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Duration of deposition from decelerating high-density turbidity currents
Using recent advances in the stability analysis of current ripples, a new model for the calculation of duration of sediment deposition from decelerating high-density turbidity currents is proposed. The model, named TDURE, refines a duration model proposed by Allen (1991) (J. Sediment. Petrol. 61, 29...
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Published in: | Sedimentary geology 2000-10, Vol.136 (1), p.71-88 |
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Main Authors: | , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | Using recent advances in the stability analysis of current ripples, a new model for the calculation of duration of sediment deposition from decelerating high-density turbidity currents is proposed. The model, named TDURE, refines a duration model proposed by
Allen (1991) (J. Sediment. Petrol. 61, 291–295) by calculating the accumulation time of the rippled
T
c-division separately from the massive and plane parallel-laminated
T
ab-divisions in Bouma-type turbidites. TDURE consists of three modules. In the first module, the accumulation time for the
T
a- and
T
b-divisions is approximated by assuming a linear decrease in sedimentation rate with height in the turbidite. As in the original model, a straight line is fitted through inferred sedimentation rates at the
T
ab- and
T
bc-boundaries. In the second module, angle of climb of ripples, thickness of the
T
c-division and grain size distribution are used in empirical relationships between ripple migration rate and a grain-related mobility parameter to estimate the accumulation time of the
T
c-division. In the third module, the expected development of ripple size across the
T
c-division is calculated using empirical relationships between rate of development of ripple height and grain-related mobility parameter, and subsequently compared with the observed development of ripple size in the turbidite. In this way, the accuracy of the accumulation time calculated in module 2 can be verified independently. TDURE was tested using Bouma-type turbidites from the Doheny Channel (Capistrano Fm., CA, USA) and the Flysch di Motta (Calabria, Italy). Accumulation times of 12 and 10.75
min for the
T
c-division, and 19 and 16
min for the
T
abc-sequence were calculated for the Doheny Channel and the Flysch di Motta turbidites, respectively. Although module 3 underestimates the rate of development of current ripples near the
T
bc-boundary in both beds, ripple size at the
T
cd-boundary is calculated accurately. The underestimation of development rate may be caused by differences between flow conditions in experimental flumes on which the model calculations are based and turbidity-current dynamics. |
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ISSN: | 0037-0738 1879-0968 |
DOI: | 10.1016/S0037-0738(00)00088-9 |