Geology Notes
Glacier: a Flowing Stream of Ice
Mountain
Continental (Greenland, Antarctica)
Snowfall vs Melting & Evaporation (Ablation)
Zone of Accumulation
Snowfall Exceeds Melting & Evaporation
Excess Snow Turns to Ice & Flows Out
Zone of Melting or Ablation
Melting & Evaporation Exceeds Snowfall
Melting Excess Made up by Ice Flowing in
Terminus of Glacier
Snowfall & Inflow = Melting & Evaporation (Ablation)
Results of Glaciation
Abrasion
Polish
Striations
Chatter Marks
Crescentic Gouges
Bedrock Scour
Deposition
Till
Outwash
Varved Clays
Meltwater Erosion
Glacial Landforms
Mountain Glacier Landforms
Evolution of a typical mountain glacier landscape.
Continental Glacier Landforms
Two stages in the retreat of a typical continental glacier.
The Greenland Ice Cap shows the dome-like form of a typical continental glacier.
Glacial Chronology
The table below gives an idea how complex the Pleistocene really was. Ice advances and retreats in different areas are given different names because it is not always certain that they began at the same time everywhere.
Time (1000 Years) Conditions North America Alps Northern Europe Poland-Russia
0-18 Interglacial
18-67 Glacial Wisconsin Wurm Vistula Varsovian
67-128 Interglacial Sangamon Uznach Eem Masovian
128-180 Glacial Illinoisan Riss Warthe/Saale Cracovian
180-230 Interglacial Yarmouth Hoetting Holstein Sandomirian
230-300 Glacial Kansan Mindel Elster Jaroslavian
300-330 Interglacial Aftonian Cromer Likhvin
330-470 Glacial "Nebraskan" Gunz Menapian
470-540 Interglacial Waalian
540-550 Glacial Donau II Weybourne
550-585 Interglacial Tiglian
585-600 Glacial Donau I
600-2000 About 20 Glacial Advances
2000 (2 M.Y.) Beginning of Pleistocene
4000 (4 M.Y.) Dwarf forests still in Antarctica
15 M.Y. First Glaciation in Antarctica
Ice Ages
Pleistocene 3 M.y.
Permian 250-220 M.y.
Ordovician 450 M.y.
Precambrian
900-650 M.y.
Mountain
Continental (Greenland, Antarctica)
Snowfall vs Melting & Evaporation (Ablation)
Zone of Accumulation
Snowfall Exceeds Melting & Evaporation
Excess Snow Turns to Ice & Flows Out
Zone of Melting or Ablation
Melting & Evaporation Exceeds Snowfall
Melting Excess Made up by Ice Flowing in
Terminus of Glacier
Snowfall & Inflow = Melting & Evaporation (Ablation)
Results of Glaciation
Abrasion
Polish
Striations
Chatter Marks
Crescentic Gouges
Bedrock Scour
Deposition
Till
Outwash
Varved Clays
Meltwater Erosion
Glacial Landforms
Mountain Glacier Landforms
Evolution of a typical mountain glacier landscape.
Continental Glacier Landforms
Two stages in the retreat of a typical continental glacier.
The Greenland Ice Cap shows the dome-like form of a typical continental glacier.
Glacial Chronology
The table below gives an idea how complex the Pleistocene really was. Ice advances and retreats in different areas are given different names because it is not always certain that they began at the same time everywhere.
Time (1000 Years) Conditions North America Alps Northern Europe Poland-Russia
0-18 Interglacial
18-67 Glacial Wisconsin Wurm Vistula Varsovian
67-128 Interglacial Sangamon Uznach Eem Masovian
128-180 Glacial Illinoisan Riss Warthe/Saale Cracovian
180-230 Interglacial Yarmouth Hoetting Holstein Sandomirian
230-300 Glacial Kansan Mindel Elster Jaroslavian
300-330 Interglacial Aftonian Cromer Likhvin
330-470 Glacial "Nebraskan" Gunz Menapian
470-540 Interglacial Waalian
540-550 Glacial Donau II Weybourne
550-585 Interglacial Tiglian
585-600 Glacial Donau I
600-2000 About 20 Glacial Advances
2000 (2 M.Y.) Beginning of Pleistocene
4000 (4 M.Y.) Dwarf forests still in Antarctica
15 M.Y. First Glaciation in Antarctica
Ice Ages
Pleistocene 3 M.y.
Permian 250-220 M.y.
Ordovician 450 M.y.
Precambrian
900-650 M.y.