Movie:River incision dominated by fault block: Difference between revisions
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{{Attribute movie1 | {{Attribute movie1 | ||
|Movie domain = terrestrial | |Movie domain=terrestrial | ||
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{{Attribute movie2 | {{Attribute movie2 | ||
|Movie keywords = River Incision | |Movie keywords=River Incision | ||
}} | }} | ||
{{Attribute movie2 | {{Attribute movie2 | ||
|Movie keywords = Landscape Evolution Model | |Movie keywords=Landscape Evolution Model | ||
}} | }} | ||
{{Attribute movie3 | {{Attribute movie3 | ||
|Animation model name = CHILD | |Animation model name=CHILD | ||
|First name contributor=Greg | |First name contributor=Greg | ||
|Last name contributor =Tucker | |Last name contributor=Tucker | ||
|Location movie=-- | |Location movie=-- | ||
|Timespan movie=-- | |Timespan movie=-- | ||
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{{Movie description | {{Movie description | ||
|Grade level=Graduate / Professional | |Grade level=Graduate / Professional | ||
|One-line movie description = landscape evolution dominated by fault blocks | |One-line movie description=landscape evolution dominated by fault blocks | ||
|Extended movie description=This movie shows a simulation of a pair of normal-fault blocks separated by a vertical fault. The lower left edge is fixed through time, and represents a shallow shelf just below sea level. The inner block of the landscape rises at a steady rate, while the outer block subsides. Initially, the relief and erosion rate are small, and the subsiding basin is underfilled. Notice the progradation of a fan-delta complex. As relief and sediment flux increase, the fan deltas reach the shallow shelf and the basin becomes filled (or "over-filled" , meaning that there is more than enough sediment to keep filling the basin as it continues to subside). | |Extended movie description=This movie shows a simulation of a pair of normal-fault blocks separated by a vertical fault. The lower left edge is fixed through time, and represents a shallow shelf just below sea level. The inner block of the landscape rises at a steady rate, while the outer block subsides. Initially, the relief and erosion rate are small, and the subsiding basin is underfilled. Notice the progradation of a fan-delta complex. As relief and sediment flux increase, the fan deltas reach the shallow shelf and the basin becomes filled (or "over-filled" , meaning that there is more than enough sediment to keep filling the basin as it continues to subside). | ||
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Latest revision as of 16:31, 21 June 2017
Information Page: River incision dominated by fault block
Play Animation
Incision in Fault Block Zone
Key Attributes
| Domain: | terrestrial |
| Keywords: | River Incision |
| Keywords: | Landscape Evolution Model |
| Model name: | CHILD |
| Name: | Greg, Tucker |
| Where: | -- |
| When: | -- |
Short Description
Grade level: Graduate / Professional
Statement: landscape evolution dominated by fault blocks
Abstract: This movie shows a simulation of a pair of normal-fault blocks separated by a vertical fault. The lower left edge is fixed through time, and represents a shallow shelf just below sea level. The inner block of the landscape rises at a steady rate, while the outer block subsides. Initially, the relief and erosion rate are small, and the subsiding basin is underfilled. Notice the progradation of a fan-delta complex. As relief and sediment flux increase, the fan deltas reach the shallow shelf and the basin becomes filled (or "over-filled" , meaning that there is more than enough sediment to keep filling the basin as it continues to subside).
Theory
Links
References
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