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InSAR observations of ground deforma...

Parker, Amy Laura.

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InSAR observations of ground deformation = application to the Cascades volcanic arc /

Record Type:	Electronic resources : Monograph/item
Title/Author:	InSAR observations of ground deformation/ by Amy Laura Parker.
Reminder of title:	application to the Cascades volcanic arc /
Author:	Parker, Amy Laura.
Published:	Cham :Springer International Publishing : : 2017.,
Description:	xvii, 165 p. :ill. (some col.), digital ;24 cm.
[NT 15003449]:	Introduction -- Investigating long-term subsidence at Medicine Lake Volcano, CA, using multitemporal InSAR -- Systematic assessment of atmospheric uncertainties for InSAR data at volcanic arcs using large-scale atmospheric models: application to the Cascade volcanoes -- Time constraints on magma intrusion from thermal models of long-term volcanic subsidence: Medicine Lake Volcano, CA -- Constraining mechanisms of volcanic subsidence at Lassen Volcanic Center, CA, using InSAR -- Summary and outlook.
Contained By:	Springer eBooks
Subject:	Subsidences (Earth movements) - Cascade Range. -
Online resource:	http://dx.doi.org/10.1007/978-3-319-39034-5
ISBN:	9783319390345

InSAR observations of ground deformation = application to the Cascades volcanic arc /
Parker, Amy Laura.

InSAR observations of ground deformationapplication to the Cascades volcanic arc /[electronic resource] :by Amy Laura Parker. - Cham :Springer International Publishing :2017. - xvii, 165 p. :ill. (some col.), digital ;24 cm. - Springer theses,2190-5053. - Springer theses..

Introduction -- Investigating long-term subsidence at Medicine Lake Volcano, CA, using multitemporal InSAR -- Systematic assessment of atmospheric uncertainties for InSAR data at volcanic arcs using large-scale atmospheric models: application to the Cascade volcanoes -- Time constraints on magma intrusion from thermal models of long-term volcanic subsidence: Medicine Lake Volcano, CA -- Constraining mechanisms of volcanic subsidence at Lassen Volcanic Center, CA, using InSAR -- Summary and outlook.

This doctoral thesis applies measurements of ground deformation from satellite radar using their potential to play a key role in understanding volcanic and magmatic processes throughout the eruption cycle. However, making these measurements is often problematic, and the processes driving ground deformation are commonly poorly understood. These problems are approached in this thesis in the context of the Cascades Volcanic Arc. From a technical perspective, the thesis develops a new way of using regional-scale weather models to assess a priori the influence of atmospheric uncertainties on satellite measurements of volcano deformation, providing key parameters for volcano monitoring. Next, it presents detailed geodetic studies of two volcanoes in northern California: Medicine Lake Volcano and Lassen Volcanic Centre. Finally, the thesis combines geodetic constraints with petrological inputs to develop a thermal model of cooling magma intrusions. The novelty and range of topics covered in this thesis mean that it is a seminal work in volcanic and magmatic studies.

ISBN: 9783319390345

Standard No.: 10.1007/978-3-319-39034-5doiSubjects--Topical Terms:

3217319
Subsidences (Earth movements)
--Cascade Range.

LC Class. No.: QE600.3.C35

Dewey Class. No.: 551.307

InSAR observations of ground deformation = application to the Cascades volcanic arc /
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505 0 $a Introduction -- Investigating long-term subsidence at Medicine Lake Volcano, CA, using multitemporal InSAR -- Systematic assessment of atmospheric uncertainties for InSAR data at volcanic arcs using large-scale atmospheric models: application to the Cascade volcanoes -- Time constraints on magma intrusion from thermal models of long-term volcanic subsidence: Medicine Lake Volcano, CA -- Constraining mechanisms of volcanic subsidence at Lassen Volcanic Center, CA, using InSAR -- Summary and outlook.
520 $a This doctoral thesis applies measurements of ground deformation from satellite radar using their potential to play a key role in understanding volcanic and magmatic processes throughout the eruption cycle. However, making these measurements is often problematic, and the processes driving ground deformation are commonly poorly understood. These problems are approached in this thesis in the context of the Cascades Volcanic Arc. From a technical perspective, the thesis develops a new way of using regional-scale weather models to assess a priori the influence of atmospheric uncertainties on satellite measurements of volcano deformation, providing key parameters for volcano monitoring. Next, it presents detailed geodetic studies of two volcanoes in northern California: Medicine Lake Volcano and Lassen Volcanic Centre. Finally, the thesis combines geodetic constraints with petrological inputs to develop a thermal model of cooling magma intrusions. The novelty and range of topics covered in this thesis mean that it is a seminal work in volcanic and magmatic studies.
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