Courses – MNTeaching

Rifts and passive margins book

Chapter 1a

Basic description of structural styles in rift and passive margin settings, including extension directions and key structural elements

Chapter 1b

Basic description of structural styles in rift and passive margin settings, including extension directions and key structural elements

Chapter 2a

Mechanics of rifting and transition to drift phases

Chapter 2b

Mechanics of rifting and transition to drift phases

Chapter 3

Determination of unstretched continental, thinned continental, proto-oceanic and oceanic crustal boundaries

Chapter 4

Determination of timing of rift and continental break-up events

Chapter 5

The role of lithospheric composition and compositional variations on evolving rift margin architectural development and on breakup locations

Chapter 6

The role of pre-existing anisotropy on structural styles of rifts and passive margins

Chapter 7

The role of syn-extensional deposition and erosion on evolving structural styles of rifts and passive margins and the effects of tectonics on deposition and erosional patterns

Chapter 8

Fluid flow systems associated with oceanic hot spots, oceanic transforms, continental transforms and rifts

Chapter 9

The role of pre-rift heat flow on thermal regimes of rifts and passive margins

Chapter 10

The role of structural and stratigraphic architecture on thermal regimes of rifts and passive margins

Chapter 11

The role of syn-rift deposition and erosion on thermal regimes of rifts and passive margins

Chapter 12

The role of deformation on thermal regimes of rifts and passive margins

Chapter 13

The role of fluid flow on thermal regimes of rifts and passive margins

Chapter 14

Introduction to hydrocarbons in rift and passive margin settings

Chapter 15

Models of source rock distribution, maturation and expulsion in rift and passive margin settings

Chapter 16

Models of reservoir quality distribution

Chapter 17

Sealing characteristics

Chapter 18

Models of hydrocarbon migration

Chapter 19a

Trapping styles

Chapter 19b

Trapping styles

Chapter 20

Hydrocarbon preservation

Thrustbelt book

Chapter 1

Introduction

Chapter 2

Wedge mechanics

Chapter 3

Thrust sheet mechanics

Chapter 4a

Thin-skin struct 1
Fold prop folds

Chapter 4b

Thin-skin struct 2
Detach folds

Chapter 4c

Thin-skin struct 3
Fold-bend folds

Chapter 4d

Thin-skin struct 4
Duplexes

Chapter 4e

Thin-skin struct 5
Triangle zones

Chapter 5a

Thick-skin struct 1
Inversion structures

Chapter 5b

Thick-skin struct 2
Basement uplifts

Chapter 5b

Thick-skin struct 2
Basement uplifts

Chapter 6a

Deformation rates

Chapter 6b

Deformation timing

Chapter 7

Role of mechanical stratigraphy

Chapter 7

Role of mechanical stratigraphy

Chapter 8

Role of pre-existing anisotropy

Chapter 9

Role of syn-tectonic erosion and deposition

Chapter 10

Role of fluid flow

Chapter 11

Role of pre-orogenic heat flow

Chapter 12

Role of stratigr architecture on T regime

Chapter 13

Role of dep & eros on T regime

Chapter 14

Role of deformation on T regime

Chapter 15

Role of fluid flow on T regime

Chapter 16a

Source rock gen features

Chapter 16b

Source rock depos & preserv

Chapter 17a

Maturation migration

Chapter 17b

Maturation migration

Chapter 18

Seals and traps in thrustbelts

Chapter 19a

Reservoirs in thrustbelts destruction

Chapter 19b

Reservoirs in thrustbelts enhancement

Chapter 20

Alteration and destruction of HC in thrustbelts