References

publication_icon

Adkins, J. F., E. A. Boyle, et al. (2003). "Stable isotopes in deep-sea corals and a new mechanism for “vital effects”." Geochimica et Cosmochimica Acta 67(6): 1129-1143.

publication_icon

Adkins, J. F., H. Cheng, et al. (1998). "Deep-Sea Coral Evidence for Rapid Change in Ventilation of the Deep North Atlantic 15,400 Years Ago." Science 280(5364): 725-728.

 

publication_icon Blamart, D., C. Rollion-Bard, et al. (2005). C and O isotopes in a deep-sea coral Lophelia pertusa) related to skeletal microstructure. Cold-Water Corals and Ecosystems. A. Freiwald and J. M. Roberts, Springer Berlin Heidelberg: 1005-1020.
publication_icon Cheng H., Adkins, J et al. (2000) U-Th dating of deep-sea corals. Geochimica et Cosmochimica Acta 64 (14): 2401-2416
publication_icon Colin, C., N. Frank, et al. (2010). "Neodymium isotopic composition of deep-sea corals from the NE Atlantic: implications for past hydrological changes during the Holocene." Quaternary Science Reviews 29(19-20): 2509-2517.
publication_icon Copard, K., C. Colin, et al. (2010). "Nd isotopes in deep-sea corals in the North-eastern Atlantic." Quaternary Science Reviews 29(19-20): 2499-2508.
publication_icon Copard, K., C. Colin, et al. (2012). "Late Holocene intermediate water variability in the northeastern Atlantic as recorded by deep-sea corals." Earth and Planetary Science Letters 313: 34-44.
publication_icon Douarin, M., M. Elliot, et al. (2013). "Growth of north-east Atlantic cold-water coral reefs and mounds during the Holocene: A high resolution U-series and C-14 chronology." Earth and Planetary Science Letters 375: 176-187
publication_icon Douarin, M., D. J. Sinclair, et al. (2014). "Changes in fossil assemblage in sediment cores from Mingulay Reef Complex (NE Atlantic): Implications for coral reef build-up." Deep-Sea Research Part II-Topical Studies in Oceanography 99: 286-296.
publication_icon Eisele, M., N. Frank, et al. (2011). "Productivity controlled cold-water coral growth periods during the last glacial off Mauritania." Marine Geology 280(1-4): 143-149.
publication_icon Frank, N., A. Lutringer, et al. (2005). Deep-water corals of the northeastern Atlantic margin: carbonate mound evolution and upper intermediate water ventilation during the Holocene. In: Freiwald A, Roberts JM (Eds) Cold-water Corals and Ecosystems
publication_icon Frank, N., M. Paterne, et al. (2004). "Eastern North Atlantic deep-sea corals: tracing upper intermediate water Δ14C during the Holocene." Earth and Planetary Science Letters 219(3–4): 297-309.
publication_icon Frank, N., E. Ricard, et al. (2009). "The Holocene occurrence of cold water corals in the NE Atlantic: Implications for coral carbonate mound evolution." Marine Geology 266(1-4): 129-142.
publication_icon Smith, J. E., M. J. Risk, et al. (1997). "Rapid climate change in the North Atlantic during the Younger Dryas recorded by deep-sea corals." Nature 386(6627): 818-820.
publication_icon Smith, J. E., H. P. Schwarcz, et al. (2000). "Paleotemperatures From Deep-Sea Corals: Overcoming ‘Vital Effects’." Palaios 15(1): 25-32