The Bahamas Biocomplexity Study Photo Collection

Stoffle, Richard W., Van Vlack, Kathleen A., O’Meara, Nathaniel B., Martinez, Aja Y.

01 August 2013

These photographs offer illustrations of the people, places and resources in the six communities visited during the Bahamas Biocomplexity project.

The Bahamas

Marine Protected Areas

The Exumas

Traditional Communities

Photographs

Marine Protected Areas and the Territorialization of the Oceans in the Exumas, Bahamas

Chmara-Huff, Fletcher Paul

15 December 2011

No description available.

Caribbean Studies

Cultural Resources Management

Environmental Justice

Environmental Management

Environmental Studies

Geography

Natural Resource Management

Sustainability

Wildlife Conservation

Marine Protected Areas

MPA

Territoriality

Marine Conservation

Exumas

Bahamas

Sedimentology of a Grain-Dominated Tidal Flat, Tidal Delta, and Eolianite System: Shroud Cay, Exumas, Bahamas

Petrie, Maaike

01 January 2010

Sedimentary characteristics of grainy non-skeletal tidal flats along windward platform margins have not been described in modern environments and may be misidentified or misclassified in the rock record. This study describes the sedimentology of such an environment to aid in accurate identification and characterization in the ancient. At Shroud Cay, a grain-dominated tidal flat is sheltered from the high energy of the shelf by a ring of cemented Pleistocene and partly indurated Holocene eolianite islands separated by several narrow tidal passes. Depositional texture, environment of deposition and geobody mapping, extensive sediment sampling, and vibracoring have shown that, though the cemented island provide a barrier from the high energy of the shelf, a high degree of tidal energy still occurs behind this barrier as indicated by the overwhelmingly grainy nature of all of the tidal flat sub-environments. Intertidal flats comprise the majority of the tidal flat surface. These flats are characterized by patchy Scytonema mats overlying bioturbated peloid-ooid grainstones to packstones with cemented lithoclasts. Three main tidal channels dissect the tidal flat and allow diurnal flow, one of those tidal channels does not exit the tidal flat but dead-ends behind a cemented Holocene beach dune ridge along the eastern side of Shroud Cay. Peloid-ooid-skeletal grainstone tidal bars and peloid-ooid packstones fill much of the channels. Most of the channels are bordered by low-relief grain-rich packstone levees often capped by red mangroves and algal mats. The interior-most supratidal parts of the flat, often in the lee of the windward Holocene ridge, are covered by a thick (5-~25cm) Scytonema microbial mat underlain by grain-rich ooid-peloid packstones. Ancient grain-dominated carbonate tidal flats and eolianite deposits like Shroud Cay?s are the reservoir rocks in some of today?s largest hydrocarbon fields. We develop a model for the evolution of the grain-dominated tidal flat, document and compare differences between the grain-rich tidal flat and surrounding environments of deposition, and develop a set of criteria for recognition. These criteria can be used to more accurately characterize reservoirs such as the Jurassic Smackover fields, to avoid mis-classification of similar settings, and more effectively produce those reservoirs.