Home > Abraham Gottlob Werner

Werner applied superposition in a classification similar to that of Lehmann . He believed that the earth could be divided into five formations:

1. Primitive (Urgebirge) Series - intrusive igneous rocks and high rank metasediments considered to be the first precipitates from the ocean before the emergence of land.
2. Transition (Ubergangsgebirge) Series - more indurated limestones, dikes, sills, and thick sequences of greywackes that very the first orderly deposits from the ocean. These were "universal" formations extending without interruption around the world.
3. Secondary or Stratified (Flotz) Series - the remaining, obviously stratified fossiliferous rocks and certain associated "trap" rocks. These were thought to represent the emergence of mountains from beneath the ocean and were formed from the resulting products of erosion deposited on their flanks.
4. Alluvial or Tertiary (Aufgeschwemmte) Series - poorly consolidated sands, gravels, and clays formed by the withdrawal of the oceans from the continents.
5. Volcanic Series - younger lava flows demonstrably associated with volcanic vents. Werner believed that these rocks reflected the local effects of burning coal beds.

The basic concept of Wernerian geology was the belief in an all encompassing ocean that gradually receded to its present location while precipitating or depositing virtually all the rocks and minerals in the earth's crust. The emphasis on this initially universal ocean spawned the term Neptunism that became applied to the concept and it became virtually synonymous with Wernerian teaching, although Guettard in France actually originated the view. A universal ocean led directly to the idea of universal formations, that Werner believed could be recognized on the basis of lithology and superposition. He coined the term geognosy (knowledge of the earth) to define a science based on the recognition of the order, position and relation of the layers forming the earth. Werner believed that geognosy represented fact and not theory. They resisted speculation, and as a result Wernerian geognosy and Neptunism became dogma and ceased to contribute to further understanding of the history of the earth.

A principal focus of Neptunism that provoked almost immediate controversy involved the origin of basalt. Basalts, particularly formed as sills, were differentiated from surface lavaLava is molten rock that a volcano expels during an eruption. Due to its high temperature, lava can be quite fluid when first exuded from a volcanic vent, but eventually solidifies into rock. However, the lava may flow many miles before solidification. flows, and the two were not recognized as the same rock type by Werner and his students during this period. Lavas and volcanoes of obviously igneous origin were treated was very recent phenomena unrelated to the universal ocean that formed the layers of the earth. Werner believed that volcanoes only occurred in proximity to coal beds. Burning melted overlying basalts and wackes, producing basalts and lavas typically at low elevations. Basalt at higher elevations proved to Werner that they were chemical precipitates of the ocean.

A second controversy surrounding Neptunism involved the volumetric problems associated with the universal ocean. How could he account for the covering of the entire earth, and then the shrinking of the ocean volume as the primitive and transition mountains emerged and the secondary and tertiary deposits were formed? The movement of a significant volume of water into the earth's interior had been proposed as early as Strabo, but it was not embraced by Werner because it was associated with conjecture. Nevertheless, with his views on basalt, he obviously did not believe that the interior of the earth was molten. Werner appears to have dodged the question for the most part. He thought that some of the water could have been lost to space by the passing of some celestial body. That interpretation, however, raised the related question of explaining the return of the waters reflected in the secondary rocks.

Werner was certainly the most influential geologist of the early portion of the Industrial RevolutionThe Industrial Revolution is the name given to the massive social, economic, and technological change in 18th century and 19th century Great Britain. It commenced with the introduction of steam power (fuelled primarily by coal) and powered, automated mach. His extraordinary abilities as a lecturer attracted students from all over Europe, who then returned to their native countries and applied his teachings and concepts. Those applications immediately fomented debate, particularly over the origin of basalt, and are commonly referred to as the Neptunist-Plutonist controversy. That controversy was the focus of much geological activity through the end of the 18th century, and well into the 19th century.

The variety of scapoliteScapolite (Gr. asairos rod, stone), is a group of rock-forming minerals composed of aluminium, calcium and sodium silicate with chlorine. The variations in composition of the different members of the group may be expressed by the isomorphous mixture of th known as wernerite is named in his honour