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Brittle–ductile transition zone

April 26, 2024

The brittle-ductile transition zone (hereafter the "transition zone") is the zone of the Earth's crust that marks the transition from the upper, more brittle crust to the lower, more ductile crust.[1] For quartz and feldspar-rich rocks in continental crust, the transition zone occurs at an approximate depth of 20 km,[2] at temperatures of 250–400 °C. At this depth, rock becomes less likely to fracture, and more likely to deform ductilely by creep because the brittle strength of a material increases with confining pressure, while its ductile strength decreases with increasing temperature.

Variation of strength with depth in continental crust and changes in dominant deformation mechanisms and fault rocks in a conceptual vertical fault zone.

Depth of the Transition Zone edit

The transition zone occurs at the depth in the Earth's lithosphere where the downward-increasing brittle strength equals the upward-increasing ductile strength, giving a characteristic "saw-tooth" crustal strength profile. The transition zone is, therefore, the strongest part of the crust and the depth at which most shallow earthquakes occur. Its depth depends on both strain rate and temperature gradient; it is shallower for slow deformation and/or high heat flow and deeper for fast deformation and/or low heat flow. Crustal composition and age also affect the depth: it is shallower (~10–20 km) in warm, young crust and deeper (~20–30 km) in cool, old crust.[2]

Changes in Physical Properties edit

The transition zone also marks a shift in the electrical conductivity of the crust. The upper region of the Earth's crust, which is about 10–15 km thick, is highly conductive due to electronic-conducting structures which are commonly distributed throughout this region. In contrast, the lower region of the crust is highly resistive and its electrical conductivity is determined by physical factors such as depth and temperature.[1] Although the transition zone generally marks a shift from brittle rock to ductile rock, exceptions exist in certain conditions. If stress is applied rapidly, rock below the transition zone may fracture. Above the transition zone, the rock may deform ductilely if pore fluids are present and stress is applied gradually.[2]

Examples exposed on land edit

Sections of fault zones once active in the transition zone, and now exposed at the surface, typically have a complex overprinting of brittle and ductile rock types. Cataclasites or pseudotachylite breccias with mylonite clasts are common, as are ductilely deformed cataclasites and pseudotachylites. These sections become exposed in geologically active regions where the transition zone is located the seismic zone, where most shallow earthquakes occur. A major example of this phenomenon is the Salzach‐Ennstal‐Mariazell‐Puchberg (SEMP) fault system in the Austrian Alps. Along this fault line, researchers have directly observed changes in structure and strength profiles in transition zone.[3]

See also edit

References edit

  1. ^ a b Zhamaletdinov, A. A. (2019). Zhamaletdinov, Abdullkhay A.; Rebetsky, Yury L. (eds.). "On the Nature of the Brittle-Ductile Transition Zone in the Earth's Crust (Review)". The Study of Continental Lithosphere Electrical Conductivity, Temperature and Rheology. Springer Proceedings in Earth and Environmental Sciences. Cham: Springer International Publishing: 13–21. doi:10.1007/978-3-030-35906-5_3. ISBN 978-3-030-35906-5. S2CID 214283975.
  2. ^ a b c Condie, Kent C. (2005), Condie, Kent C. (ed.), "The Crust", Earth as an Evolving Planetary System, Burlington: Academic Press, pp. 13–58, ISBN 978-0-12-088392-9
  3. ^ Frost, Erik; Dolan, James; Ratschbacher, Lothar; Hacker, Bradley; Seward, Gareth (2011). "Direct observation of fault zone structure at the brittle-ductile transition along the Salzach-Ennstal-Mariazell-Puchberg fault system, Austrian Alps". Journal of Geophysical Research: Solid Earth. 116 (B2). Bibcode:2011JGRB..116.2411F. doi:10.1029/2010JB007719. ISSN 2156-2202.

Further reading edit

  • A. G. Duba (1990). The Brittle-Ductile Transition in Rocks: The Heard Volume. American Geophysical Union. ISBN 978-0-87590-025-4.
  • Rolandone, F.; Bürgmann, R.; Nadeau, R. M. (2004), "The evolution of the seismic-aseismic transition during the earthquake cycle: Constraints from the time-dependent depth distribution of aftershocks", Geophysical Research Letters, 31 (23): L23610, Bibcode:2004GeoRL..3123610R, doi:10.1029/2004GL021379, S2CID 3141059

April 26, 2024
brittle, ductile, transition, zone, brittle, ductile, transition, zone, hereafter, transition, zone, zone, earth, crust, that, marks, transition, from, upper, more, brittle, crust, lower, more, ductile, crust, quartz, feldspar, rich, rocks, continental, crust,. The brittle ductile transition zone hereafter the transition zone is the zone of the Earth s crust that marks the transition from the upper more brittle crust to the lower more ductile crust 1 For quartz and feldspar rich rocks in continental crust the transition zone occurs at an approximate depth of 20 km 2 at temperatures of 250 400 C At this depth rock becomes less likely to fracture and more likely to deform ductilely by creep because the brittle strength of a material increases with confining pressure while its ductile strength decreases with increasing temperature Variation of strength with depth in continental crust and changes in dominant deformation mechanisms and fault rocks in a conceptual vertical fault zone Depth of the Transition Zone editThe transition zone occurs at the depth in the Earth s lithosphere where the downward increasing brittle strength equals the upward increasing ductile strength giving a characteristic saw tooth crustal strength profile The transition zone is therefore the strongest part of the crust and the depth at which most shallow earthquakes occur Its depth depends on both strain rate and temperature gradient it is shallower for slow deformation and or high heat flow and deeper for fast deformation and or low heat flow Crustal composition and age also affect the depth it is shallower 10 20 km in warm young crust and deeper 20 30 km in cool old crust 2 Changes in Physical Properties editThe transition zone also marks a shift in the electrical conductivity of the crust The upper region of the Earth s crust which is about 10 15 km thick is highly conductive due to electronic conducting structures which are commonly distributed throughout this region In contrast the lower region of the crust is highly resistive and its electrical conductivity is determined by physical factors such as depth and temperature 1 Although the transition zone generally marks a shift from brittle rock to ductile rock exceptions exist in certain conditions If stress is applied rapidly rock below the transition zone may fracture Above the transition zone the rock may deform ductilely if pore fluids are present and stress is applied gradually 2 Examples exposed on land editSections of fault zones once active in the transition zone and now exposed at the surface typically have a complex overprinting of brittle and ductile rock types Cataclasites or pseudotachylite breccias with mylonite clasts are common as are ductilely deformed cataclasites and pseudotachylites These sections become exposed in geologically active regions where the transition zone is located the seismic zone where most shallow earthquakes occur A major example of this phenomenon is the Salzach Ennstal Mariazell Puchberg SEMP fault system in the Austrian Alps Along this fault line researchers have directly observed changes in structure and strength profiles in transition zone 3 See also editDuctile Brittle Transition Temperature in materials science Degree to which a material under stress irreversibly deforms before failure Seismogenic layerReferences edit a b Zhamaletdinov A A 2019 Zhamaletdinov Abdullkhay A Rebetsky Yury L eds On the Nature of the Brittle Ductile Transition Zone in the Earth s Crust Review The Study of Continental Lithosphere Electrical Conductivity Temperature and Rheology Springer Proceedings in Earth and Environmental Sciences Cham Springer International Publishing 13 21 doi 10 1007 978 3 030 35906 5 3 ISBN 978 3 030 35906 5 S2CID 214283975 a b c Condie Kent C 2005 Condie Kent C ed The Crust Earth as an Evolving Planetary System Burlington Academic Press pp 13 58 ISBN 978 0 12 088392 9 Frost Erik Dolan James Ratschbacher Lothar Hacker Bradley Seward Gareth 2011 Direct observation of fault zone structure at the brittle ductile transition along the Salzach Ennstal Mariazell Puchberg fault system Austrian Alps Journal of Geophysical Research Solid Earth 116 B2 Bibcode 2011JGRB 116 2411F doi 10 1029 2010JB007719 ISSN 2156 2202 Further reading editA G Duba 1990 The Brittle Ductile Transition in Rocks The Heard Volume American Geophysical Union ISBN 978 0 87590 025 4 Rolandone F Burgmann R Nadeau R M 2004 The evolution of the seismic aseismic transition during the earthquake cycle Constraints from the time dependent depth distribution of aftershocks Geophysical Research Letters 31 23 L23610 Bibcode 2004GeoRL 3123610R doi 10 1029 2004GL021379 S2CID 3141059 Retrieved from https en wikipedia org w index php title Brittle ductile transition zone amp oldid 1171909184, wikipedia, wiki, book, books, library,

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