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Sedimentary infilling of an open seaway; Bawihka Channel, Nicaraguan Rise
Hine, A.C.; Harris, M.W.; Locker, S.D.; Hallock, P.; Peebles, M.; Tedesco, L.; Mullins, H.T.; Snyder, S.W.; Belknap, D.F.; Gonzales, J.L.; Neumann, A.C.; Martinez, J. (1994). Sedimentary infilling of an open seaway; Bawihka Channel, Nicaraguan Rise. J. Sedim. Res. 64(1b): 2-25
In: Journal of Sedimentary Research. Society for Sedimentary Geology: Tulsa, OK. ISSN 1527-1404; e-ISSN 1938-3681, more
Peer reviewed article  

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Keyword
    Marine/Coastal

Authors  Top 
  • Hine, A.C.
  • Harris, M.W.
  • Locker, S.D.
  • Hallock, P.
  • Peebles, M.
  • Tedesco, L.
  • Mullins, H.T.
  • Snyder, S.W.
  • Belknap, D.F.
  • Gonzales, J.L.
  • Neumann, A.C.
  • Martinez, J.

Abstract
    Recent oceanographic cruises to Bawihka Channel have revealed the dominant sedimentary products along and within this open seaway separating two carbonate platforms and the mechanisms and style of infilling. This feature is a seaway 125 km long and 8 km wide through which pass strong currents associated with the regional western-boundary-current system. This seaway is in a tropical setting near a tectonically active plate boundary making it a suitable, comparative counterpart to the much better known and well-studied seaways to the north associated with the Bahama Banks. Multichannel seismic data indicate that the long and narrow Bawihka Channel evolved from a broad, open basin 50 km wide in the Eocene by basin-margin aggradation and progradation. Basin infilling was asymmetric, with the western margin becoming stabilized and aggrading by the middle Miocene while progradation to the west along the eastern margin was accelerated. Strengthening of the western boundary current during this time via tectonic foundering of the Nicaraguan Rise megabank, as well as by stronger easterly trade winds due to climatic deterioration, stimulated this style of basin-margin development and led to narrowing of the seaway. High-resolution seismic data reveal that more recent infilling has been dominated by debris-flow deposits, turbidites, large displaced blocks, and widespread algal-bioherm growth. These sediment-gravity-flow deposits, particularly the debris flows and displaced blocks, may be a result of the active tectonic setting of the northern Nicaraguan Rise. The distribution of sediment textures and constituents as well as the widespread presence of well-cemented bioherms and hardbottoms results from strong currents flowing through the seaway. Shallow-water surface sediments are dominated by coarse Halimeda fragments, while base-f-slope and channel-axis sediments are finer grained and contain higher concentrations of planktonic forams and pteropods. Piston-core data indicate a late Pleistocene or early Holocene phase of turbidite infill followed by a phase of pelagic sedimentation. The pelagic-infill phase resulted from decreased turbidite frequency and lack of shallow. water sediment production on the bank tops during early sea-level flooding. Midslope mounds, interpreted to be algal bioherms, and associated midslope basins also retard downslope movement of shallow-water sediments. The infilling of Bawihka Channel is significant in that it reveals how rapid and under what conditions two shallow-water carbonate platforms might coalesce into a larger bank. It also reveals the potential complexity of sedimentary facies and stratigraphy that may lie beneath the interiors of large carbonate banks.

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