GLORIA — GEOMAR Library Ocean Research Information Access

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Bottom water analysis of MUC samples from SONNE cruise SO270 (2022)

Betzler, Christian ; Lindhorst, Sebastian ; Lüdmann, Thomas ; [et al.]

PANGAEA

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Publication Date: 2024-05-22

Keywords: Alkalinity, total; Autoanalyzer (SKALAR SAN plus System/08529); Carbon dioxide, total; Date/Time of event; Density; Elevation of event; Event label; Latitude of event; Longitude of event; MASACARA; MASCARA; MUC; MultiCorer; Phosphate; RV Sonne cruise SO270; Salinity; Saya de Malha Bank; Silicate; SO270; SO270_11-5; SO270_12-3; SO270_13-3; SO270_14-2; SO270_16-3; SO270_19-3; SO270_40-4; SO270_45-3; SO270_46-3; SO270_47-3; SO270_49-4; SO270_53-2; SO270_54-4; SO270_55-3; SO270_56-3; SO270_59-7; SO270_64-7; SO270_75-3; SO270_82-5; Sonne_2; Temperature, water; VINDTA 3C for AT and Dissolved Inorganic Carbon measurement

Type: Dataset

Format: text/tab-separated-values, 133 data points

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Physical oceanography (CTD) during SONNE cruise SO270 (2022)

Betzler, Christian ; Lindhorst, Sebastian ; Lüdmann, Thomas ; [et al.]

PANGAEA

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Publication Date: 2024-05-22

Keywords: Alkalinity, total; Autoanalyzer (SKALAR SAN plus System/08529); Bottle number; Carbon, inorganic, dissolved; CTD, Sea-Bird SBE 911plus; CTD/Rosette; CTD-RO; DATE/TIME; Density; Density, sigma-theta (0); DEPTH, water; Event label; Fluorescence; LATITUDE; LONGITUDE; MASACARA; MASCARA; Oxygen; Phosphate; Pressure, water; Radiation, photosynthetically active/Irradiance ratio; RV Sonne cruise SO270; Salinity; Saya de Malha Bank; SEIS; Seismic; Silicon; SO270; SO270_1-1; SO270_11-1; SO270_12-1; SO270_13-1; SO270_14-1; SO270_16-1; SO270_19-1; SO270_2-1; SO270_23-1; SO270_24-1; SO270_25-1; SO270_27-1; SO270_3-1; SO270_39-1; SO270_40-1; SO270_4-1; SO270_41-1; SO270_45-1; SO270_49-1; SO270_5-1; SO270_54-1; SO270_55-1; SO270_56-1; SO270_57-1; SO270_59-1; SO270_6-1; SO270_61-1; SO270_64-1; SO270_68-1; SO270_7-1; SO270_7-4; SO270_80-1; SO270_82-1; SO270_88-1; SO270_90-1; SO270_91-1; SO270_92-1; SO270_93-1; Sonne_2; Temperature, water; Temperature, water, potential; Turbidity (Nephelometric turbidity unit); VINDTA 3C for AT and Dissolved Inorganic Carbon measurement

Type: Dataset

Format: text/tab-separated-values, 8937 data points

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The Punta de la Mona Rhodolith Bed: Shallow-Water Mediterranean Rhodoliths (Almuñecar, Granada, Southern Spain) (2022)

Del Río, Jesús ; Ramos, Dino Angelo ; Sánchez-Tocino, Luis ; [et al.]

Frontiers Media SA

In: Frontiers in Earth Science vol. 10 no. 884685

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Publication Date: 2024-06-13

Description: Shallow-water rhodolith beds are rare in the Mediterranean Sea and generally poorly known. The Punta de la Mona rhodolith bed extends for 16,000 square meters in shallow and oligotrophic waters at the southern coast of Spain, off Almuñecar in the Alborán Sea. We present a detailed analysis of the structure (rhodolith cover and density, rhodolith size and shape, sediment granulometry) and morphospecies composition of the bed along a depth gradient. A stratified sampling was carried out at six depths (9, 12, 15, 18, 21, and 24 m), estimating rhodolith cover and abundance; rhodoliths were collected from one 30 by 30 cm quadrat for each transect, resulting in 18 samples and a total of 656 rhodoliths. The collected rhodoliths were measured and the coralline algal components identified morphoanatomically through a stereomicroscope and SEM. Sediment on the seafloor mainly consisted of pebbles and cobbles; the highest rhodolith cover occurred between 15 and 18 m, and the lowest at the shallowest and deepest transects (9 and 24 m). Mean Rhodolith size was similar throughout the depth range (23–35 mm) with a slight increase at 24 m, although the largest rhodoliths occurred at 21 m. In monospecific rhodoliths, size depended more on the forming species than on depth. We found 25 non-geniculate coralline morphospecies, nearly all rhodolith-forming morphospecies reported in the Mediterranean Sea in recent accounts. The highest morphospecies richness (18–19) and proportional abundance were found at intermediate depths (15–18 m), where rhodolith cover is also highest. Lithophyllum incrustans and Lithophyllum dentatum dominated at shallow depths (9–12 m), whereas Lithothamnion valens was the dominant species at intermediate and greater depths. Overall, the latter species was the most common in the rhodolith bed. The shallow-water rhodolith bed in Punta de la Mona is probably the most diverse in the Mediterranean Sea. This highlights the importance of the conservation of this habitat and, in general, emphasizes the role of the Alborán Sea as a diversity center of coralline algae. The Punta de la Mona example contradicts the common assumption in the geological literature that rhodolith beds are indicative of oligophotic environments with high nutrients levels.

Keywords: coralline red algae ; depth-gradient patterns ; rhodolith cover and size ; rhodolith diversity ; Alboran sea

Repository Name: National Museum of Natural History, Netherlands

Type: info:eu-repo/semantics/article

Format: application/pdf

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Last interglacial reef facies and late Quaternary subsidence in the Maldives, Indian Ocean (2018)

Gischler, Eberhard ; Humblet, Marc ; Braga, Juan Carlos ; [et al.]

Elsevier

In: Marine Geology, 406 . pp. 34-41.

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Publication Date: 2021-02-08

Description: Highlights • First systematic description of Pleistocene facies of the Maldives reveals shallow-water deposits • Only U-series ages from Pleistocene deposits of the Maldives (MIS 5e) • Geochronology and paleo-bathymetric analyses allow estimation of late Quaternary subsidence of this major carbonate platform location to 0.09 - 0.16 m/kyr To date, there is hardly any knowledge of facies and age of Pleistocene reef limestone in the Maldives. Likewise, there are no robust estimates of Quaternary subsidence in this major shallow-water carbonate platform and reef area. In a core recovered on the windward margin of Rasdhoo Atoll in the central part of the archipelago, Pleistocene coralgal grainstone facies belonging to marine isotope stage (MIS) 5e were recovered underlying a Holocene reef succession, 14.5 m below modern sea level. Based on the occurrence of shallow-water stony corals such as Isopora palifera and possibly Acropora gr. robusta, high-energy coralline algae including Porolithon onkodes, in part associated with vermetids, and grain-supported limestone texture, the paleoenvironment is interpreted as a shallow back reef area with a paleo-waterdepth of 〈10 m. Based on a reliable U-series age from a Pleistocene acroporid coral of 136.9 kyr BP and assuming a + 7.5 m higher-than-present peak sea level during MIS 5e, late Quaternary subsidence is estimated to 0.09 m/kyr (minimum)–0.16 m/kyr (maximum value). A sea level of +2.5 m during the early MIS 5e would reduce the rates to 0.05 m/kyr (minimum)–0.12 m/kyr (maximum). These numbers are significant for reconstructions of depositional environments of this major carbonate platform area in the Quaternary. The subsidence estimates are not as crucial for historical reconstruction of relative sea level and for predictions of the near future in this low-lying archipelago, because they will add only a minor portion to the predicted rates of 21st century sea-level rise.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.margeo.2018.09.001

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Holocene and Pleistocene fringing reef growth and the role of accommodation space and exposure to waves and currents (Bora Bora, Society Islands, French Polynesia) (2019)

Gischler, Eberhard ; Hudson, J. Harold ; Humblet, Marc ; [et al.]

International Association of Sedimentologists

In: Sedimentology, 66 (1). pp. 305-328.

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Publication Date: 2022-01-31

Description: Holocene fringing reef development around Bora Bora is controlled by variations in accommodation space (as a function of sea-level and antecedent topography) and exposure to waves and currents. Subsidence ranged from 0 to 0·11 m kyr−1, and did not create significant accommodation space. A windward fringing reef started to grow 8·7 kyr bp, retrograded towards the coast over a Pleistocene fringing reef until ca 6·0 kyr bp, and then prograded towards the lagoon after sea-level had reached its present level. The retrograding portion of the reef is dominated by corals, calcareous algae and microbialite frameworks; the prograding portion is largely detrital. The reef is up to 13·5 m thick and accreted vertically with an average rate of 3·12 m kyr−1. Lateral growth amounts to 13·3 m kyr−1. Reef corals are dominated by an inner Pocillopora assemblage and an outer Acropora assemblage. Both assemblages comprise thick crusts of coralline algae. Palaeobathymetry suggests deposition in 0 to 10 m depth. An underlying Pleistocene fringing reef formed during the sea-level highstand of Marine Isotope Stage 5e, and is also characterized by the occurrence of corals, coralline algal crusts and microbialites. A previously investigated, leeward fringing reef started to form contemporaneously (8·78 kyr bp), but is thicker (up to 20 m) and solely prograded throughout the Holocene. A shallow Pocillopora assemblage and a deeper water Montipora assemblage were identified, but detrital facies dominate. At the Holocene reef base, only basalt was recovered. The Holocene windward–leeward differences are a consequence of less accommodation space on the eastern island side that eventually led to a more complex reef architecture. As a result of higher rates of exposure and flushing, the reef framework on the windward island side is more abundant and experienced stronger cementation. In the Pleistocene, the environmental conditions on the leeward island side were presumably unfavourable for fringing reef growth.

Type: Article , PeerReviewed

Format: text

DOI: 10.1111/sed.12533

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Neogene and Quaternary reef terraces of Mangaia, Rarotonga and Aitutaki (southern Cook Islands, South Pacific) revisited: gauges of sea-level change and island uplift? (2022)

Gischler, Eberhard ; Meyer, Gabriela ; Braga, Juan Carlos ; [et al.]

Wiley

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Publication Date: 2022-12-19

Description: New sedimentological data of facies and diagenesis as well as chronological data including strontium (87Sr/86Sr)-isotope ratios and uranium (U)-series dating, radiocarbon (14C) accelerator mass spectrometry (AMS) dating and biostratigraphy from elevated reef terraces (makatea) in the southern Cook Islands of Mangaia, Rarotonga and Aitutaki contribute to controversial discussions regarding age and sea-level relationships of these occurrences during the Neogene and Quaternary. The oldest limestones of the uplifted makatea island of Mangaia include reef-related facies which are mid-Miocene in age, based on new Sr-isotope and biostratigraphical data. In between these older deposits and the lowest coastal reef terrace of marine isotope stage (MIS) 5e, various older Pleistocene reef-related facies were identified. Based on Sr-isotope ratios, these were deposited during earlier Pleistocene highstands (as old as 2.28 Ma). Rare reef terraces on Rarotonga belong to the Plio-Pleistocene and the late Miocene, according to 87Sr/86Sr ratios. The late Miocene age is enigmatic as it exceeds the age of subaerially exposed volcanic rocks of Rarotonga island. The fossil reef could have formed on an older submarine volcanic high that was later displaced by younger volcanism to its present position, or the Sr-age could be too old due to diagenetic resetting. The Plio-Pleistocene Rarotonga reef terraces are overlain irregularly by Holocene reef deposits that are interpreted as storm rubble. Reef terraces on Aitutaki represent evidence of a higher-than-present (up to 1 m) sea-level during the late Holocene, based on 14C AMS age data. They are very similar to elevated late Holocene reefs of adjacent French Polynesia with regard to composition, elevation and age.

Type: Book chapter , NonPeerReviewed

Format: text

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