The origin of carbonate mud in isolated carbonate platforms of Belize, Central America

Gischler, Eberhard; Zingeler, Daniel

doi:10.1007/s00531-002-0288-5

Cited by 55 publications

(38 citation statements)

References 19 publications

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“…Strontium contents in the Gorges du Pichoux and Péry-Reuchenette sections (Tables 2, 3) are very low compared to Sr contents of modern micrites (Kinsman, 1969;Andrews, Christidis & Dennis, 1997;Bosence, 1995;Gischler & Zingeler, 2002;Milliman et al 1993). However, manganese contents are close to those of modern lagoonal (brackish water) or freshwater carbonate sediments (Friedman, 1969), and lower than those measured in pelagic carbonates of Kimmeridgian successions (de Rafélis et al 2000).…”

Section: B Diagenetic Alterationmentioning

confidence: 99%

Carbon- and oxygen-isotope records of palaeoenvironmental and carbonate production changes in shallow-marine carbonates (Kimmeridgian, Swiss Jura)

2010

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-Carbon-and oxygen-isotope ratios are commonly used to correlate shallow-and deepmarine successions. Carbon-and oxygen-isotope analyses were performed on bulk-carbonate samples from two Kimmeridgian sections of the Swiss Jura platform in order to correlate them with biostratigraphically well-dated coeval sections in the adjacent basin. On the platform, a general decrease in δ 13 C and δ 18 O values from the base to the top of the studied interval is measured, whereas time-equivalent pelagic-hemipelagic carbonates record an increase in carbon-and oxygen-isotope ratios. Moreover, the measured δ 13 C and δ 18 O values are generally lower than those indicated for the Kimmeridgian open ocean and show high-frequency variations superimposed on the general trend. Samples were screened for diagenetic alteration using optical and cathodoluminescence petrography and coupled carbon-and oxygen-isotope and trace-element analyses. Some observations favour a role for diagenetic alteration, but isotopic and elemental trends as well as sedimentological evidence suggest that the more negative values of δ 13 C and δ 18 O relative to Kimmeridgian seawater are also due to local environmental conditions. High-frequency changes in δ 18 O and δ 13 C values most likely result from variations in salinity and carbonate production and accumulation rates. These variations were produced by different water masses that were isolated from the open ocean and developed their own geochemical signatures. Repeated isolation was induced by high-frequency sea-level fluctuations and helped by irregular platform morphology. Consequently, carbon-and oxygen-isotope records in shallow-marine carbonates can be used for stratigraphic correlation only if their origin is well known.

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Section: B Diagenetic Alterationmentioning

confidence: 99%

Carbon- and oxygen-isotope records of palaeoenvironmental and carbonate production changes in shallow-marine carbonates (Kimmeridgian, Swiss Jura)

2010

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“…However, the origins of both aragonitic and Mg-calcite carbonate muds remains a topic of long-standing debate (2,3). Indeed, where attempts have been made to quantify sources of the fine sediment fraction a high proportion remains of unknown origin (e.g., up to 40% in Bahamian sediments and between 28 and 36% in Belize lagoon sediments) (4,5). This problem arises in part because, with the exception of inorganic carbonate precipitation (e.g., the carbonate "whiting" controversy) (3,(6)(7)(8), the processes of carbonate mud production necessarily invoke the degradation of larger bioclasts (skeletal fragments of marine organisms) to produce mud-grade carbonate, and/or grain recrystallization to produce high Mg-calcite muds (9)(10)(11).…”

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confidence: 99%

Fish as major carbonate mud producers and missing components of the tropical carbonate factory

Perry

Salter

Harborne

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

119

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Carbonate mud is a major constituent of recent marine carbonate sediments and of ancient limestones, which contain unique records of changes in ocean chemistry and climate shifts in the geological past. However, the origin of carbonate mud is controversial and often problematic to resolve. Here we show that tropical marine fish produce and excrete various forms of precipitated (nonskeletal) calcium carbonate from their guts ("low" and "high" Mg-calcite and aragonite), but that very fine-grained (mostly <2 μm) high Mgcalcite crystallites (i.e., >4 mole % MgCO 3 ) are their dominant excretory product. Crystallites from fish are morphologically diverse and species-specific, but all are unique relative to previously known biogenic and abiotic sources of carbonate within open marine systems. Using site specific fish biomass and carbonate excretion rate data we estimate that fish produce ∼6.1 × 10 6 kg CaCO 3 ∕year across the Bahamian archipelago, all as mud-grade (the <63 μm fraction) carbonate and thus as a potential sediment constituent. Estimated contributions from fish to total carbonate mud production average ∼14% overall, and exceed 70% in specific habitats. Critically, we also document the widespread presence of these distinctive fish-derived carbonates in the finest sediment fractions from all habitat types in the Bahamas, demonstrating that these carbonates have direct relevance to contemporary carbonate sediment budgets. Fish thus represent a hitherto unrecognized but significant source of fine-grained carbonate sediment, the discovery of which has direct application to the conceptual ideas of how marine carbonate factories function both today and in the past. marine teleost | fish intestine | carbonate production M arine carbonates contain unique records of changes in ocean chemistry, biogeochemical cycling, and benthic and pelagic ecology (1), and therefore provide vital information on climate shifts in the geological past. A distinctive and often volumetrically important component of these sediments is carbonate mud (the <63 μm sediment fraction). However, the origins of both aragonitic and Mg-calcite carbonate muds remains a topic of long-standing debate (2, 3). Indeed, where attempts have been made to quantify sources of the fine sediment fraction a high proportion remains of unknown origin (e.g., up to 40% in Bahamian sediments and between 28 and 36% in Belize lagoon sediments) (4, 5). This problem arises in part because, with the exception of inorganic carbonate precipitation (e.g., the carbonate "whiting" controversy) (3, 6-8), the processes of carbonate mud production necessarily invoke the degradation of larger bioclasts (skeletal fragments of marine organisms) to produce mud-grade carbonate, and/or grain recrystallization to produce high Mg-calcite muds (9-11). Thus attempts to determine primary mud sources and production budgets are often hampered because of grain obliteration. The mineralogical composition of the mud fraction of modern tropical carbonate sediment is also very variable between s...

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“…There is also an in situ shelf lagoon mud contribution by coccoliths (Scholle and Kling 1972), but the magnitude of that contribution does not affect the amount of mud Matthews believed was derived from the carbonate shoals and barrier platform . Values exceeding 60% also occur in the deepest part of Glovers Reef and in the western main and northern lagoons of Turneffe Islands (Gischler and Lomando 1999) where SEM and geochemical analyses of mud also indicate a skeletal debris derivation (Gischler and Zingeler 2002).…”

Section: Carbonate Mudmentioning

confidence: 98%

The Belize margin revisited: 1. Holocene marine facies

Purdy¹,

Gischler

2003

International Journal of Earth Sciences

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Belize is best known for its 260-km-long barrier reef and associated lagoon reef shoals, but also exhibits a complete transition from near-shore siliciclastics to pure carbonate deposits across a narrow shelf lagoon and, in addition, has three of the very few occurrences of Caribbean atolls. Published Holocene facies relationships on the Belize shelf have been semiquantitative in that they are based on quantitative point count thin section data in the northern shelf lagoon and on qualitative estimates of thin section composition in the southern shelf lagoon. This contrast has been rectified by point counting southern shelf lagoon thin sections and incorporating the result with published point count data from the northern shelf, supplemented by additional information, to produce a modified factor analysis facies distribution for the entire shelf. The resulting nine facies are extended seaward to include previously published analysis of sediment on the three Belize off-shelf atolls, resulting in a total of 11 facies. In addition, the carbonate mud distribution has been mapped over both the shelf and atolls with the not unexpected result that, in places, the distribution pattern clearly indicates a barrier platform source of lagoon-deposited carbonate mud. Dunham's limestone classification terminology has been used as a basis for description to make these relationships more useful to those reconstructing ancient limestone depositional environments.

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The origin of carbonate mud in isolated carbonate platforms of Belize, Central America

Cited by 55 publications

References 19 publications

Carbon- and oxygen-isotope records of palaeoenvironmental and carbonate production changes in shallow-marine carbonates (Kimmeridgian, Swiss Jura)

Carbon- and oxygen-isotope records of palaeoenvironmental and carbonate production changes in shallow-marine carbonates (Kimmeridgian, Swiss Jura)

Fish as major carbonate mud producers and missing components of the tropical carbonate factory

The Belize margin revisited: 1. Holocene marine facies

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