Quaternary Geomorphology A Workshop for P.G. Candidates December 18, 2010 Dr. Don Thieme.

Slides:

Advertisements

Similar presentations

Wisconsin: Physical History. Wisconsin Ice Age 110,000 to 12,000 years ago Most recent advance of North American Laurentide ice sheet Several miles thick.

Advertisements

The Glacial History of Michigan

Jeopardy GlaciersLandforms More Landforms RANDOM Q $100 Q $200 Q $300 Q $400 Q $500 Q $100 Q $200 Q $300 Q $400 Q $500 Final Jeopardy.

Glaciation of Canada.

Quaternary Geomorphology

Glacial Landforms. Continental Glaciers Striations Erosion of soil.

Geography GE2011: Glacial and Periglacial Processes Glacifluvial and glacilacustrine processes and landforms Recommended reading Benn, D.I. And Evans,

Pleistocene Glaciation of North America. Pleistocene Ice Ages.

Glacial Processes and Landforms. What is a glacier? How do glaciers form?

Landforms Resulting from Fluvio Glacial Deposition What happens when the glacier melts?

Fluvioglacial Processes and Landforms

Erosion and Deposition by Glaciers Created By: Belinda Schmahl.

Charity I. Mulig.

Glaciers and Glacial Landforms

SECTION 2 Explain the advance and retreat of glaciers and the main features resulting from the processes of erosion and deposition by glaciers. WHY DOES.

Glaciers and the Great Ice Ages. Pleistocene Epoch: the Great Ice Ages 2.0 Ma to 10,000 years ago Four (or more) distinct episodes expansion and melting.

Surface Processes weathering, mass wasting, erosion, deposition.

Glaciation. "What causes ice sheets to expand and contract? Are the present ice sheets growing or shrinking? How will global warming impact the ice sheets?

16 - Glaciers as Landforms 2% of all water 88% of FW Covers Antarctica and Greenland avg 2.5 km thick Max 4 km thick During Pleistocene 20% of water on.

Glaciers. Essential Points Glaciers are flowing streams of ice Glaciers have a zone of accumulation where snowfall exceeds losses (ablation) Accumulation.

Landform Geography Fluvial Systems and Landforms.

Glacial Processes and Landforms What is a glacier? How do glaciers form?

Aim: What are Glaciers? I. Glacier – found at high altitudes and high latitudes. These are locations where more snow falls during the winter than melts.

The Geological History of Toronto and the GTA. Toronto’s Geological History The oldest rocks in southern Ontario are up to 1.5 billion years old and are.

Landforms and Landscapes of Continental Glaciation.

Glaciers Hydrology Daren Blanck, MS. Glacier: a Flowing Stream of Ice Mountain Continental (Ice Sheets)

Chapter 3 Section 4 Glaciers. Moving mass of ice and snow Form when more snow falls than melts Agent of erosion.

Unit 1: Land and Water Forms Glaciers as Agents of Erosion

World Geography Unit 1: Land and Water Forms Glaciers as Agents of Erosion.

Glaciers. Glacier: a Flowing Stream of Ice Mountain Continental (Greenland, Antarctica)

Chapter 21: The Glacier Systems and the Ice Age Presentation.

Glaciers Galore Ice Queen Period 1 Earth Science Honors November 30, 2013 The last Ice Age (Wisconsian) occurred over the last 2-3 million years (1). The.

GLACIATION About 15 million square kilometres of the earth’s surface are currently covered with glaciers.

Glaciers. Snow Alpine Glacier Continental Glacier.

Geologic Features of Glaciation

Glacial Modification of Terrain

Changing Earth’s Surface

10. The Glaciation of Canada

Glaciers We wouldn’t be here without them.. A Glacier is an accumulation of snow that is large enough to survive the summer melt. What are glaciers?

Erosion and Weathering. What is erosion? (geology) the mechanical process of wearing or grinding something down (as by particles washing over it) The.

Glacial Processes and Landforms

Glaciers Explain how glaciers move.

Chapter 8 Erosional Forces Section 8-2 Glaciers Note Guide.

Study Guide Chapter What is a glacier? 2.Distinguish between alpine and continental glaciation. 3.Explain how a glacier moves. Explain how a crevass.

CGC 1D1 Mr. Zapfe.  Final changes occurred which gave Canada’s landforms their present shape  Continuing collision of North American and Pacific Plates.

UNIT 5WEATHERING: (B) GLACIERS Glacier-large long-lasting mass of snow compacted & recrystallized, first into firn then glacial ice. Glaciers part of hydrosphere.

Glacial Landforms. Continental Glaciers Striations Erosion of soil.

Glaciers & Ice Ages. Davidson Glacier near Haines, Alaska.

Lab: How do glaciers shape the land? 12/08/09 Topic: Glacier DN: How do glaciers erode the land?

GLACIERS What Are Glaciers?

Quaternary Geomorphology

Deposition Hydrology NOTES page 11 ©Mark Place,

Glaciofluvial Infilling and Scour of the Puget Lowland

Like running water, gravity is the driving force

Explain the formation of a glacial trough. [7 marks]

Unit 5: Gradational Processes Ms. Thind

Glacial Processes and Landforms

Bell Ringer What is a Sherpa?

Glacial Processes and Landforms

Deposits by Glaciers material carried by glaciers is deposited by melting deposits of glacial origin are called drift. 2 kinds of drift: Till and outwash.

Deposits by Glaciers Most of the material carried by glaciers is deposited by melting, called drift. 2 kinds of drift: Till is left under or along the.

Fluvioglacial Landforms

Continental and Alpine

Earth Science Chapter 8 Section 3

Presentation transcript:

Quaternary Geomorphology A Workshop for P.G. Candidates December 18, 2010 Dr. Don Thieme

Geochronology, Glacial Intervals, Isotopic Dating, etc... Glacial Landforms and Sedimentary Deposits Soil Classification and Paleosols Sea Level and Coastal Geomorphology

Glacial Landforms and Sedimentary Deposits

Glaciers glaciers form where snowfall is high and temperatures low high altitudes (alpine glaciers) high latitudes ( ice sheets) accumulation – addition of snow to a glacier snowfall rain ablation – the loss of snow and ice from a glacier melting sublimation calving

Alpine Glacier Profile

end moraine Inputs (zone of accumulation) vs. Outputs (zone of ablation) Three Possible Situations:  Inputs > outputs - advancing glacier  Inputs = outputs – stationary glacier  Inputs < outputs – retreating glacier end moraine till plain   

Ogives icefield near Juno, AK Ogives “ waves ” or “ bands ” of ice annual features useful for calculating velocity of glacial advance and retreat also indicate glacier base and margins

Esker in former glacial lake, Waterford, Maine

Esker near Dahlen, North Dakota

Esker fill near Plattsburgh, New York showing “openwork” (clast-supported) gravel overlying coarse sand beds Eskers - subglacial origin

"morphosequence" of glacial and proglacial landforms all deposits laid down as the ice stood at a mappable location on the Earth's surface. proglacial deposits are supplied by the "dirt machine" that occurs where live ice rides up over stagnant ice.

Proglacial rivers or lakes may begin directly in front of the stagnant ice: (A = fluvial ice-contact; C = lacustrine ice- contact). Proglacial lakes may be fed by meltwater rivers (D = Fluvial lacustrine ice-contact)

Rivers may be fed by water from a proglacial lake through a spillway (F = Lacustrine fluvial ice-contact)

glaciers dam pre-existing rivers glaciers depress the land surface, forming new lake basins glaciers produce moderate to large volumes of water during spring thaw continental glaciers produced particularly large volumes of water when they melted back during the late Pleistocene

Nellie Juan Glacier and terminal moraine, Prince William Sound, Alaska. (

Ohio and Missouri Rivers follow ice margins Glacial Lakes occur north of both rivers No Glacial Lakes south of these rivers

Climbing ripples from an ice- contact delta in Rhode Island Varves in a Swedish glacial lake

The "channeled scablands" in Washington state were formed by outburst floods from proglacial Lake Missoula

Carbondale Shelbyville

Devensian glaciation (OIS- 2, 4) followed by the Flandrian transgression (OIS-1) in England, Wales, and Scotland