HKDSE Geography/M1/Continental-Continental Destructive Plate Boundaries
< HKDSE Geography | M1
When two continental crusts collide, neither crust is subducted as they are of roughly equal density. This collision is found along the Alpine-Himalayan Belt, where the Indo-Australian, Arabian and African plates collide with the Eurasian Plate.
The World's Destructive Plate Boundaries
[edit | edit source]| Circum-Pacific Belt | Pacific | North American| | |
| The Philippines | Eurasian | ||
| Indo-Australian | |||
| Eurasian | |||
| Cocos | Caribbean | South American | |
| Nazca | South American | ||
| Alpine-Himalayan Belt | African | Eurasian | |
|
Arabian | |||
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Indo-Australian | |||
The Himalayas (Indo-Australian + Eurasian)
[edit | edit source]Note: This chapter involves a lot of processes. All of them must be memorised. For longer sentences, the important keywords will be underlined to facilitate memory.
- Converging/sinking magma currents between the Indo-Australian and Eurasian plates cause the two plates to converge with each other under compressional force, forming a destructive plate boundary
- Denser, thinner, basaltic oceanic crust from the Indo-Australian Plate is subducted under lighter, thicker continental crust from the Eurasian Plate
- Sediments are washed ashore on the Eurasian plate
- As the plates converge, water is squeezed out and the sediments are compacted to form sedimentary rock
- The continental crust of the Indo-Australian and Eurasian plates are equally light and neither can subduct under the other
- The sedimentary rocks are compressed to form a fold mountain range, the Himalayas.
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Hazards in the Himalayas Various HKCEE MC questions throughout the years have confirmed that the Himalayas sometimes experience earthquakes, but rarely experience volcanic eruptions. |
