on his final, fatal expedition to Greenland, in 1930. Credit: Ullstein Bild via Getty

Every geoscientist has heard of Wegener (1880–1930). Yet we have waited 85 years for a biography to explain who he was and what he achieved beyond the one thing that made him immortal. In this vacuum, myths have proliferated. Almost everything most geologists think they know about Wegener (that as a 'meteorologist' he was an 'unknown outsider', for instance) is wrong. Greene beautifully puts the record straight with a portrait of Wegener as a respected 'cosmic physicist': trained in astronomy, Wegener applied physics to the observable Universe, from stars and planets to Earth's atmosphere, crust and interior.

Wegener was born in Berlin, to Anna Schwarz and clergyman, classicist and pedagogue Richard Wegener. His childhood was one of hard work and outdoorsy self-discipline. Sharing his lifelong need for physical exertion with his older brother and fellow explorer Kurt, Wegener developed a love of ballooning that led to their 1906 world record of 52.5 hours of continuous flight. His passion for the outdoors led him towards understanding the natural world through physics. The tenor of his life was set. Wegener made three gruelling expeditions to Greenland — which Greene graphically recounts. His dogged pursuit of scientific data, notably on the structure of the upper atmosphere and the zones of shear between its component layers, verged on the superhuman.

Wegener's way of working became evident as early as 1909. In a paper about the layered structure of the atmosphere, he took others' published data and made connections they had missed to propose a simpler, more elegant conclusion. Similarly, in 1911, Wegener made his wild surmise about the westward drift of the Americas, after first looking into Richard Andree's great work, his world map Allgemeiner Handatlas (1881). Wegener was not the first to notice the fit between the Atlantic Ocean's opposing shores — more specifically, between the continental-shelf margins of South America and Africa. But in 1912, he was the first to hypothesize that the Atlantic is young, formed as the Americas drifted away from Europe and Africa — an idea developed more fully in 1915 (see also M. Romano and R. L. Cifelli Nature 526, 43; 2015). He also posited that all continents had once been grouped as a supercontinent, Pangaea.

The contemporary orthodoxy proposed by Austrian geologist Eduard Suess held that the Earth was shrinking, causing parts of continents to founder and marooning populations of similar animals in widely separated lands. Wegener recognized this as physically impossible. The principle of isostasy — developed by nineteenth-century geophysical theorists John Henry Pratt, George Biddell Airy and Osmond Fisher — had shown that rafts of continental rock 'float' in the denser material of the Earth's mantle; continents cannot 'sink'. To Wegener, it was more elegant to assume that the continents moved laterally. The fit of the Atlantic coastlines was, for him, too convincing to be a coincidence. How they moved was something for future research.

This was the thinking of a physicist. Yet initially, most physicists (and geologists, including influential figures such as US Geological Survey engineer Bailey Willis) rejected the idea. Geologists in Europe and South Africa converted first, perhaps because their wider knowledge of global geology led them to stronger supporting evidence. Most US scientists held out until the 1950s, usually citing a lack of mechanism. But their scepticism had more to do with the culture of US science, which, in contrast to Wegener's approach, relied on considering multiple hypotheses. The vehemence of the debate hints, too, that their rejection was more of Old World hierarchies than of Wegener's theory.

Indeed, the barriers were largely sociological, as Greene shows. Wegener was born at the wrong time. The First World War interrupted his career, and began the long isolation of German scientists just when his great idea most needed discussion. He also fell between disciplinary stools. He published important contributions on astronomy, meteoritics, atmospheric science, climatology, palaeoclimatology, geology, geophysics, geodesy and glaciology. When he died aged just 50 in 1930, from a heart attack on the Greenland ice sheet, he left no disciples. 'Cosmic physics' broke up like a supercontinent.

As a result, Wegener makes a challenging subject, which Greene tackles through extensive archival research, travel and circumstantial evidence. Wegener left no extensive notebooks; much of his unpublished writing was destroyed by war or neglect, and he was not given to personal revelation. Like many polar explorers, he was wrapped up in his work. It seems amazing that Wegener married, until we realize that his wife, Else, was the daughter of his collaborator, émigré Russian climatologist Wladimir Köppen.

Others have covered aspects of the enigmatic geoscientist's legacy. Henry Frankel published the comprehensive four-volume The Continental Drift Controversy in 2012 (Cambridge Univ. Press); Naomi Oreskes expertly explored US opposition to the theory in The Rejection of Continental Drift (Oxford Univ. Press, 1999). Greene's full picture of the man is set masterfully within the wider development of the subjects on which he exerted influence (or failed to). If this wonderful book has a weakness, it is a dearth of illustrations; but those on show include many previously unpublished expedition pictures.

Following the advice of Michael Faraday's biographer L. Pearce Williams, Greene has “read everything his subject wrote, everything he read, and as much as possible of what the people he read, read”. He has also travelled everywhere Wegener went, including Greenland. The labour has taken more than 20 years. The result is a magnificent, definitive and indefatigable tribute to an indefatigable man.