Central Indian Ridge
The Central Indian Ridge (CIR) is a north–south-trending mid-ocean ridge in the western Indian Ocean.
Geological setting
The morphology of the CIR is characteristic of slow to intermediate ridges. The axial valley is 500–1000 m deep; 50–100 km-long ridge segments are separated by 30 km-long transform faults and 10 km-long non-transform discontinuities. Melt supply comes from axial volcanic ridges that are 15 km-long, 1–2 km wide, and reaches 100–200 m above the axial floor.[1]
With a spreading rate of 30 mm/yr near the Equator and 49 mm/yr near the Rodrigues Triple Junction (RTJ) at its southern end, the CIR is an intermediately fast spreading ridge characterised by moderate obliquity and few large offsets, the obvious exception being the almost 300 km-long Mary Celeste Fracture Zone at 18°S.[2] Between 21°S and the Mary Celeste Fracture Zone (18°S) the CIR deviates westward. Along this section the larger offsets switch from right-lateral to left-lateral but return to right-lateral north of 18°S.[1]
Otherwise, the southern section (RTJ-Argo Fracture Zone, 25°S-13°S) of the CIR is near-orthogonal relative to the spreading direction. North of the Argo FZ it is highly oblique and dominated by numerous small ridge segments. The northern section of the CIR, including the Carlsberg Ridge, trends NNW and lacks fracture zones. The axial depth of the CIR increases from 3200 m at 20°S to 4000 m at the RTJ.[2]
Boundaries
The CIR is traditionally said to separate the African Plate from the Indo-Australian Plate. Likewise, the Owen Fracture Zone in the northern end of the CIR is traditionally said to separate the Indian-Australian plate from the Arabian Plate. Movements in the Owen Fracture Zone are, however, negligible and Arabia and India are moving as a single plate. This plate, in turn, is separated from the Australian Plate by a diffuse boundary, the India–Capricorn boundary, which stretches east from the CIR near Chagos Bank to the Ninety East Ridge and north along the Ninety East Ridge to the northern end of the Sunda Trench. This diffuse boundary was probably initiated in the Late Miocene and is probably related to opening of Gulf of Aden and the uplift of the Himalayas.[3]
Tectonic history and hotspot interaction
The CIR was opened during the separation of the
The only above-water structure near the CIR is the
See also
References
Notes
- ^ a b c d Murton et al. 2005, Geological setting, pp. 2–4
- ^ a b c d e Hellebrand et al. 2002, Geological setting, pp. 2306-2308
- ^ Wiens et al. 1985, Abstract
Sources
- Hellebrand, E.; Snow, J. E.; Hoppe, P.; Hofmann, A. W. (2002). "Garnet-field melting and late-stage refertilization in 'residual'abyssal peridotites from the Central Indian Ridge". Journal of Petrology. 43 (12): 2305–2338. . Retrieved 18 September 2016.
- Murton, B. J.; Tindle, A. G.; Milton, J. A.; Sauter, D. (2005). "Heterogeneity in southern Central Indian Ridge MORB: implications for ridge–hot spot interaction". Geochemistry, Geophysics, Geosystems. 6 (3): n/a. S2CID 56094985. Retrieved 18 September 2016.
- Wiens, D. A.; DeMets, C.; Gordon, R. G.; Stein, S.; Argus, D.; Engeln, J. F. (1985). "A diffuse plate boundary model for Indian Ocean tectonics". Geophysical Research Letters. 12 (7): 429–432. . Retrieved 30 July 2016.
External links
- TAIGA Concept (2015). "Part II Central Indian Ridge". In Ishibashi, J.; Okino, K.; Sunamura, M. (eds.). Subseafloor Biosphere Linked to Hydrothermal Systems. Springer. pp. 133–214. S2CID 133245369.