Your search keyword '"Dominique Blamart"' showing total 4 results

1. Imprint of Holocene Climate Variability on Cold‐Water Coral Reef Growth at the SW Rockall Trough Margin, NE Atlantic

Author

Lucile Bonneau, Christophe Colin, Edwige Pons‐Branchu, Furu Mienis, Nadine Tisnérat‐Laborde, Dominique Blamart, Mary Elliot, Tim Collart, Norbert Frank, Lorna Foliot, and Eric Douville

Subjects

cold‐water coral mounds, SW Rockall Trough margin, coral occurrence, millennial‐scale climate variations, paleo‐hydrology, Holocene, Geophysics. Cosmic physics, QC801-809, Geology, QE1-996.5

Abstract

Abstract U‐Th ages and temperatures derived from Li/Mg have been measured on coral fragments of Lophelia pertusa and Madrepora oculata collected from two sediment cores, which were taken from cold‐water coral (CWC) mounds at 700–790m water depth at the SW Rockall Trough margin. Our data, combined with previous published data, have allowed us to first estimate the occurrence of CWC at the SW Rockall Trough margin during the Holocene and, second, to better constrain the environmental conditions driving variability in CWC growth. CWC abundance is marked by a pronounced increase in the mid‐Holocene (∼6 ka) and is modulated by millennial‐scale variability throughout the late‐Holocene. The mid‐Holocene proliferation of CWC coincides with lowest IRD abundances and a major reorganization of the circulation at thermocline depth in the Rockall Trough, marked by the progressive replacement of the fresh‐cold Sub‐Arctic Intermediate Water (SAIW) by the saltier and nutrient‐rich Eastern North Atlantic Water (ENAW). This event must have established a modern‐like winter mixed layer and thermocline structure, generating suitable conditions for enhanced surface productivity, downslope transport of food particles, bottom current acceleration at mound depth and thus CWC growth. Several short time intervals of decreased CWC occurrences closely match prominent increases in North Atlantic drift ice and storminess in Northern Europe. We, therefore, propose that high detrital supply and/or changes in the vertical density gradient associated with millennial‐scale ice‐rafted detritus (IRD) events are the likely controlling factors for CWC growth and subsequent mound formation on the SW Rockall Trough margin.

Published

2018

2. South Atlantic intermediate water advances into the North-east Atlantic with reduced Atlantic meridional overturning circulation during the last glacial period

Author

Dierk Hebbeln, Freya Hemsing, Jean-Carlos Montero-Serrano, Christophe Colin, David Van Rooij, Dominique Blamart, Anne-Marie Wefing, Quentin Dubois-Dauphin, Norbert Frank, Lucile Bonneau, Edwige Pons-Branchu, and Paolo Montagna

Subjects

Water mass, Antarctic Intermediate Water, 010504 meteorology & atmospheric sciences, North Atlantic Deep Water, 010502 geochemistry & geophysics, 01 natural sciences, Geophysics, Oceanography, Mediterranean sea, 13. Climate action, Geochemistry and Petrology, Thermohaline circulation, 14. Life underwater, Glacial period, Thermocline, Geology, Holocene, 0105 earth and related environmental sciences

Abstract

The Nd isotopic composition (eNd) of seawater and cold-water coral (CWC) samples from the Gulf of Cadiz and the Alboran Sea, at a depth of 280–827 m were investigated in order to constrain middepth water mass dynamics within the Gulf of Cadiz over the past 40 ka. eNd of glacial and Holocene CWC from the Alboran Sea and the northern Gulf of Cadiz reveals relatively constant values (−8.6 to −9.0 and −9.5 to −10.4, respectively). Such values are similar to those of the surrounding present-day middepth waters from the Mediterranean Outflow Water (MOW; eNd ∼ −9.4) and Mediterranean Sea Water (MSW; eNd ∼ −9.9). In contrast, glacial eNd values for CWC collected at thermocline depth (550–827 m) in the southern Gulf of Cadiz display a higher average value (−8.9 ± 0.4) compared to the present-day value (−11.7 ± 0.3). This implies a higher relative contribution of water masses of Mediterranean (MSW) or South Atlantic origin (East Antarctic Intermediate Water, EAAIW). Our study has produced the first evidence of significant radiogenic eNd values (∼ −8) at 19, 23–24, and 27 ka, which are coeval with increasing iceberg discharges and a weakening of Atlantic Meridional Overturning Circulation (AMOC). Since MOW eNd values remained stable during the last glacial period, it is suggested that these radiogenic eNd values most likely reflect an enhanced northward propagation of glacial EAAIW into the eastern Atlantic Basin.

Published

2016

3. Correlation of boron isotopic composition with ultrastructure in the deep-sea coralLophelia pertusa: Implications for biomineralization and paleo-pH

Author

Claire Rollion-Bard, Yannicke Dauphin, Anders Meibom, Dominique Blamart, Jean-Pierre Cuif, and Anne Juillet-Leclerc

Subjects

010504 meteorology & atmospheric sciences, biology, Coral, Aragonite, Geochemistry, Ocean acidification, engineering.material, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Deep sea, Foraminifera, Geophysics, Oceanography, Lophelia, Geochemistry and Petrology, engineering, Acropora, 14. Life underwater, Geology, 0105 earth and related environmental sciences, Biomineralization

Abstract

Using the CRPG-CNRS Cameca 1270 ion microprobe facility, we have measured boron isotopic compositions (B-11/B-10) in different ultrastructural components of the deep-sea aragonitic scleractinian coral Lophelia pertusa. We observe a systematic difference in B isotopic composition between the Early Mineralization Zone ( EMZ) and adjacent fibrous skeleton. In EMZ the measured delta(11) B values are consistently low. Fibrous aragonite is characterized by systematically higher delta(11) B values but also displays B isotopic heterogeneity associated with specific growth bands in the calyx wall. The magnitude of the observed B isotopic variations cannot be explained by changes in environmental conditions and is likely caused by biological processes involved in the biomineralization of new skeleton, i. e., " vital'' effects. The observed B isotopic variations are opposite to the predictions of geochemical models for vital effects. These models are based on the idea that stable isotopic fractionations ( including C and O) in coral skeleton are driven by changes in pH of the fluid from which the skeleton is presumed to precipitate. Our data indicate that pH variations are not responsible for the observed stable isotopic fractionations. Geochemical models therefore do not provide an adequate framework within which to understand coral skeletal formation. Without a better understanding of these processes the use of B isotopic composition to reconstruct paleo- pH variations in the oceans must be considered problematic, at least as far as Lophelia pertusa is concerned.

Published

2007

4. Evolution of weathering patterns in the Indo-Burman Ranges over the last 280 kyr: Effects of sediment provenance on87Sr/86Sr ratios tracer

Author

Dominique Blamart, S. Duchamp, Norbert Frank, Catherine Kissel, Christophe Colin, and Laurent Turpin

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Frost weathering, Geochemistry, Sediment, Weathering, engineering.material, 010502 geochemistry & geophysics, 01 natural sciences, Geophysics, Pedogenesis, Oceanography, 13. Climate action, Geochemistry and Petrology, Interglacial, Illite, engineering, River mouth, 14. Life underwater, Glacial period, Geology, 0105 earth and related environmental sciences

Abstract

A high-resolution study of mineralogy and major element geochemistry combined with Sr and Nd isotopes has been conducted on high sedimentation rate cores collected off the Irrawaddy River mouth in the Andaman Sea and the Bay of Bengal to reconstruct the erosional and weathering history of the Irrawaddy River basin. In both cores, ɛNd(0) values imply that both glacial and interglacial sediments share a common crustal source: the Irrawaddy River. Strong glacial/interglacial cycles are recorded by 87Sr/86Sr: interglacial periods yield values between 0.713 and 0.717, whereas glacial periods show higher values between 0.717 and 0.719. Variations of the pedogenic clays (smectite and kaolinite) to primary mineral (feldspar, quartz, illite, and chlorite) ratios show strong precessional cycles, suggesting a control by past changes in the summer monsoon intensity. Each increase in pedogenic clays content is also associated with a net loss of labile elements (Na, K, and Ca) from the detrital minerals under chemical weathering. Wet periods of summer monsoon reinforcement correspond to an increase in weathering of the Irrawaddy plain soils and a decrease of 87Sr/86Sr ratio. Plotting 87Sr/86Sr versus 87Rb/86Sr gives a pseudo-isochrons interpreted as a mixing line representing the strength of chemical weathering. During glacial stages, enhanced physical erosion induced by glacier scour and frost action in the highland of the Irrawaddy River basins produced high volumes of unaltered, Rb-rich minerals. The low sea level of glacial times constricted the river to the main channel in the lower reaches and permitted an efficient transport of unaltered Rb-rich minerals with high radiogenic Sr composition from the high relief of the Indo-Burman Ranges and the Tibetan plateau to the Indian Ocean.

Published

2006