Walther Penck

Walther Penck
Born 30 August 1888 (1888-08-30)
Vienna, Austria-Hungary
Died September 29, 1923(1923-09-29) (aged 35)
Stuttgart, Germany
Residence Austria-Hungary, Argentina, Ottoman Empire, Germany
Citizenship Germany
Nationality German
Fields Geomorphology
Institutions Dirección General de Minas
University of Constantinople
University of Leipzig
Alma mater Heidelberg University
Known for Landscape evolution theorist
Influences William Morris Davis[1]
Grove Karl Gilbert[1]
Albrecht Penck[1]
Influenced Albrecht Penck[2]

Walther Penck (30 August 1888 29 September 1923) was a geologist[3] and geomorphologist[3] known for his theories on landscape evolution. Penck is noted for criticizing key elements of the Davisian cycle of erosion, concluding that the process of uplift and denudation occur simultaneously, at gradual and continuous rates.[4] Penck's idea of parallel slope retreat led to revisions of Davis's cycle of erosion.[3]

Biography

Mountains of the Black Forest where Walther Penck studied the effects of doming on geomorphology.

Walther Penck was born in Vienna as the son of German geographer Albrecht Penck.[3] He obtained a Ph.D. by studying petrology at the Heidelberg University.[1] Between 1912 and 1915 he worked in Dirección General de Minas in Buenos Aires before moving to the University of Constantinople where he was named professor of mineralogy and geology. He finally settled as professor in the University of Leipzig in 1918.[3] The areas he studied in detail and based he's theories on include the Black Forest in Germany, Puna de Atacama in Argentina and Anatolia in modern Turkey.[1][5]

During the 1920s Penck, with Siegfried Passarge, Alfred Hettner and his father, was the foremost figure in a broad German opposition to the "geographical cycle" theory of William Morris Davis.[6] It was characteristic of Davis to react violently and disdainfully to criticism, particularly to this German criticism; it was also his characterictic to choose to attack the most vulnerable points of that criticism.[7] Regarding Walther Penck's objections to the Davisian geographic cycle Davis commented to Albrecht Penck in 1921:[8]

It is pleasant news that your son, Walther, is established as professor in Leipzig where his father long ago studied. As he may have told you, I have enjoyed reading parts of his Argentine monograph, an able piece of work, and I have written asking him to specify the difficulties he finds in accepting the cycle theory. I am inclined to believe that he really does not know what that theory is...

Walther Penck died of oral cancer in September 1923.[1] His book, Morphological Analysis of Landforms, was published posthumously in 1924 by his father as was also his paper Die Piedmontflächen des südlichen Schwarzwald (The piedmont-flats of the southern Black Forest).[5][9]

Geomorphological theory

Concepts

In his analysis Penck utilized the following concepts:

  1. Endrumpf: A low-angle landscape with concave slopes. It is the final stage of erosion that follows after inselbergs and pediments are eroded.[10]
  2. Grossfalt: A series of folds and synclines analogous to orogenic folding. It is usual type of folds created by lateral compression in the crust. As the grossfalt develops it narrows at the same time they become higher.[5][11] Can be translated as "great fold" in English. Davis translated it into "broad fold". Penck himself was unhappy with the term grossfalt.[5]
  3. Piedmontfläche: Can be translated into English as "piedmont flat", "piedmont bench" or "piedmont step".[5][12]
  4. Piedmonttreppen: descending erosional benches on an uplifted area. Their shape is more or less concentric. Penck interpreted the Piedmonttreppen as the result of doming. Benches he thought originated as Piedmontflache in the periphery of the dome before they were uplifted.[5] It can be translated into English as "piedmont benchland", "piedmont stairway" or "piedmont treppe".[12]
  5. Primärrumpf: A more or less plain and subtly convex slope. The form is given by the very slow waxing of erosion. Erosion cycles should begin from a primärrumpf. Can be formed at the base of a dome.[5]
  6. Rumpfläche[13]

Landform and landscape evolution according to uplift rate

Walther Penck thought landform development depended on uplift rate. He saw three main types of landform and landscape development all of which begun with rumpfläches or primärrumpfs and ended with endrumpfs. The differences between them depended on their rate of uplift: peneplains developed in places with a low rate of uplift, intermediate forms developed in places of moderate uplift, and Alpine forms developed on places of rapid uplift.[13] In Penck's valley development model the steepness of valley slopes depended on the rate of uplift; this view contrasts with the Davis's erosion cycle, in which valley slope steepness depends on its relative age or stage of development.[9]

Landform associations

Sierra de Famatina in Argentina interpreted as part of a "grossfalt" by Penck.[11]

Penck thought earths surface could be divided into three types of regions each with an own landform association. First there were regions of grossfalt and general doming, then there were regions of pure doming, and at last there were regions of stability.[5]

Criticism and legacy

William Morris Davis, a friend of Penck's father,[14] criticized the theories Walther Penck outlined in Die Piedmontflichen des südlichen Schwarzwald. Geographer Martin Simons claimed in 1962 that Davis misunderstood and mis-translated parts of the paper leaving a distorted view of Penck's ideas among later workers. Simons therefore does not consider Davis an adequate critic of Penck's work. Other factors detrimental to an understanding of Penck's ideas include his early death and his confusing writing style.[5]

Julius Büdel a German geomorphologist working in the same areas as Penck in Southern Germany provided alternative explanations in 1935 for some of the landforms Penck had dealt with.[15]

Geographer Allaoua Saadi remarks by 2013 that Penck's and Davis' ideas have become more compatible and even complementary since the advent of modern tectonic theory. This author claims that Davis' ideas is more applicable near active margins where tectonics are "cataclysmic" and Penck's ideas fit better in passive margins and continental platforms.[16]

Walther Penck has a volcano named after him in northwestern Argentina.

Citations

  1. 1 2 3 4 5 6 Chorley et al. 2005, p. 614
  2. Chorley et al. 2005, p. 589
  3. 1 2 3 4 5 Encyclopædia Britannica 2014
  4. Huggett 2003, p. 5
  5. 1 2 3 4 5 6 7 8 9 Simons 1962
  6. Chorley et al. 2005, p. 572
  7. Chorley et al. 2005, p. 519
  8. Chorley et al. 2005, p. 594
  9. 1 2 Chorley et al. 2005, p. 629
  10. Allaby 2008
  11. 1 2 Beckinsale & Chorley 2003, p. 340
  12. 1 2 Sube 2001, p. 1019
  13. 1 2 Chorley et al. 2005, p. 619
  14. Chorley et al. 2005, p. 571
  15. Mensching 1984
  16. Saadi 2013

References

  • Allaby, Michael, ed. (2008), A Dictionary of Earth Sciences (3 ed.), Oxford University Press 
  • Beckinsale, Robert P.; Chorley, Richard J. (2003) [1991]. "Chapter Ten". The History of the Study of Landforms. Volume Three. Taylor & Francis e-Library. 
  • "Walther Penck", Encyclopædia Britannica, retrieved August 30, 2014 
  • Chorley, Richard J.; Beckinsale, Robert P.; Dunn, Antony J. (2005) [1973]. "Chapter Twenty-Two". The History of the Study of Landforms. Volume Two. Taylor & Francis e-Library. 
  • Huggett, Richard J. (2003). Fundamentals of Geomorphology. Routledge. ISBN 0-415-24145-6. 
  • Mensching, Horst G. (1984), "Julius Büdel und sein konzept der klima-geomorphologie - rückschau und würdigung", Erkunde (in German), 38 (3): 157–166 
  • Saadi, Allaoua (2013), "Modelos morfogenéticos e tectônica global: Reflexőes conciliatórias", Geonomos (in Portuguese), 6 (2): 55–63 
  • Simons, Martin (1962), "The morphological analysis of landforms: A new review of the work of Walther Penck (1888-1923)", Transactions and Papers (Institute of British Geographers), 31: 1–14 
  • Sube, Ralf, ed. (2001), Langenscheidt Routledge German dictionary of physics, Psychology Press, p. 1019 
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