Everything about Alfred Wegener totally explained
Alfred Lothar Wegener (
Berlin,
November 1,
1880 –
Greenland,
November 2 or
3,
1930) was a
German interdisciplinary scientist and meteorologist, who became famous for his theory of
continental drift ("Kontinentalverschiebung" or "die Verschiebung der Kontinente" in his words).
Career
Wegener had early training in
astronomy (
Ph.D.,
University of Berlin,
1904). He became very interested in the new discipline of
meteorology (he married the daughter of famous meteorologist and climatologist
Wladimir Köppen) and as a record-holding
balloonist himself, pioneered the use of
weather balloons to track air masses. His lectures became a standard textbook in meteorology,
The Thermodynamics of the Atmosphere. Wegener was part of several expeditions to
Greenland to study
polar air circulation, when the existence of a
jet stream itself was highly controversial. On his last expedition, Alfred Wegener and his companion Rasmus Villumsen went missing in November
1930. Wegener's body was found on
May 12 1931. His suspected cause of death was
heart failure through overexertion.
Continental Drift
Browsing the library at the
University of Marburg, where he was teaching in
1911, Wegener was struck by the occurrence of identical
fossils in geological strata that are now separated by
oceans. The accepted explanations or theories at the time posited
land bridges to explain the fossil anomalies; animals and plants could have migrated between fixed separate continents by crossing the land bridges. But Wegener was increasingly convinced that the continents themselves had shifted away from a primal single massive
supercontinent, which drifted apart about 180
million years ago, to judge from the fossil evidence. Wegener used land features, fossils, and climate as evidence to support his hypothesis of continental drift. Examples of land features such as mountain ranges in Africa and South America lined up; also coal fields on Europe matched up with coal fields in North America. Wegener noticed that fossils from reptiles such as Mesosaurus and Lystrosaurus were found in places that are now separated by oceans. Since neither reptile could have swam great distances, Wegener inferred that these reptiles had once lived on a single landmass that split apart.
From
1912 he publicly advocated the theory of "
continental drift", arguing that all the continents were once joined together in a single landmass and have drifted apart.
In
1915, in
The Origin of Continents and Oceans (
Die Entstehung der Kontinente und Ozeane), Wegener published the theory that there had once been a giant supercontinent, which, in later editions, he named "
Pangaea" (meaning "All-Lands" or "All-Earth") and drew together evidence from various fields. Expanded editions during the
1920s presented the accumulating evidence. The last edition, just before his untimely death, revealed the significant observation that shallower oceans were geologically younger.
Theory of centrifugal force
Alfred Wegener also came up with a theory to explain continental drift, although it was in error. His theory of continental drift proposed that centrifugal force moved the heavy continents toward the equator as the Earth spun. He thought that
inertia, from centrifugal movement combined with tidal drag on the continents (caused by the gravitational pull of the sun and moon) would account for continental drift.
Reaction
In his work, Wegener presented a large amount of circumstantial evidence in support of continental drift, but he was unable to come up with a convincing mechanism. Thus, while his ideas attracted a few early supporters such as
Alexander Du Toit from South Africa and
Arthur Holmes in
England, the hypothesis was generally met with skepticism. The one American edition of Wegener's work, published in
1924, was received so poorly that the
American Association of Petroleum Geologists organized a symposium specifically in opposition to the continental drift hypothesis. Also its opponents could, as did the
Leipziger geologist
Franz Kossmat, argue that the oceanic crust was too firm for the continents "simply to plow through". By the 1930s, Wegener's geological work was almost universally dismissed by the scientific community and remained obscure for some thirty years.
In the 1950s and 1960s, several developments in geology, notably the discoveries of
seafloor spreading and
Wadati-Benioff zones, led to the rapid resurrection of the continental drift hypothesis and its direct descendant, the theory of
plate tectonics. Alfred Wegener was quickly recognized as a founding father of one of the major scientific revolutions of the 20th century.
Awards and honors
The
Alfred Wegener Institute for Polar and Marine Research in
Bremerhaven, Germany, was established in
1980 on his centenary. It awards the Wegener Medal in his name. The
Wegener impact craters on both
Mars and the
Moon, as well as the
asteroid 29227 Wegener and the peninsula where he died in Greenland (Wegener Peninsula near Ummannaq, ), are named after him.
Further Information
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