Skip to main content
Class/Seminar

EPS Seminar - Professor Peter DeCelles "Why the Central Andes are Larger than the Himalaya"

Sponsored by

Event Details:

The Central Andean and Himalayan orogenic belts provide an ideal natural experiment to test the potential role of climate in controlling orogeny. Approximately equal in age and along-strike length, both orogenic wedges are forming in plate-marginal convergent tectonic settings: The Andes in a retroarc setting and the Himalaya in a collisional setting against the Tibetan backstop. The Central Andes orogenic wedge is volumetrically and aerially nearly twice as large as the Himalayan orogenic wedge, despite the Himalaya having accommodated at least three times more tectonic shortening. The Himalaya exports at least four times more sediment owing to much greater erosion rates as signified by widespread Cenozoic metamorphic rocks and very young (<10 Ma) low-temperature thermochronologic ages. The Central Andes are thermochronologically old (mostly 20-100 Ma), have no exposures of Cenozoic metamorphic rocks, and are mantled by volcanic and sedimentary rocks, attesting to shallow, slow erosion. The most likely culprit for this situation is the greater intensity of the Indian Monsoon relative to the South American Monsoon since Oligocene time. When viewed as an orogenic wedge that has developed largely after formation of the Tibetan orogenic collage, the Himalaya is neither the largest nor hottest among Earth's orogens. 

 

Brief Bio

Peter G. DeCelles, Professor of Geosciences, University of Arizona

Education: 

1980, B.S., University of Notre Dame

1984, Ph.D., Indiana University—Bloomington

1984-85, Postdoctoral Scholar—Stanford University

Interests: Regional structural geology of orogenic belts and sedimentary basins; physical sedimentology

** For the Zoom link please email Xueyao Cheng  > xc272@stanford.edu