Renato Oscar Kowsmann scite author profile

The Amazon Fan contains sedimentary/acoustic sequences characteristic of many large and small modem mud-rich fans. Analyses of high-resolution single-channel seismic-reflection profiles and 3.5-kHz profiles suggest that fan growth is in part related to sea-level fluctuations and in part related to events such as channel bifurcations and large debris flows that appear unrelated to sea-level position. Sinuous fan channels are perched on top of lens-shaped overbank deposits to form channel-levee systems in the upper and middle fan. Individual channel-levee systems overlap and coalesce to build levee complexes that also stack and overlap, but that are bounded by large debris-flow deposits. Because both channel-levee systems and debris flows can be active at the same time, this depositional pattern does not necessarily develop as a result of sea-level change. The sinuous fan channels appear to be nearly at grade because channel sinuosity varies downfan to keep the along-channel gradient uniformly decreasing downfan. Flat-lying, high-amplitude reflection packets that underlie a channel-levee system and extend downfan to form part of the lower fan may develop when new, oversteepened channels are created as a result of avulsion on the middle fan. This suggests that portions of the lower fan are formed concurrently with channellevee systems. Piston cores from near the most recently active channel suggest that the locus of sedimentation shifted landward as sea level rose at the end of the last glaciation.

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Hydrology, morphology and sedimentology of the Campos continental margin, offshore Brazil

Viana

Faugères

Kowsmann

et al. 1998

Sedimentary Geology

189

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The deltaic nature of Amazon shelf sedimentation

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Kuehl

DeMaster

et al. 1986

Geol Soc America Bull

234

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Ketzer

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et al. 2015

Marine and Petroleum Geology

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