Alfred Wegener’s Continental Drift Hypothesis

Chris Johnson, Matthew D. Affolter, Paul Inkenbrandt, Cam Mosher and Charlene Estrada

Alfred Wegener’s Continental Drift Hypothesis

Alfred Wegener face

Alfred Wegener (1880-1930) was a German scientist specializing in meteorology and climatology. His knack for questioning accepted ideas started in 1910 when he disagreed with the explanation that the Bering Land Bridge was formed by isostasy and that similar land bridges once connected the continents. After reviewing the scientific literature, he published a hypothesis stating the continents were originally connected and then drifted apart. While he did not have the precise mechanism, his hypothesis was backed up by a long list of evidence.

 

Early Evidence for Continental Drift Hypothesis

Wegener’s first evidence was that some continents’ coastlines fit together like pieces of a jigsaw puzzle. People noticed the similarities in the coastlines of South America and Africa on the first world maps, and some suggested the continents had been ripped apart. Antonio Snider-Pellegrini did preliminary work on continental separation and matching fossils in 1858.

Antonio Snider-Pellegrini Opening of the Atlantic.jpg
Public Domain, Link

Snider-Pellegrini’s map showing the continental fit and separation, 1858.

What Wegener did differently was synthesizing a large amount of data in one place. He used true continents’ edges based on the continental shelves’ shapes. This resulted in a better fit than previous efforts that traced the existing coastlinesWegener also compiled evidence by comparing similar rocks, mountains, fossils, and glacial formations across oceans. For example, the fossils of the primitive aquatic reptile Mesosaurus were found on the separate coastlines of Africa and South America. Fossils of another reptile, Lystrosaurus, were found in Africa, India, and Antarctica. He pointed out that these land-dwelling creatures could not have swum across an ocean.

Snider-Pellegrini Wegener fossil map

Image showing fossils that connect the continents of Gondwana (the southern continents of Pangea).

Opponents of continental drift insisted trans-oceanic land bridges allowed animals and plants to move between continents. The land bridges eventually eroded, leaving the continents permanently separated. The problem with this hypothesis is the improbability of a land bridge being tall and long enough to stretch across a broad, deep ocean.

More support for continental drift came from the puzzling evidence that glaciers once existed in normally very warm areas in southern Africa, India, Australia, and Arabia. Land bridges could not explain these climate anomalies. Wegener found similar evidence when he discovered tropical plant fossils in the frozen region of the Arctic Circle. As Wegener collected more data, he realized the explanation that best fit all the climate, rock, and fossil observations involved moving continents.

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Introduction to Historical Geology Copyright © by Chris Johnson; Callan Bentley; Karla Panchuk; Matt Affolter; Karen Layou; Shelley Jaye; Russ Kohrs; Paul Inkenbrandt; Cam Mosher; Brian Ricketts; and Charlene Estrada is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License, except where otherwise noted.

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