2007
DOI: 10.1016/j.epsl.2007.02.028
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Numerical modelling of non-transform discontinuity geometry: Implications for ridge structure, volcano-tectonic fabric development and hydrothermal activity at segment ends

Abstract: Ocean ridge discontinuities partition and offset spreading centres at a range of scales. Large scale discontinuities (10's-100's km) are synonymous with first-order transform faults, which have well defined linear fault zone valleys. In contrast, NonTransform Discontinuities (NTDs) are diffuse, smaller scale offsets (0 to b 20 km), characterised by central basins or topographic highs. The geometry of NTD offsets can be categorised by the sense of offset, either right-stepping or left-stepping, and by the relat… Show more

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Cited by 8 publications
(4 citation statements)
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“…(b) Bookshelf faulting accommodates transfer of extension between overlapping oceanic spreading segments (Green et al, 2014). (c) Extension is transferred between overlapping spreading centers through a region of rotational deformation (Macdonald & Fox, 1983;Tyler et al, 2007). (d) Centimeter-scale faulting observed in bedrock that accommodates extensional transfer between microcracks (Willemse et al, 1997).…”
Section: Modeling Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…(b) Bookshelf faulting accommodates transfer of extension between overlapping oceanic spreading segments (Green et al, 2014). (c) Extension is transferred between overlapping spreading centers through a region of rotational deformation (Macdonald & Fox, 1983;Tyler et al, 2007). (d) Centimeter-scale faulting observed in bedrock that accommodates extensional transfer between microcracks (Willemse et al, 1997).…”
Section: Modeling Resultsmentioning
confidence: 99%
“…Another style of nontransform ocean ridge discontinuity is found where magmatic segments overlap by tens of kilometers. This results in a focused region of rotational deformation, which results in a volcanically active, elevated terrain (Macdonald & Fox, ; Tyler et al, ; Figure c). This central domain is the focus for shear and rotational deformation and is thought to be unstable with time.…”
Section: Discussionmentioning
confidence: 99%
“…However, it lies at the lower end of the size range for similar features observed along the slow-spreading MAR (Spencer et al, 1997) and Central Indian Ridge (Tyler et al, 2007), the intermediate-spreading…”
Section: Geological Settingmentioning
confidence: 58%
“…The deviations of volcanic lineaments and faults in the studied segment (31°NE) from the expected axial trend (39°NE) manifest the obliquity of the rifting, which is common in slow‐spreading nontransform offsets and is explained by the oblique shear stress. Curved and sigmoidal faults also suggest the rotation of stresses between the offset spreading segments (Tyler et al, ). The stresses surrounding discontinuities and the rotation in the volcanic crust can create more complex cross‐cutting fault populations that will grow in both horizontal and vertical direction forming soft‐link relay structures, or evolving into hard‐link relay structures at the later stages, promoting hydrothermal circulation.…”
Section: Resultsmentioning
confidence: 99%