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Earth and Atmospheric Sciences
Earth's Structure and Processes
Glaciology and Glacial Geomorphology
1. Introduction to Glaciology and the Cryosphere
2. Physical Properties of Ice
3. Glacier Formation and Classification
4. Glacier Mass Balance
5. Glacier Dynamics and Ice Flow
6. Glacial Thermal Regime
7. Subglacial Hydrology
8. Glacial Erosion Processes
9. Glacial Sediment Transport and Deposition
10. Glacial Erosional Landforms
11. Glacial Depositional Landforms
12. Glaciofluvial Systems and Landforms
13. Glaciolacustrine and Glaciomarine Environments
14. Periglacial Geomorphology
15. Paleoglaciology and Quaternary Glaciations
16. Glaciers and Climate
17. Glaciers in a Changing Climate
18. Research Methods in Glaciology
19. Applications of Glaciological Knowledge
13.
Glaciolacustrine and Glaciomarine Environments
13.1.
Ice-Dammed Lakes
13.1.1.
Formation Mechanisms
13.1.2.
Lake Evolution
13.1.3.
Catastrophic Drainage Events
13.1.4.
Jökulhlaups
13.2.
Proglacial Lakes
13.2.1.
Formation and Evolution
13.2.2.
Sediment Trapping
13.2.3.
Lake Level Changes
13.3.
Glaciolacustrine Processes
13.3.1.
Sediment Input
13.3.2.
Density Currents
13.3.3.
Ice Rafting
13.4.
Glaciolacustrine Landforms
13.4.1.
Deltas
13.4.1.1.
Gilbert-type Deltas
13.4.1.2.
Formation Processes
13.4.2.
Lake Terraces
13.4.3.
Strandlines
13.5.
Glaciomarine Processes
13.5.1.
Ice Rafting
13.5.1.1.
Mechanisms
13.5.1.2.
Dropstones
13.5.1.3.
Significance
13.5.2.
Iceberg Calving
13.5.3.
Submarine Melting
13.6.
Glaciomarine Landforms
13.6.1.
Submarine Moraines
13.6.1.1.
Formation and Recognition
13.6.2.
Grounding-Line Wedges
13.6.2.1.
Sediment Accumulation
13.6.3.
Ice-Proximal Fans
13.6.4.
Trough-Mouth Fans
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12. Glaciofluvial Systems and Landforms
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14. Periglacial Geomorphology