Abstract
The Himalaya and the Tibetan plateau, the highest mountain range on Earth, have been growing continuously for the last 55 Myr since India collided with Eurasia. The forces driving this protracted mountain building process are still not fully understood. Although subduction zones are considered the main driving force for plate tectonics, mantle flow and plate boundary migration, their role in driving the Indian indentation and the northward movement of the collisional plate boundary is yet to be tested with geodynamic models. Here, we use four-dimensional geodynamic physical models to show that active subduction of the Indo-Australian plate along the Sunda subduction zone is probably the main driver of the India-Asia convergence, Indian indentation, and the consequent growth of the Himalaya-Tibet mountains, and also the present-day eastward crustal displacement of southeast Asia. Our experiments show that at least 880 km of northward indentation of India would not have ensued in the absence of the lateral subduction zones. Our experiments with lateral subduction zones show that subduction of the Indian continental lithosphere is maximum close to the eastern and western syntaxes, which ranges between 450 and 500 km. Based on our model results we propose that the protracted growth of collisional mountains on Earth, like the Himalaya, is highly dependent on nearby active subduction zones.
| Original language | English |
|---|---|
| Article number | 229727 |
| Pages (from-to) | 1-13 |
| Number of pages | 13 |
| Journal | Tectonophysics |
| Volume | 849 |
| Early online date | 21 Jan 2023 |
| DOIs | |
| Publication status | Published - 20 Feb 2023 |
Bibliographical note
Funding Information:S.B. acknowledges an Endeavour Research Fellowship and the Government of Australia for performing these experiments at Monash University, Australia. W.P.S. has been supported through a Vici Fellowship (016.VICI.170.110) from the Dutch National Science Foundation (NWO) and a Future Fellowship ( FT110100560 ) from the Australian Research Council. We are grateful to Ernst Willingshofer and Anne Replumaz for their insightful reviews and Gregory Houseman for editorial handling.
Publisher Copyright:
© 2023 Elsevier B.V.
Funding
S.B. acknowledges an Endeavour Research Fellowship and the Government of Australia for performing these experiments at Monash University, Australia. W.P.S. has been supported through a Vici Fellowship (016.VICI.170.110) from the Dutch National Science Foundation (NWO) and a Future Fellowship ( FT110100560 ) from the Australian Research Council. We are grateful to Ernst Willingshofer and Anne Replumaz for their insightful reviews and Gregory Houseman for editorial handling.
| Funders | Funder number |
|---|---|
| Australian Research Council | |
| Monash University | |
| Nederlandse Organisatie voor Wetenschappelijk Onderzoek | FT110100560 |
| Nederlandse Organisatie voor Wetenschappelijk Onderzoek |
Keywords
- Driving force of plate motion
- Geodynamics
- India-Eurasia collision
- Indian indentation
- Subduction