Show full item record

File(s):

Author(s)

Spencer, Christopher B.

Advisor(s)

Ihinger, Phillip D.

Date

May 2011

Subject(s)

Posters; Magmatism--Computer simulation; Granite--Analysis; Granite--Inclusions--Computer simulation; Skaergaard Intrusion (Greenland); Intrusions (Geology)--Computer simulation

Series

USGZE AS589

Abstract

The association of granite and basalt is observed in every large basaltic magma chamber. Large basaltic rock bodies (termed LMIs, for Layered Mafic Intrusions) provide unique insights into the evolution of the material that makes up over 75% of the Earth's crust. Yet, the details of LMI evolution remain obscure and controversial. For example, many studies of the well-exposed Skaergaard Intrusion in Greenland document a relatively simple, closed-system evolution in which a single vat of magma progressively crystallized from the outside in. However, the compositions of individual rock layers do not represent realistic magma compositions, and the average composition of the entire intrusion is significantly more mafic than the initial basaltic melt preserved on the chilled margins of the intrusion. This study tests the viability of an alternative model that can explain this paradox.

Description

Color poster with text, photographs, maps, and charts.

Sponsor(s)

University of Wisconsin--Eau Claire Office of Research and Sponsored Programs

Permanent link

http://digital.library.wisc.edu/1793/55155 

Export

Export to RefWorks 

​

Part of

Student Research Day

Show full item record