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  • 1
    Book
    Book
    Klimasteuerung von Karbonatsystemen: Fallbeispiele zur Biofazies ozeanischer und flachmariner Ökosysteme im Känozoikum (1996)
    Mainz
    Details Availability
    Keywords: Hochschulschrift ; Rotes Meer ; Pleistozän ; Carbonatgestein ; Biofazies ; Paläoklima ; Sierra de Cabo de Gata ; Marginalbecken ; Miozän ; Carbonatgestein ; Biofazies ; Paläoklima ; Queensland Plateau ; Miozän ; Carbonatgestein ; Biofazies ; Paläoklima
    Type of Medium: Book
    Pages: VI, 238 Bl. , Ill., graph. Darst.
    Language: German
    Note: Mainz, Univ., Habil, 1997
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  • 2
    Book
    Book
    Micrite crusts on Ladinian foreslopes of the Dolomites seen in the light of a modern scenario from the Red Sea (1994)
    Details Availability
    Keywords: Red Sea ; Rotes Meer
    Type of Medium: Book
    Language: English
    Note: Festschrift zum 60. Geburtstag von Erik Flügel
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  • 3
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    Growth rates of late Miocene corals from Crete (Greece)
    PANGAEA
    In:  Supplement to: Brachert, Thomas C; Reuter, Markus; Kroeger, Karsten F; Lough, Janice M (2006): Coral growth bands: A new and easy to use paleothermometer in paleoenvironment analysis and paleoceanography. Paleoceanography, 21, PA4217, https://doi.org/10.1029/2006PA001288
    Details
    Publication Date: 2023-05-12
    Description: Modern scleractinian corals are classical components of marine shallow warm water ecosystems. Their occurrence and diversity patterns in the geological record have been widely used to infer past climates and environmental conditions. Coral skeletal composition data reflecting the nature of the coral environment are often affected by diagenetic alteration. Ghost structures of annual growth rhythms are, however, often well preserved in the transformed skeleton. We show that these relicts represent a valuable source of information on growth conditions of fossil corals. Annual growth bands were measured in massive hemispherical Porites of late Miocene age from the island of Crete (Greece) that were found in patch reefs and level bottom associations of attached mixed clastic environments as well as isolated carbonate environments. The Miocene corals grew slowly, about 2-4 mm/yr, compatible with present-day Porites from high-latitude reefs. Slow annual growth of the Miocene corals is in good agreement with the position of Crete at the margin of the Miocene reef belt. Within a given time slice, extension rates were lowest in level bottom environments and highest in attached inshore reef systems. Because sea surface temperatures (SSTs) can be expected to be uniform within a time slice, spatial variations in extension rates must reflect local variations in light levels (low in the level bottom communities) and nutrients (high in the attached reef systems). During the late Miocene (Tortonian–early Messinian), maximum linear extension rates remained remarkably constant within seven chronostratigraphic units, and if the relationship of SSTs and annual growth rates observed for modern massive Indo-Pacific Porites spp. applies to the Neogene, minimum (winter) SSTs were 20°-21°C. Although our paleoclimatic record has a low resolution, it fits the trends revealed by global data sets. In the near future we expect this new and easy to use Porites thermometer to add important new information to our understanding of Neogene climate.
    Keywords: Geographic name/locality; Growth rate; LATITUDE; LONGITUDE; Sample code/label; Sample comment
    Type: Dataset
    Format: text/tab-separated-values, 470 data points
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    DATA PANGAEA
  • 4
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    The foralgal crust facies of the deeper fore reefs in the Red Sea: A deep diving survey by submersible (1990)
    Elsevier
    In:  Geobios, 23 (3). pp. 261-281.
    Details
    Publication Date: 2016-02-23
    Description: Autochthonous organic frameworks from the deeper fore reef (−50 m to −110 m) of the Red Sea are composed predominantly of incrusting calcareous red algae and foraminifera. This foralgal crust facies is represented by three types. The first is a pure foralgal crust community which forms small buildups with bumpy surfaces. Calcareous red algae and incrusting formainifera comprise more than 60 % of the biogenous fabric. The second type is a framework in which foralgal crusts are secondary binders around the hermatypic deep water scleractinian Leptoseris fragilis. The third type occurs on drowned reefs, exhibiting a mixture of Pleistocene shallow water and present day deep water binding species. Therefore, the morphology of this subfacies is more governed by an inherited relief, characterized by pinnacles and barrel shaped towers. This present day deep water foralgal community started to develop within the Cretaceous in shallow water environments, composed predominantly of corallinaceans, peyssonneliaceans, and subordinately of acervulinid foraminifera. With the beginning of the Neogene, the shallow water community of reef binding foraminifera and calcareous algae changed and become dominated by the foraminifera Acervulina. The living foralgal crusts of the deeper fore reef in the Red Sea represent a binding community of Upper Cretaceous and Palaeogene shallow water environments which has shifted in greater water depth with time.
    Type: Article , PeerReviewed
    Format: text
    DOI: 10.1016/0016-6995(90)80001-V
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    OceanRep: Article in a Scientific Journal - peer-reviewed
  • 5
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    Laminar Micrite Crusts and Associated Foreslope Processes, Red Sea (1991)
    SEPM
    In:  Journal of Sedimentary Research, 61 (3). pp. 354-363.
    Details
    Publication Date: 2019-05-15
    Description: Forereef slopes in the Red Sea of Sudan exhibit a uniform biozonation that is independent from the topography of the slopes. Below - 120 m, ledges protrude horizontally from sleep cliffs of barrier reefs and atolls as well as from patches of in situ lithified slope sediment on inclined fringing reef slopes. Free surfaces and cavities within these ledges are partly covered by laminar micrite crusts of 7-20 mm thickness. The ledges are formed by an organic framework of living azooxanthellate corals, bryozoans, serpulids and fossil red algae. They are affected by repeated episodes of boring, infilling, and cementation which obliterate much of the original fabric. Concomitant cementation and boring result in asymmetric cement linings which often show geopetal fabrics. The laminar micrite crusts, however, show no significant traces of bioerosion, which are a typical feature of fossil deep-water stromatolites. Two types of lamination have been observed: 1) vertically stacked, irregular, anastomosing laminate with ragged outlines and little lateral persistence which are often accentuated by iron staining, and 2) 0.5-mm-thick laminae of light-grey micrite, rich in fine bioclasts, showing smooth, thin coatings of dark homogenous micrite, which are weakly fluorescent in ultraviolet light. No algal films are preserved, but micritic tubes 10-30 mu m in diameter, often bifurcated, form a dense network on the upper surface of the crusts by overgrowing and binding particles. Associated aragonitic rosettes 30-40 mu m in diameter may represent calcified coccoid algae or bacteria. If true, these organisms suggest a formation of the latter type of crust by biogenic processes not related to the photic zone. Fenestral porosity and Frutexites textures are absent. Radiocarbon dates from corals within the ledges provide ages of 10,500 YBP. From the time-related decrease in oxygen isotope ratios (versus PDB) of boring micrite (delta 18 O = +3.72 per thousand ), micrite crusts (delta 18 O = +1.69 per thousand ), and unlithified mud (delta 18 O = +0.47 per thousand ) within the youngest voids of the hard substrates, we conclude that crust formation must have taken place in shallower water when sea level was lower during the Early Holocene rise of sea level.
    Type: Article , PeerReviewed
    Format: text
    DOI: 10.1306/D426770D-2B26-11D7-8648000102C1865D
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    OceanRep: Article in a Scientific Journal - peer-reviewed
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