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1. Blow Hole Cave: An Unroofed Cave on San Salvador Island, the Bahamas, and its Importance for Detection of Paleokarst Caves on Fossil Carbonate Platforms

Author

Pavel Bosák, John E. Mylroie, Jindŕich Hladil, James L. Carew, and Ladislav Slavík

Subjects
Petrology, QE420-499, Stratigraphy, QE640-699
Abstract

Prispevek obravnava podobnosti v razvoju krasa kvartarne karbonatne platforme na otoku San Salvador in devonske karbonatne platforme na platoju Krásná na Moravskem. Za obe območji so značilne jame, katerih nastanek lahko razložimo s "flank margin" modelom in so nastale v območju sladkovodnih leč med obdobji relativno visoke morske gladine, v času relativno stabilne halokline, kar potrjujejo različne študije jamskih zapolnitev. V obeh primerih so jamske sedimentne zapolnitve genetsko primerljive - obalni in eolski sedimenti ter breče. The comparative study of a Quaternary carbonate platform (San Salvador Island, the Bahamas) and a Devonian Carbonate Platform (Krásná Elevation, Moravia) indicates a great similarity in karst evolution. Caves on both sites are interpreted as flank margin caves associated with a freshwater lens and halocline stabilised during sea-level highstands. The sedimentary fill of both caves is genetically comparable - beach and aeolian sediments with bodies of breccias.

Published
2016
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2. Land use and carbonate island karst

Author

James L. Carew and John E. Mylroie

Subjects
chemistry.chemical_compound, geography, geography.geographical_feature_category, Land use, chemistry, Geochemistry, Carbonate, Karst, Geology
Published
2020
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3. A new fossil species supports an early origin for toothed whale echolocation

Author

Matthew W. Colbert, James L Carew, and Jonathan H. Geisler

Subjects
South carolina, Multidisciplinary, Fossils, Melon, Toothed whale, Muscles, South Carolina, Lineage (evolution), Skull, Whales, Rostrum, Zoology, Human echolocation, Biology, biology.organism_classification, Biological Evolution, medicine.anatomical_structure, Echolocation, medicine, Animals, Adaptation, Tooth, Phylogeny
Abstract

Odontocetes (toothed whales, dolphins and porpoises) hunt and navigate through dark and turbid aquatic environments using echolocation; a key adaptation that relies on the same principles as sonar. Among echolocating vertebrates, odontocetes are unique in producing high-frequency vocalizations at the phonic lips, a constriction in the nasal passages just beneath the blowhole, and then using air sinuses and the melon to modulate their transmission. All extant odontocetes seem to echolocate; however, exactly when and how this complex behaviour--and its underlying anatomy--evolved is largely unknown. Here we report an odontocete fossil, Oligocene in age (approximately 28 Myr ago), from South Carolina (Cotylocara macei, gen. et sp. nov.) that has several features suggestive of echolocation: a dense, thick and downturned rostrum; air sac fossae; cranial asymmetry; and exceptionally broad maxillae. Our phylogenetic analysis places Cotylocara in a basal clade of odontocetes, leading us to infer that a rudimentary form of echolocation evolved in the early Oligocene, shortly after odontocetes diverged from the ancestors of filter-feeding whales (mysticetes). This was followed by enlargement of the facial muscles that modulate echolocation calls, which in turn led to marked, convergent changes in skull shape in the ancestors of Cotylocara, and in the lineage leading to extant odontocetes.

Published
2014
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4. Testing cosmic dose rate models for ESR: Dating corals and molluscs on San Salvador, Bahamas

Author

Anne R. Skinner, James L. Carew, Aislinn E. Deely, John E. Mylroie, Joel I.B. Blickstein, and Bonnie A.B. Blackwell

Subjects
geography, Radiation, geography.geographical_feature_category, Coral reef, Paleontology, Oceanography, Facies, Sedimentary rock, Transgressive, Quaternary, Instrumentation, Reef, Bay, Sea level, Geology
Abstract

Sealevel curves are best developed on tectonically stable coastlines, like San Salvador, where eolianites preserve transgressive and regressive phases associated with Quaternary high seastands, while reef facies mark the highstands. At 11 locations around San Salvador, terrestrial molluscs ( Cerion ) from the eolianites, lagoonal bivalves ( Codakia ), and corals from the highstand deposits were dated by ESR. Volumetrically averaged sedimentary dose rates were calculated from sedimentary geochemistry and time-averaged cosmic dose rates from each sample’s current and past geologic contexts. Rice Bay Formation corals dated at 3.9 ± 0.3 to 7.1 ± 0.4 ka (OIS 1). Minimum ages for the Cockburn Town Member’s regressive phase ranged from 49 ± 6 to 75 ± 8 ka, correlating with OIS 3–4. Codakia dates showed that an OIS 5a sealevel approached modern levels at 91–78 ka. In situ corals from the Cockburn Town Reef averaged from 127 ± 6 to 138 ± 10 ka, correlating well with OIS 5e. Ages from the Reef’s rubble zones hint that some coral reefs grew as early as OIS 7, but were likely reworked during OIS 5. San Salvador preserves deposits from three mid to late Quaternary highstands above, and as many as three that closely approach, modern sealevel.

Published
2011
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5. A pragmatic test of the early origin and fixation of gamma-ray spectrometric (U, Th) and magneto-susceptibility (Fe) patterns related to sedimentary cycle boundaries in pure platform limestones

Author

James L. Carew, Ladislav Slavík, Pavel Bosák, John E. Mylroie, Jindrich Hladil, and Milan Gersl

Subjects
Horizon (geology), 010506 paleontology, Carbonate platform, 010502 geochemistry & geophysics, 01 natural sciences, Paleosol, Devonian, Diagenesis, Sedimentary depositional environment, Paleontology, 13. Climate action, Geochemistry and Petrology, Terra rossa, Sedimentary rock, Geology, 0105 earth and related environmental sciences
Abstract

In a pragmatic test conducted on vertical stratigraphic sections in Quaternary platform limestones of San Salvador Island, The Bahamas, gamma-ray spectrometric (GRS) and magnetosusceptibility (κ) data confirmed that characteristic geophysical patterns are coupled with depositional cycle boundaries. These geophysical patterns appear to develop in the early stages of diagenesis and are long lasting, because similar patterns are found both in the very young Bahamian limestones and in very old Devonian (Givetian-Frasnian) platform limestones of Moravia, Czech Republic. Because the Devonian limestones retain gamma ray and magnetic signatures similar to those seen in the Bahamian rocks, these signals are apparently resistant to changes that occur in later diagenetic alteration, including deep-burial diagenesis and 380 million years of rock-fluid interactions. Each sedimentary cycle on the Bahamian carbonate platform is marked by a terra rossa paleosol horizon that represents a lowstand emergent surface. The paleosol is typically characterized by a GRS-spike related to increased Th concentration. There is only a subtle downward infiltration of that GRS signal, but the Th signal may diffuse upward via sediment recycling. Two U-related GRS maxima are regularly developed within short distances below and above the cycle boundary. The lower anomaly reflects U enrichment in the sub-soil cementation zone, whereas the upper anomaly is related to increased U-content in the flooding beds of the next cycle. Such a combination of one Th-spike between two U-anomalies forms a distinctive tripartite GRS pattern.

Published
2003
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6. Early diagenetic origin and persistence of gamma-ray and magnetosusceptibility patterns in platform carbonates: comparison of Devonian and Quaternary sections

Author

James L. Carew, John E. Mylroie, Jindrich Hladil, Milan Gersl, Ladislav Slavík, and Pavel Bosák

Subjects
Calcite, 010506 paleontology, Carbonate platform, 010502 geochemistry & geophysics, 01 natural sciences, Paleosol, Devonian, Diagenesis, chemistry.chemical_compound, Paleontology, Geophysics, chemistry, Geochemistry and Petrology, Carbonate, Sedimentary rock, Pressure solution, Geology, 0105 earth and related environmental sciences
Abstract

Gamma-ray logs from boreholes in the Middle–Upper Devonian carbonate platform of Moravia display tripartite anomalies at locations, where lithological and biostratigraphic data suggest the occurrence of 4th order sedimentary cycle boundaries. Further, where sedimentary boundaries have been changed by later development of caves (usually phreatic caves changed to unroofed caves––erosion), the carbonate infillings in these corroded cycle boundaries are marked by another pattern that consists of a smooth symmetrical peak on gamma-ray activity in vertical section. The details procured using gamma-ray spectrometric and magnetosusceptibility methods suggest that the upper peak of the tripartite pattern corresponds solely to uranium concentration (flooding surface). The middle peak is marked by a thorium signal and a magnetosusceptibility response from paramagnetic minerals (paleosols). The lower peak corresponds to trapped uranium and microbial magnetite in cemented rock pores (originally dysoxic microenvironments in calcite). The boundaries marked with filled caves display only one broad and symmetrical uranium-related peak, and the thorium peak that is roughly similar to that seen at normal boundaries, but it is shifted slightly downward. At boundaries with caves the magnetosusceptibility peaks are shifted downward considerably, and may even occur within the underlying host rock. The question of whether these patterns are a primary imprint of early diagenetic influences or a much later redistribution that originated during pressure solution and cementation, was answered by study of Late Quaternary sections on San Salvador Island, Bahamas. This pragmatic test on young carbonate sediments confirmed the early origin and fixation of these geophysical patterns.

Published
2003
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7. Blue holes: Definition and genesis

Author

John E. Mylroie, Audra I. Moore, and James L. Carew

Subjects
geography, geography.geographical_feature_category, Sinkhole, Geochemistry, Karst, Paleontology, chemistry.chemical_compound, chemistry, Cave, Geochemistry and Petrology, Phreatic zone, Vadose zone, Carbonate, Carbonate rock, Phreatic, Geology
Abstract

Blue holes are karst features that were initially described from Bahamian islands and banks, which have been documented for over 100 years. They are water-filled vertical openings in the carbonate rock that exhibit complex morphologies, ecologies, and water chemistries. Their deep blue color, for which they are named, is the result of their great depth, and they may lead to cave systems below sea level. Blue holes are polygenetic in origin, having formed: by drowning of dissolutional sinkholes and shafts developed in the vadose zone; by phreatic dissolution along an ascending halocline; by progradational collapse upward from deep dissolution voids produced in the phreatic zone; or by fracture of the bank margin. Blue holes are the cumulative result of carbonate deposition and dissolution cycles which have been controlled by Quaternary glacioeustatic fluctuations of sea-level.

Published
1995
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8. Banana holes: Unique karst features of the Bahamas

Author

John E. Mylroie, James L. Carew, and J. G. Harris

Subjects
Hydrology, geography, Paleontology, geography.geographical_feature_category, Geochemistry and Petrology, Karst, Geology, Phreatic
Abstract

Banana holes are circular to oval voids with diameters ranging from 2 meters to more than 10 meters, and with depths up to 5 meters, which are found throughout the Bahamas. They are named for a specialty crop sometimes grown in the thick moist soils that accumulate in them. They commonly have vertical or overhung walls, and exhibit phreatic dissolutional morphology. Occasionally, banana holes are found with complete or nearly complete roofs.

Published
1995
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9. Quaternary tectonic stability of the Bahamian archipelago: evidence from fossil coral reefs and flank margin caves

Author

James L. Carew and John E. Mylroie

Subjects
Archeology, Global and Planetary Change, geography, geography.geographical_feature_category, Geology, Subsidence, Coral reef, Paleontology, Oceanography, Cave, Archipelago, Tertiary, Quaternary, Reef, Ecology, Evolution, Behavior and Systematics, Sea level
Abstract

Throughout the islands of the Bahamian archipelago fossil coral reefs are found from current sea level up to a maximum elevation of +4 m. 234 U 230 Th radiometric dates obtained from in situ corals from these reefs, by both alpha-count and mass-spectrometric techniques, indicates that they were all formed during Oxygen Isotope Substage 5e (ca. 125,000 years ago). Those data are consistent with a maximum sea-level highstand of +6 m during Substage 5e, and either no vertical motion of the Bahamas, or possible isostatic subsidence of up to 2 m during the past 120,000 years. No older in situ fossil corals, or other subtidal deposits, have been found subaerially exposed anywhere in the Bahamas. That finding suggests that late Quaternary (at least the past 300,000 years) isostatic subsidence has occurred at a rate of 1–2 m per hundred thousand years, and/or no pre-5e highstands were above modern sea level. An independent corroboration of the conclusions drawn about sea level amplitude and tectonic stability of the Bahamas from the coral reef data is available from examination of abundant flank margin caves (horizontal, phreatic dissolution caves) found above modern sea level throughout the Bahamas. These horizontally extensive air-filled caves have dissolutional ceilings with elevations that are restricted to +1 to +7 m, which is consistent with formation at the margin of a thin freshwater lens elevated by a past +6 m sea-level highstand. The restricted cave elevations, and the lack of stalagmites in these caves that are older than 100,000 years, are also consistent with cave formation during Substage 5e, and possible subsequent isostatic subsidence of a few metres. The subsurface geology of the southeastern Bahamas contains a long-term record (millions of years) that has been attributed to past tectonic activity along the North American/Caribbean plate boundary. While that record suggests differential subsidence across the Bahamas in the Tertiary Period, the data from fossil coral reefs (and subtidal deposits) and flank margin caves indicate that all Bahamian banks on which there are islands have been tectonically stable, and behaving similarly, for at least the past several hundred thousand years.

Published
1995
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10. Some pitfalls in paleosol interpretation in carbonate sequences

Author

John E. Mylroie and James L. Carew

Subjects
geography, geography.geographical_feature_category, Bedrock, Geologic record, Karst, Paleosol, Calcarenite, Paleontology, chemistry.chemical_compound, chemistry, Geochemistry and Petrology, Carbonate, Quaternary, Sea level, Geology
Abstract

In Quaternary carbonate units composed mostly of eolianites, paleosols are important stratigraphic markers that help differentiate episodes of carbonate deposition tied to glacio-eustatic sea level fluctuations. Paleosols used in this manner can be misinterpreted, and thus lead to errors in interpretation of the geologic record. Some possible pitfalls include: failure to differentiate between terra-rossa paleosols and calcarenite protosols; failure to recognize that separate paleosols may merge laterally into composite paleosols; failure to recognize that single paleosols may bifurcate in highly weathered bedrock; and failure to recognize soil-derived material that infills karst features. The Quaternary carbonates of the Bahamas are used to illustrate these pitfalls, which may occur in carbonates of any age.

Published
1991
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11. The flank margin model for dissolution cave development in carbonate platforms

Author

James L. Carew and John E. Mylroie

Subjects
geography, geography.geographical_feature_category, Landform, Carbonate platform, Geography, Planning and Development, Paleontology, chemistry.chemical_compound, Cave, chemistry, Subaerial, Earth and Planetary Sciences (miscellaneous), Carbonate, Quaternary, Geology, Sea level, Phreatic, Earth-Surface Processes
Abstract

The Bahama Islands contain many abandoned dissolution caves at elevations between two and seven metres above current sea level. The development of dissolution caves in tropical carbonate islands is dependent on the position and nature of the freshwater lens. Lens position is controlled by sea level, which in stable carbonate platforms like the Bahamas is a function of glacioeustatic sea level still stands. Caves in the Bahamas that are currently subaerial must have developed during past higher sea levels. During the Late Quaternary, sea levels higher than present have been relatively short-lived, and that limits the amount of time that a freshwater lens could be situated at the elevation required for the cave formation. The Bahama Islands are low-lying landforms where only aeolian ridges extend to elevations higher than six metres above current sea level. Past high sea level events greatly reduced the exposed land area of the Bahama Islands, thus also limiting both the catchment for and size of freshwater lenses. Caves must be younger than the rock in which they are developed; most subaerial Bahamian caves are found in limestones that are less than 150000 years old. Development of large dissolution caves under these limitations of time and lens size requires a powerful dissolutional mechanism. The mixing of discharging freshwater with tide-pulsed incoming marine water under the flanks of emergent dune ridges may have produced the conditions necessary. Bahamian caves formed by this process are phreatic chambers with complex interconnections and blind tubes. Their presence demonstrates that significant dissolution can occur rapidly as a result of the mixing of fresh and marine waters beneath small carbonate islands.

Published
1990
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12. Anomalous magnetic susceptibility values and traces of subsurface microbial activity in carbonate banks on San Salvador Island, Bahamas

Author

Jindrich Hladil, Tomas Kohout, John S. Jell, B. Lacka, A. Langrova, John E. Mylroie, James L. Carew, and Petr Pruner

Subjects
Calcite, Magnetotactic bacteria, Stratigraphy, Paleontology, Mineralogy, Geology, Paleosol, Magnetic susceptibility, chemistry.chemical_compound, chemistry, Soil horizon, Carbonate, Lithification, Magnetite
Abstract

Pure limestones beneath the paleosols on San Salvador Island, Bahamas, contain strong positive magnetic susceptibility anomalies, although the iron content is generally very low. These magnetic phenomena differ from those associated with disconformities, which are marked by accumulation of paramagnetic airborne dust deposits with relatively high iron content. The strength and characters of the magnetic response in these subsurface zones correspond to the presence of magnetite, particularly small single-domain magnetite crystals of microbial origin. These crystals are not present elsewhere in the intergranular rock pores or microvugs. They are preferentially concentrated in capillary microborings, which developed concurrently with formation of calcite cements that have soil-related C and O isotope compositions. These magnetic zones occur several meters below the overlying soil horizons. Very thin and long linear microborings may be attributable to cyanobacterial microborers. The single-domain magnetites in these micrometer-size tunnels plugged by calcite appear to result from later occupation of these tiny holes by magnetotactic bacteria. Inorganic origin of the magnetite seems unlikely. Numerous traces that suggest subsurface microbial activity provide evidence that may be used to develop possible scenarios for subsequent biological studies of the precise bacteria involved.

Published
2004
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13. List of Contributors

Author

Paul Aharon, Stephen S. Anthony, S.G. Blake, Jan Bronders, Ann F. Budd, Robert W. Buddemeier, Danièle C. Buigues, Gilbert F. Camoin, James L. Carew, Delton Chen, Lindsay B. Collins, Pascale Déjardin, A.C. Falkland, John Ferry, Renaud Fichez, Lindsay Furness, Fereidoun Ghassemi, Ivan P. Gill, Luis A. González, Sarah C. Gray, Robert B. Halley, Paul J. Hearty, James R. Hein, Peter J. Hill, David Hopley, Dennis K. Hubbard, John D. Humphrey, Charles D. Hunt, I.G. Hunter, Gerry Jacobson, Brian Jones, Pascal Kindler, Philip A. Kramer, André Krol, Prem B. Kumar, John Lewis, Jose Luis Masaferro, Peter P. McLaughlin, Leslie A. Melim, John F. Mink, Vanessa Monell, Lucien F. Montaggioni, Clyde H. Moore, John E. Mylroie, K.-C. Ng, June A. Oberdorfer, J.M. Pandolfi, Frank L. Peterson, Phillip E. Playford, Terrence M. Quinn, Bruce M. Richmond, Francis Rougerie, Mark P. Rowe, Héctor Ruiz, Saller Arthur, Eugene A. Shinn, Peter L. Smart, Peter K. Swart, Bruce E. Taggart, H. Leonard Vacher, William C. Ward, Christopher Wheeler, Fiona Whitaker, Colin D. Woodroffe, Karl-Heinz Wyrwoll, and Zhong Rong Zhu

Published
2004
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14. Geology of the Bahamas

Author

James L. Carew and John E. Mylroie

Subjects
Pine barrens, geography, geography.geographical_feature_category, Subtropics, Paleosol, Deposition (geology), chemistry.chemical_compound, Oceanography, chemistry, Terra rossa, Subaerial, Archipelago, Carbonate, Geology
Abstract

This chapter provides information on the geology of Bahamas, and mentions that the geology of the Turks and Caicos is also similar. The Bahamian archipelago covers 300,000 km 2 , of which 136,000 km 2 is shallow bank, and 11,400 km 2 is subaerial land. The Commonwealth of the Bahamas comprises the majority of an extensive archipelago of carbonate islands and shallow banks in the western North Atlantic Ocean. The southeastern portion of the same archipelago consists of the Turks and Caicos Islands (British West Indies), and the submerged Mouchoir, Silver, and Navidad banks. Climatically, the Bahamas' temperature ranges from subtropical in the north to semiarid in the south. Today, the northern islands are largely covered by pine barrens with palmetto, but there are regions of limited broadleaf coppice. The Bahamas lie within the zone of the northeast trade winds, and that has resulted in the preferential occurrence of islands on the eastern (windward) side of most banks. As a result of the glacioeustatic control of limestone deposition in the Bahamas, the lithostratigraphic units of Bahamian islands are also allostratigraphic units that are usually bounded by terra rossa paleosols.

Published
2004
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