no |
title |
author |
magazine |
year |
volume |
issue |
page(s) |
type |
1 |
Anomalous subsidence history of the West Siberian Basin as an indicator for episodes of mantle induced dynamic topography
|
Vibe, Yulia |
|
2018 |
53 |
C |
p. 99-109 |
article |
2 |
A review of numerical modeling studies of passive margin escarpments leading to a new analytical expression for the rate of escarpment migration velocity
|
Braun, Jean |
|
2018 |
53 |
C |
p. 209-224 |
article |
3 |
Contents
|
|
|
2018 |
53 |
C |
p. iii-iv |
article |
4 |
Development and inversion of the Mesozoic Victoria Basin in the Terra Nova Bay (Transantarctic Mountains) derived from thermochronological data
|
Prenzel, J. |
|
2018 |
53 |
C |
p. 110-128 |
article |
5 |
Dynamic topography of passive continental margins and their hinterlands since the Cretaceous
|
Müller, R.D. |
|
2018 |
53 |
C |
p. 225-251 |
article |
6 |
Editorial Board
|
|
|
2018 |
53 |
C |
p. IFC |
article |
7 |
Hotspot tracks in the South Atlantic located above bands of fast flowing asthenosphere driven by waning pulsations from the African LLSVP
|
O'Connor, John |
|
2018 |
53 |
C |
p. 197-208 |
article |
8 |
Insights from recent gravity satellite missions in the density structure of continental margins – With focus on the passive margins of the South Atlantic
|
Götze, Hans-Jürgen |
|
2018 |
53 |
C |
p. 285-308 |
article |
9 |
Models and observations of vertical motion (MoveOn) associated with rifting to passive margins: Preface
|
Bunge, Hans-Peter |
|
2018 |
53 |
C |
p. 1-8 |
article |
10 |
On the observability of epeirogenic movement in current and future gravity missions
|
Ghelichkhan, S. |
|
2018 |
53 |
C |
p. 273-284 |
article |
11 |
Planation surfaces as a record of mantle dynamics: The case example of Africa
|
Guillocheau, François |
|
2018 |
53 |
C |
p. 82-98 |
article |
12 |
Post-breakup burial and exhumation of passive continental margins: Seven propositions to inform geodynamic models
|
Green, Paul F. |
|
2018 |
53 |
C |
p. 58-81 |
article |
13 |
Retrodictions of Mid Paleogene mantle flow and dynamic topography in the Atlantic region from compressible high resolution adjoint mantle convection models: Sensitivity to deep mantle viscosity and tomographic input model
|
Colli, L. |
|
2018 |
53 |
C |
p. 252-272 |
article |
14 |
Rifted margins: Ductile deformation, boudinage, continentward-dipping normal faults and the role of the weak lower crust
|
Clerc, Camille |
|
2018 |
53 |
C |
p. 20-40 |
article |
15 |
Sonic velocity of chalk, sandstone and marine shale controlled by effective stress: Velocity-depth anomalies as a proxy for vertical movements
|
Japsen, Peter |
|
2018 |
53 |
C |
p. 145-158 |
article |
16 |
South Atlantic salt basins – Witnesses of complex passive margin evolution
|
Kukla, Peter A. |
|
2018 |
53 |
C |
p. 41-57 |
article |
17 |
Stratigraphic framework for the plume mode of mantle convection and the analysis of interregional unconformities on geological maps
|
Friedrich, Anke M. |
|
2018 |
53 |
C |
p. 159-188 |
article |
18 |
The southern Moroccan passive continental margin: An example of differentiated long-term landscape evolution in Gondwana
|
Sehrt, Manuel |
|
2018 |
53 |
C |
p. 129-144 |
article |
19 |
Uncertainty in the breakup, spreading history, and velocity variations of Gondwana
|
Clark, Stuart R. |
|
2018 |
53 |
C |
p. 189-196 |
article |
20 |
Where does a continent prefer to break up? Some lessons from the South Atlantic margins
|
Will, Thomas M. |
|
2018 |
53 |
C |
p. 9-19 |
article |