Graben

Short description: Depressed block of planetary crust bordered by parallel normal faults

Diagram illustrating the structural relationship between grabens and horsts

Infrared-enhanced satellite image of a graben in the Afar Depression

In geology, a graben (/ˈɡrɑːbən/) is a depressed block of the crust of a planet or moon, bordered by parallel normal faults.

Etymology

Graben is a loan word from German, meaning 'ditch' or 'trench'. The first known usage of the word in the geologic context was by Eduard Suess in 1883.^[1] The plural form is either graben^[2] or grabens.^[3]

Formation

A graben is a valley with a distinct escarpment on each side caused by the displacement of a block of land downward. Graben often occur side by side with horsts. Horst and graben structures indicate tensional forces and crustal stretching.

Graben are produced from parallel normal faults, where the displacement of the hanging wall is downward, while that of the footwall is upward. The faults typically dip toward the center of the graben from both sides. Horsts are parallel blocks that remain between graben; the bounding faults of a horst typically dip away from the center line of the horst. Single or multiple graben can produce a rift valley.

Half-graben

Main page: Earth:Half-graben

The Newark Basin, an early Mesozoic half-graben

In many rifts, the graben are asymmetric, with a major fault along only one of the boundaries, and these are known as half-graben. The polarity (throw direction) of the main bounding faults typically alternates along the length of the rift. The asymmetry of a half-graben strongly affects syntectonic deposition. Comparatively little sediment enters the half-graben across the main bounding fault because of footwall uplift on the drainage systems. The exception is at any major offset in the bounding fault, where a relay ramp may provide an important sediment input point. Most of the sediment will enter the half-graben down the unfaulted hanging wall side (e.g., Lake Baikal).^[4]

Rima Ariadaeus on the Moon is thought to be a graben. The lack of erosion on the Moon makes its structure with two parallel faults and the sunken block in between particularly obvious.

Examples

Africa

East African Rift Valley
Lucapa Graben, Lunda Norte Province, Angola

Antarctica

Lambert Graben, Antarctica

Asia

Narmada River Valley, central India
lower Godavari River Valley, southern India
Baikal Rift Zone, Siberia, Russia
Moma Graben, Sakha Republic, Russia
Büyük Menderes Graben, Turkey
Fossa Magna, Honshu, Japan
Ariake Sea as part of the Unzen graben, Kyushu, Japan
Beppu–Shimabara graben, Kyushu, Japan

Europe

Rhine valley, border area of west Germany and northeast France
Oslo graben around Oslo, Norway
Central Lowlands, Scotland
Worcester Basin, England
Central Graben, North Sea
Viking Graben, North Sea
Vättern, Sweden
Lowtherville Graben, Ventnor, Isle of Wight, England^[5]^[6]

North America

Canada

Ottawa-Bonnechere Graben, Ontario and Quebec, Canada
Saguenay Graben, Quebec, Canada

Guatemala

Guatemala City valley, Guatemala

United States

Basin and Range Province of southwestern North America is an example of multiple horst/graben structures, including Death Valley, with Salt Lake Valley being the easternmost and Owens Valley being the westernmost.
Lake George Basin, New York, U.S.
Lake Tahoe Basin, California and Nevada, U.S.
Republic Graben, Republic, Washington (state) , U.S.
Rio Grande Rift Valley in Colorado/New Mexico/Texas of the United States
Rough Creek Graben, Kentucky, U.S.
Santa Clara Valley, California , U.S.
Western Snake River Plain, Idaho, U.S.
Southwest San Bernardino Valley (Arizona), U.S.

Multi-national

Eastern North America Rift Basins, Canada and the U.S.
Midcontinent Rift System, Canada and the U.S.
Salton Trough, Mexico and the U.S.

Oceania

Firth of Thames of Hauraki Gulf and Hauraki Plains of Hauraki Rift (Hauraki half grabens), North Island, New Zealand^[7]
Tikitere Graben within the Taupō Rift, North Island, New Zealand.^[8]
Gulf St Vincent, South Australia, Australia ^[9]
Tamar Valley, Tasmania, Australia^[10]

South America

Guanabara Graben, Rio de Janeiro, Brazil

Notes

↑ graben (3rd ed.), Oxford University Press, September 2005, http://oed.com/search?searchType=dictionary&q=graben (Subscription or UK public library membership required.)
↑ Schlumberger Oilfield Glossary
↑ "horst and graben". horst and graben. Encyclopædia Britannica. https://www.britannica.com/EBchecked/topic/272443/horst-and-graben. Retrieved 2012-11-15.
↑ Hans Nelson, C.; Karabanov, Evgeny B.; Colman, Steven M.; Escutia, Carlota (1999). "Tectonic and sediment supply control of deep rift lake turbidite systems: Lake Baikal, Russia". Geology 27 (2): 163–166. doi:2.3.CO;2">10.1130/0091-7613(1999)027<0163:TASSCO>2.3.CO;2. Bibcode: 1999Geo....27..163N.
↑ CAREY, JONATHAN (2011). The Progressive Development and Post-failure Behaviour of Deep-seated Landslide Complexes (Doctoral thesis). Durham University.
↑ Carey, Jonathan (November 2014). "Patterns of movement in the Ventnor landslide complex, Isle of Wight, southern England". Landslides. https://www.researchgate.net/publication/284942330.
↑ Hochstein, M.P.; Nixon, I.M. (1979). "Geophysical study of the Hauraki Depression, North Island, New Zealand". New Zealand Journal of Geology and Geophysics 22: 1–19. doi:10.1080/00288306.1979.10422550.
↑ Manville, V.; Hodgson, K. A.; Nairn, I. A. (2007). "A review of break‐out floods from volcanogenic lakes in New Zealand". New Zealand Journal of Geology and Geophysics 50 (2): 131–150. doi:10.1080/00288300709509826. https://www.tandfonline.com/doi/pdf/10.1080/00288300709509826.
↑ Sprigg, R.C. (1961). "The Oil and Gas Prospects of the St. Vincents Gulf Graben". The APPEA Journal 1 (1): 71–88. doi:10.1071/AJ60011. http://www.publish.csiro.au/AJ/AJ60011.
↑ Stacey, A. R., and Berry, R. F., (2004). "The Structural history of Tasmania: a review for petroleum explorers," PESA Eastern Australasian Basins Symposium II

References

McKnight, Tom L; Hess, Darrel (2000). "The Internal Processes: Graben". Physical Geography: A Landscape Appreciation. Upper Saddle River, NJ: Prentice Hall. pp. 417. ISBN 0-13-020263-0. https://archive.org/details/physicalgeographmckn/page/417.

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[1] graben (3rd ed.), Oxford University Press, September 2005, http://oed.com/search?searchType=dictionary&q=graben (Subscription or UK public library membership required.)

[2] Schlumberger Oilfield Glossary

[horst-and-graben-3] "horst and graben". horst and graben. Encyclopædia Britannica. https://www.britannica.com/EBchecked/topic/272443/horst-and-graben. Retrieved 2012-11-15.

[4] Hans Nelson, C.; Karabanov, Evgeny B.; Colman, Steven M.; Escutia, Carlota (1999). "Tectonic and sediment supply control of deep rift lake turbidite systems: Lake Baikal, Russia". Geology 27 (2): 163–166. doi:2.3.CO;2">10.1130/0091-7613(1999)027<0163:TASSCO>2.3.CO;2. Bibcode: 1999Geo....27..163N.

[5] CAREY, JONATHAN (2011). The Progressive Development and Post-failure Behaviour of Deep-seated Landslide Complexes (Doctoral thesis). Durham University.

[6] Carey, Jonathan (November 2014). "Patterns of movement in the Ventnor landslide complex, Isle of Wight, southern England". Landslides. https://www.researchgate.net/publication/284942330.

[7] Hochstein, M.P.; Nixon, I.M. (1979). "Geophysical study of the Hauraki Depression, North Island, New Zealand". New Zealand Journal of Geology and Geophysics 22: 1–19. doi:10.1080/00288306.1979.10422550.

[Manville2007-8] Manville, V.; Hodgson, K. A.; Nairn, I. A. (2007). "A review of break‐out floods from volcanogenic lakes in New Zealand". New Zealand Journal of Geology and Geophysics 50 (2): 131–150. doi:10.1080/00288300709509826. https://www.tandfonline.com/doi/pdf/10.1080/00288300709509826.

[Sprigg1961-9] Sprigg, R.C. (1961). "The Oil and Gas Prospects of the St. Vincents Gulf Graben". The APPEA Journal 1 (1): 71–88. doi:10.1071/AJ60011. http://www.publish.csiro.au/AJ/AJ60011.

[10] Stacey, A. R., and Berry, R. F., (2004). "The Structural history of Tasmania: a review for petroleum explorers," PESA Eastern Australasian Basins Symposium II

v t e Structural geology
Underlying theory	Strain Stress Stress field Mohr–Coulomb theory Mohr's circle Lamé's stress ellipsoid Strain partitioning Tension Overburden pressure Deformation mechanism Rock mechanics
Measurement conventions	Strike and dip Rake Inclinometer Brunton compass Stereographic projection Orthographic projection
Large-Scale Tectonics	Plate tectonics Orogeny Structural basin Rift Extensional tectonics Graben Half-graben Décollement Obduction List of tectonic plate interactions Nappe Continental collision Convergent boundary Fenster Klippe Fold and thrust belt Foreland basin Accretionary wedge Terrane Mountain formation Fold mountains Fault block Horst Rift valley Mélange Thick-skinned deformation Thin-skinned deformation Thrust tectonics Passive margin Extensional tectonics Divergent boundary Back-arc basin Intra-arc basin Strike-slip tectonics Syneclise Suture Saddle Inversion Horst and graben Horse Pull-apart basin Autochthon Allochthon
Fracturing	Joint Exfoliation joint Vein Dike Columnar jointing
Faulting	Thrust fault Detachment fault Disturbance Fault mechanics Fault trace Fault scarp Transform fault Transfer zone Cataclastic rock Cataclasite
Foliation and Lineation	Rock microstructure Crenulation Cleavage Slickenside Pressure solution Stylolite Compaction Fissility Oblique foliation Tectonic phase Tectonite
Folding	Vergence Anticline Syncline Dome Monocline Chevron Homocline Detachment fold
Boudinage	Competence
Kinematic Analysis	3D fold evolution Section restoration Paleostress Paleostress inversion
Shear zone	Shear Pure shear Mylonite