Upper-crustal strength inferred from stress measurements to 6 km depth in the KTB borehole
Mark D. Zoback,R. Apel,J. Baumgärtner,M. Brudy,Rolf Emmermann,B. Engeser,Karl Fuchs,W. Kessels,H. Rischmüller,Fritz Rummel,Lev Vernik +10 more
TLDR
In this article, the authors report estimates of the magnitude of in situstresses to 6 km depth in the KTB borehole in southern Germany, and suggest that plate-driving forces in the continental lithosphere in this part of western Europe are transmitted principally through the upper crust.Abstract:
IT has been suggested1–6that in many cases the average strength of the continental crust is quite low (tens of megapascals), so that the crust has little effect on the large-scale deformation of the lithosphere. But laboratory friction studies7,8, combined with simple faulting theory9,10 (as well as extrapolation ofin situ stress measurements from the upper 3 km of the crust11), imply that if pore pressure is approximately hydrostatic at mid-crustal depth, crustal strength is appreciable (hundreds of megapascals) and would markedly constrain the nature of lithospheric deformation12–15. Here we report estimates of the magnitude of in situstresses to 6 km depth in the KTB borehole in southern Germany. Our results indicate a high-strength upper crust, in which the state of stress is in equilibrium with its frictional strength. We suggest that plate-driving forces in the continental lithosphere in this part of western Europe are transmitted principally through the upper crust, and that this may also be the case in other continental areas of moderate to elevated heat flow.read more
Citations
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Determination of stress orientation and magnitude in deep wells
Mark D. Zoback,Colleen A. Barton,Martin Brudy,D. A. Castillo,Thomas Finkbeiner,Balz Grollimund,Daniel Moos,Pavel Peska,C.D. Ward,David J Wiprut +9 more
TL;DR: In this paper, a suite of techniques for determination of in situ stress orientation and magnitude in deep wells and boreholes is presented, and case studies derived from oil and gas fields in different parts of the world are presented.
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Injection-induced earthquakes and crustal stress at 9 km depth at the KTB deep drilling site, Germany
Mark D. Zoback,Hans-Peter Harjes +1 more
TL;DR: A fluid injection-induced seismicity experiment was conducted in the German Continental Deep Drilling Program (KTB) main borehole at 91 km depth to extend knowledge about stress magnitudes and brittle faulting to depths and temperatures approaching the brittle-ductile transition.
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Estimation of the complete stress tensor to 8 km depth in the KTB scientific drill holes: Implications for crustal strength
TL;DR: In this article, a continuous profile of the magnitudes and orientations of the three principal stresses has been estimated to depths of 7.7 km and 8.6 km in the German Continental Deep Drilling Program (KTB).
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Rheology and strength of the lithosphere
TL;DR: In this paper, the authors address the problems related to lithosphere rheology and mechanics by first reviewing the rock mechanics data, Te (flexure) and Ts (earthquake) data and long-term observations such as folding and subsidence data, and then by examining the physical plausibility of various rheological models.
References
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Journal ArticleDOI
Friction of Rocks
TL;DR: This paper showed that at low normal stress the shear stress required to slide one rock over another varies widely between experiments and at high normal stress that effect is diminished and the friction is nearly independent of rock type.
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Limits on lithospheric stress imposed by laboratory experiments
W. F. Brace,David L. Kohlstedt +1 more
TL;DR: Byerlee's law, converted to maximum or minimum stress, is a good upper or lower bound to observed in situ stresses to 5 km, for pore pressure hydrostatic or subhydrostatic as discussed by the authors.
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First‐ and second‐order patterns of stress in the lithosphere: The World Stress Map Project
TL;DR: In this paper, more than 7300 in situ stress orientations have been compiled as part of the World Stress Map project and over 4400 are considered reliable tectonic stress indicators, recording horizontal stress orientation to within <±25°.
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The relationship between plate motions and seismic moment tensors, and the rates of active deformation in the Mediterranean and Middle East
James Jackson,Dan McKenzie +1 more
TL;DR: In this paper, the relationship between the overall motion across a zone of distributed continental deformation and the seismic moment tensors of earthquakes that occur within it is investigated, and the results are applied to the Mediterranean region to see whether the motion between the relatively rigid regions of central Iran, Turkey, Arabia, Africa, the Adriatic Sea and Eurasia is accommodated seismically within the upper crust of wide deforming zones that bound these regions.
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Stress and temperature in the bending lithosphere as constrained by experimental rock mechanics
C. Goetze,Brian Evans +1 more
TL;DR: In this paper, a limiting yield strength curve, which is primarily a function of temperature, is constructed from data from brittle failure and ductile flow experiments, in order to formulate a more realistic constitutive relation.