Evidence of Himalayan erosional event at ~0.5Ma from a sediment core from the equatorial Indian Ocean in the vicinity of ODP Leg 116 sites
Nath, B.N.; Gupta, S.M.; Mislankar, P.G.; Rao, B.R.; Parthiban, G.; Roelandts, I.; Patil, S.K. (2005). Evidence of Himalayan erosional event at ~0.5Ma from a sediment core from the equatorial Indian Ocean in the vicinity of ODP Leg 116 sites. Deep-Sea Res., Part II, Top. Stud. Oceanogr. 52(14-15): 2061-2077. dx.doi.org/10.1016/j.dsr2.2005.05.011
In: Deep-Sea Research, Part II. Topical Studies in Oceanography. Pergamon: Oxford. ISSN 0967-0645; e-ISSN 1879-0100, meer
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| Auteurs | | Top |
- Nath, B.N.
- Gupta, S.M.
- Mislankar, P.G.
- Rao, B.R.
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- Parthiban, G.
- Roelandts, I.
- Patil, S.K.
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| Abstract |
A sediment core collected from an area similar to 100 miles south of the ODP Leg 116 (distal Bengal Fan) in the equatorial Indian Ocean was investigated for microfossils, mineralogy, mineral chemistry, magnetic susceptibility, grain size, major, minor and rare-earth element geochemistry, organic carbon and total nitrogen contents in the bulk sediments. Distinct changes in depositional characteristics (including presence of abundant sand-sized micas and other detrital minerals) occur at two sub-surface depths corresponding to similar to 0.5 and probably 0.8 Ma time periods. The detrital mineral suite of this core resembles that of turbidite unit I sediments of ODP cores in the distal Bengal Fan. The core site has received an increased supply of terrigenous sediments at these two time periods, the older pulse (0.8 Ma) stronger than the younger pulse. Several lines of evidence such as the nature of the mineral suite, lower magnetic susceptibility values, Si/Al in mica mineral separates; major element composition; discrimination plots of Ca/Ti versus K/Ti and K2O/Al2O3 and La/Yb ratios suggest a highly metamorphosed source such as higher Himalayan crystalline (HHC) series indicating two events of increased physical weathering and erosion in the Himalayan region. While the erosional event of 0.8 Ma is well known, the episode of 0.5 Ma was not reported earlier. |
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