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Open-File Report 2010–1134

Prepared in cooperation with
Coastal and Marine Geology Program

West Florida Shelf: A Natural Laboratory for the Study of Ocean Acidification

By Pamela Hallock,1 Lisa L. Robbins,2 Rebekka Larson,1 Tanya Beck,1 Patrick Schwing,1 Michael Martínez-Colón,1 and Brad Gooch1

1University of South Florida College of Marine Sciences, 140 7th Ave. South, St. Petersburg, FL 33701
2U.S. Geological Survey Coastal and Marine Science Center, 600 4th Street South, St. Petersburg, FL 33701

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Declining oceanic pH and carbonate-ion concentrations are well-known consequences of increased atmospheric and surface-ocean partial pressure of carbon dioxide (pCO2). The possible subject of shifts in seawater carbonate chemistry on biocalcification and survival rates of marine organisms provides questions amenable to both experimental and field study (Kleypas and Langdon, 2006). To date, limited quantitative data exist with which to formalize and test hypotheses regarding such impacts, particularly in continental-shelf settings. The continental shelves of Florida provide an ideal natural laboratory in which to test latitudinal (and temperature and depth) shifts in habitat ranges of calcifying organisms. Both the east and west Florida shelves extend from warm temperate to subtropical latitudes; additionally, the west Florida shelf has very little siliciclastic influx to mask the carbonate production.

This study utilizes the natural laboratory of the west and southwest Florida shelf (fig 1.1) to examine the transition from foramol (predominately foraminifera and molluscan) carbonate sediments, characteristic of the west-central Florida shelf, to chlorozoan (algal and coral) sediments characteristic of the southwest Florida shelf.

The west Florida shelf is a mixed siliciclastic carbonate ramp that to the south transitions to the carbonate-dominated southwest Florida shelf (Enos, 1977; Brooks and others, 2003). The west Florida shelf is a distally steepened carbonate ramp that is ~250 kilometers (km) wide (Read, 1985). It is covered by a veneer of unconsolidated sediment consisting of mainly biogenic carbonate and quartz in the near shore, with subordinate amounts of phosphate. The sediment-distribution pattern is largely a function of proximity to source, with physical processes playing a minor role in distribution. The carbonate sand-and-gravel fraction is produced by organisms within the depositional basin of the west Florida shelf (Brooks and others, 2003). The southwest Florida shelf is a rimmed carbonate margin where organisms produce virtually all of the substrate; it also exhibits a greater sediment thickness as compared to the west Florida shelf (Enos, 1977).

Temperature, which is usually associated with latitude, plays a major role in locations of foramol versus chlorozoan assemblages, but other factors beyond latitude influence temperature on the west and southwest Florida shelves. The potential of cooler, deep-water upwelling and transport over the bottom waters of the shelf may have a significant role in the species assemblage at the sediment/water interface and ultimately on location of foramol versus chlorozoan production. Deep water transported onto and over the shelf may also have environmental ramifications beyond temperature by bringing in water of different chemistry.

First posted August 5, 2010

For additional information contact:
Lisa Robbins
U.S. Geological Survey
St. Petersburg Coastal and Marine Science Center
600 4th Street South
St. Petersburg, FL 33701

Part or all of this report is presented in Portable Document Format (PDF); the latest version of Adobe Reader or similar software is required to view it. Download the latest version of Adobe Reader, free of charge.

Suggested citation:

Hallock, Pamela, Robbins, L.L., Larson, Rebekka, Beck, Tanya, Schwing, Patrick, Martínez-Colón, Michael, and Gooch, Brad, 2010, West Florida Shelf: A natural laboratory for the study of ocean acidificiation: U.S. Geological Survey Open-File Report 2010–1134, 95 p.


Section 1. Surface-Sediment Constituent Data

Section 2. Sediment Characteristics and Distribution along the West-Central Florida Inner Shelf

Section 3. Assessing Carbonate and Total Organic Content Trends in Sediments on the West Florida Shelf

Section 4. West Florida Shelf: A Foraminiferal Perspective

Section 5. Irradiance Data from the West Florida Shelf

Section 6. References (all papers)


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