Fluvio – glacial landforms
The aims of this booklet are to help you fully understand how Varves, Kames, Eskers, outwash planes, stream terraces and Kame Terraces form. They are all landforms of fluvio glacial origin.
Read through the booklet and add the locations of each landform to the map of North America below, ensuring that you record what landform it is and the place name
Kame Deltas
Kame and Kettle topography - Kettle Lakes
Kames
Explain how the Kame opposite in Quebec forms. Be sure to mention that it is supraglacial and deposition. /Outwash Plains (Sandur)
Complete the flow chart to explain how Sandur or outwash plains get their characteristic relief and shape. Be sure to mention the source of sediment, discharge variation, channel braiding, sorting of sediment material, and deposition in your chart.
Esker
Using the diagrams below showing glaciation and post glaciation below, fully annotate that diagram to explain how subglacial melt water channels can create an Esker. Use the text opposite to help.
The esker (Ir. Eiscir) is one of the most striking landforms of fluvioglacial deposition. In low-lying, boggy terrain these snaking ridges dominate the terrain, providing vantage points and dry route ways. On valley floors, the eskers lie within former ice margins marked by moraine systems, indicating that these ridges form beneath glaciers. Eskers are aligned parallel to former ice flow. In a valley, an esker will be orientated down-valley and this is one way to distinguish this landform from any moraine ridges running across the valley floor.Eskers vary in shape and size. Most are sinuous, with a height of a few to several tens of metres. The longest continue for several km but most are shorter or discontinuous. Eskers can be broad and flat-topped, or have a single crest or split into parallel ridges. A beaded esker has broad hillocks strung out at intervals along its length. Eskers may locally rise up-slope, a clear indication of water moving under pressure in a pipe-like conduit.
Eskers are usually formed of washed sand and gravel. The free-draining ridges are easily quarried, making eskers attractive targets for aggregate extraction. The sediments are usually horizontally- and cross-bedded sands and gravels but vary widely, a reflection of variations in flow regimes and in sediment supply.
Eskers are casts of sub-glacial tunnels or ice-walled canyons near to an ice margin. Melt water in glaciers may collect to flow through networks of large tunnels and the water is often highly charged with debris. Where and when velocity falls then sediment may be laid down on the floor of the tunnel. If a tunnel becomes blocked by sediment or ice fall then water and sediment is ponded behind the blockage. If the tunnel is developed on the base of the ice then the sediments in the esker will be preserved with little disturbance. In contrast, if the tunnel lies within the ice then the sediments will be considerably disturbed as the ice melts and the thread of sediment is let down on the valley floor.
Eskers are discontinuous because sedimentation may not take place along the entire length of the sub-glacial tunnel. Blocks of the overlying ice may fall into the tunnel, later melting to give kettle-holes along the esker. Alternatively, an esker ridge may become segmented by erosion, either by meltwater during deglaciation or by the action of post-glacial rivers.
Eskers are predominantly formed at the margin of warm-based glaciers or ice sheets during ice retreat or stagnation. The accumulation of the esker requires a great deal of sediment and a high volume of meltwater flow, conditions met as glaciers melt.
Some eskers may also be deposited in channels inside the glacier (englacial), or in ice-walled trenches on top of it. These sediments are then lowered to the surface upon melting of the glacier. Sometimes eskers are part of sedimentary fans or deltas at the glacier terminus. Beaded eskers are deposited in segments, with each segment ending in a bead where a delta formed in a proglacial lake. Often eskers form only one element in a complex system of ice-marginal landforms.
Meltwater channels
Review
Annotate the diagram to explain how fluvio-glacial processes can alter glacial landscapes.