Observing Glacial Rebound Using GPS Giovanni Sella.

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Presentation transcript:

Observing Glacial Rebound Using GPS Giovanni Sella

GIA is the earth’s response to the removal of the great ice sheets Glacial Isostatic Adjustment (GIA) Last glacial maximum 18,000 yrs ago Since then, ice melted back archive/jesse /

Why Motion Today? MANTLE FLOWS OUT MANTLE FLOWS BACK Small motions resulting from “post-glacial rebound” (GPS can detect motions as small as 1 mm or 1/25 of an inch per year) stem from the fact that the mantle below the earth’s crust flows like a super-viscous fluid -- much, much stickier than road tar or maple syrup. The mantle is still flowing to fill areas underneath the places where the heavy ice sheets pushed out the mantle 18,000 years ago.

Raised beach Constraints on GIA in North America Tide gauge at Churchill Within 1,500 km of Hudson Bay only 1 T. G. Successive beaches left as fossil shorelines, recording uplift history Tide gauge shows land rising today

Studies give insight into ice ages & climate, the nature of the earth’s interior, and perhaps earthquakes within North America Why Study Glacial Isostatic Adjustment ? - Climate Extent of ice sheets can be measured Thickness of ice sheets estimated from relative sea level curves and water volume budgets Volume of ice M km 3 equivalent to 50-70m sea level change Ice thickness history poorly known

Why Study GIA ? - Earthquakes GIA may be cause of some earthquakes within plate interiors Most earthquakes happen on boundaries between plates Unclear what causes the others GIA has long been suspected as one possible cause Pacific Africa San Andreas Fault

Why study GIA ? - Earthquakes GIA may be cause of some earthquakes within plate interiors: Hard to tell how significant an effect this might be until we know how large GIA motions are Damage from 1929 Grand Banks, Newfoundland M 7.2 earthquake (tsunami caused 27 deaths)

Why Study GIA Implies an ongoing change in the shape of the earth Bias a reference frame No accurate model to predict the amount in either horizontal or vertical

GPS Sites Continuously operating sites in Canada (NRCan) and US (National Geodetic Survey and other agencies) Critical constraints provided by episodically occupied sites in Canada (NRCan Canadian Base Network)

GPS Observed Vertical Velocities Clear pattern of positive velocities in and around Hudson Bay that decreases going southwards to zero (hinge line), beyond which velocities are initially negative and then rise to near zero All sites north of the hinge line and those up to a 100 km south of it are interpreted as being GIA affected

Water level gauges along Great Lakes show same pattern Post-glacial rebound also affects the water levels of the Great Lakes. As the northern shores rise, water levels are steadily decreasing. Conversely, as the southern shores sink, water levels are rising. This impacts not only industries and homeowners along the shores of the Great Lakes but also the international management of water levels, dams and shipping. -1 mm/yr +3 mm/yr 10yrs 3cm 100yrs 30cm (Craymer et al. 2005)