E. Bard, M. Arnold, P. Maurice, J. Duprat, J. Moyes et al., Retreat velocity of the North Atlantic polar front during the last deglaciation determined by ? 14 C accelerator mass spectrometry, Nature, vol.328, p.791, 1987.

W. Broecker, A. Mix, M. Andree, and H. Oeschger, Radiocarbon measurements on coexisting benthic and planktic foraminifera shells: potential for reconstructing ocean ventilation times over the past 20 000 years, Nucl. Instrum. Methods B, vol.5, pp.331-339, 1984.

L. D. Keigwin, Radiocarbon and stable isotope constraints on Last Glacial Maximum and Younger Dryas ventilation in the western North Atlantic, Paleoceanography, vol.19, p.4012, 2004.

Y. Fagault, Nuclear Inst. and Methods in Physics Research, B xxx, 2018.

T. M. Marchitto, S. J. Lehman, J. D. Ortiz, J. Flückiger, and A. Van-geen, Marine radiocarbon evidence for the mechanism of deglacial atmospheric CO ? 2 Rise, Science, 2007.

E. Bard, M. Arnold, J. Mangerud, M. Paterne, L. Labeyrie et al., The North Atlantic atmosphere-sea surface ? 14 C gradient during the Younger Dryas climatic event, Earth Planet. Sci. Lett, vol.126, pp.275-287, 1994.

E. L. Sikes, C. R. Samson, T. P. Guilderson, and W. R. Howard, Old radiocarbon ages in the southwest Pacific Ocean during the last glacial period and deglaciation, Nature, vol.405, p.555, 2000.

D. J. Thornalley, I. N. Mccave, and H. Elderfield, Tephra in deglacial ocean sediments south of Iceland: Stratigraphy, geochemistry and oceanic reservoir ages, J. Quaternary Sci, vol.26, pp.190-198, 2011.

E. Bard, M. Arnold, J. Duprat, J. Moyes, and J. Duplessy, Reconstruction of the last deglaciation: deconvolved records of ? ? 18 O profiles, micropaleontological variations and accelerator mass spectrometric ? 14 C dating, Clim. Dyn, vol.1, pp.101-112, 1987.

W. Broecker, S. Barker, E. Clark, I. Hajdas, and G. Bonani, Anomalous radiocarbon ages for foraminifera shells, Paleoceanography, vol.21, p.2008, 2006.

S. Barker, W. Broecker, E. Clark, and I. Hajdas, Radiocarbon age offsets of foraminifera resulting from differential dissolution and fragmentation within the sedimentary bioturbated zone, Paleoceanography, vol.22, p.2205, 2007.

L. Löwemark, K. I. Konstantinou, and S. Steinke, Bias in foraminiferal multispecies reconstructions of paleohydrographic conditions caused by foraminiferal abundance variations and bioturbational mixing: a model approach, Mar. Geol, vol.256, pp.101-106, 2008.

L. D. Keigwin and T. P. Guilderson, Bioturbation artifacts in zero-age sediments, Paleoceanography, vol.24, p.4212, 2009.

B. C. Lougheed, B. Metcalfe, U. S. Ninnemann, and L. Wacker, Moving beyond the age-depth model paradigm in deep-sea palaeoclimate archives: dual radiocarbon and stable isotope analysis on single foraminifera, Clim. Past, vol.14, pp.515-526, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01806818

G. Santos, J. Southon, S. Griffin, S. Beaupre, and E. Druffel, Ultra small-mass AMS ? 14 C sample preparation and analyses at KCCAMS/UCI Facility, Nucl. Instrum. Methods B, vol.259, pp.293-302, 2007.

S. Walter, A. Gagnon, M. Roberts, A. Mcnichol, M. Gaylord et al., Ultra-small graphitization reactors for ultra-microscale ? 14 C analysis at the National Ocean Sciences Accelerator Mass Spectrometry (NOSAMS) facility, Radiocarbon, vol.57, pp.109-122, 2015.

E. Freeman, L. C. Skinner, R. Reimer, A. Scrivner, and S. Fallon, Graphitization of small carbonate samples for paleoceanographic research at the Godwin Radiocarbon Laboratory, Radiocarbon, vol.58, 2016.

C. P. Mcintyre, M. L. Roberts, J. R. Burton, A. P. Mcnichol, A. Burke et al., Rapid radiocarbon (14 C) analysis of coral and carbonate samples using a continuous-flow accelerator mass spectrometry (CFAMS) system, Paleoceanography, vol.26, 2011.

L. Wacker, S. M. Fahrni, I. Hajdas, M. Molnar, H. Synal et al., A versatile gas interface for routine radiocarbon analysis with a gas ion source, Nucl. Instrum. Methods B, vol.294, pp.315-319, 2013.

L. Wacker, J. Lippold, M. Molnár, and H. Schulz, Towards radiocarbon dating of single foraminifera with a gas ion source, Nucl. Instrum. Methods B, vol.294, pp.307-310, 2013.

M. Roberts and A. High-throughput, Low-cost method for analysis of carbonate samples for ? 14 C, Radiocarbon, vol.55, pp.585-592, 2013.

J. Gottschalk, S. Szidat, E. Michel, A. Mazaud, G. Salazar et al., Radiocarbon measurements of small-size foraminiferal samples with the mini carbon dating system (MICADAS) at the University of Bern: implications for paleoclimate reconstructions, Radiocarbon, vol.60, pp.469-491, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01806759

E. Bard, T. Tuna, Y. Fagault, L. Bonvalot, L. Wacker et al., AixMI-CADAS, the accelerator mass spectrometer dedicated to ? 14 C recently installed in

, Nucl. Instrum. Methods B, vol.361, pp.80-86, 2015.

T. Tuna, Y. Fagault, L. Bonvalot, M. Capano, and E. Bard, Development of small CO ? 2 gas measurements with AixMICADAS, Nucl. Instrum. Methods Phys. Res., Sect. B, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02078496

M. Stuiver and H. A. Polach, Discussion reporting of ? 14 C data, Radiocarbon, vol.19, pp.355-363, 1977.
DOI : 10.1017/s0033822200003672
URL : https://www.cambridge.org/core/services/aop-cambridge-core/content/view/D686D7894B8BAC3212589AFE418E147E/S0033822200003672a.pdf/div-class-title-discussion-reporting-of-span-class-sup-14-span-c-data-div.pdf

J. Vanderplicht and A. Hogg, A note on reporting radiocarbon, Quat. Geochronol, vol.1, pp.237-240, 2006.

P. J. Reimer, T. A. Brown, and R. W. Reimer, Discussion: reporting and calibration of post-bomb ? 14 C data, Radiocarbon, vol.46, pp.1299-1304, 2004.

E. Bard, B. Hamelin, R. G. Fairbanks, A. Zindler, G. Mathieu et al., U/Th and ? 14 C ages of corals from Barbados and their use for calibrating the ? 14 C time scale beyond 9000 years B.P, Nucl. Instrum. Methods B, vol.52, pp.90458-90465, 1990.

G. S. Burr, R. L. Edwards, D. J. Donahue, E. R. Druffel, and F. W. Taylor, Mass spectrometric ? 14 C and U-Th measurements in coral, Radiocarbon, vol.34, pp.611-618, 1992.
DOI : 10.1017/s003382220006389x
URL : https://www.cambridge.org/core/services/aop-cambridge-core/content/view/1305F6E3C1D057D2A8DDFCDB2A81BE5B/S003382220006389Xa.pdf/div-class-title-mass-spectrometric-span-class-sup-14-span-c-and-u-th-measurements-in-coral-div.pdf

Y. Yokoyama, K. Lambeck, P. De-deckker, P. Johnston, and L. K. Fifield, Timing of the Last Glacial Maximum from observed sea-level minima, Nature, vol.406, p.713, 2000.

N. Durand, Comparison of ? 14 C and U-Th ages in corals from IODP #310 Cores offshore Tahiti, Radiocarbon, vol.55, pp.1947-1974, 2013.

M. Ruff, S. Fahrni, H. W. Gaggeler, I. Hajdas, M. Suter et al., On-line radiocarbon measurements of small samples using elemental analyzer and MICADAS gas ion source, Radiocarbon, vol.52, pp.1645-1656, 2010.

G. Salazar, Y. L. Zhang, K. Agrios, and S. Szidat, Development of a method for fast and automatic radiocarbon measurement of aerosol samples by online coupling of an elemental analyzer with a MICADAS AMS, Nucl. Instrum. Methods B, 2015.

L. Bonvalot, T. Tuna, Y. Fagault, J. Jaffrezo, V. Jacob et al., Estimating contributions from biomass burning, fossil fuel combustion, and biogenic carbon to carbonaceous aerosols in the Valley of Chamonix: a dual approach based on radiocarbon and levoglucosan, Atmos. Chem. Phys, vol.16, pp.13753-13772, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01461957

S. M. Fahrni, L. Wacker, H. Synal, and S. Szidat, Improving a gas ion source for 14C AMS, Nucl. Instrum. Methods B, vol.294, pp.320-327, 2013.
DOI : 10.1016/j.nimb.2012.03.037

M. Schleicher, P. M. Grootes, M. Nadeau, and A. Schoon, The carbonate ? 14 C background and its components at the Leibniz AMS facility, Radiocarbon, vol.40, pp.85-93, 1997.
DOI : 10.1017/s0033822200017926
URL : https://www.cambridge.org/core/services/aop-cambridge-core/content/view/84FF30B53939D1B9AC746FBC7CA49B8F/S0033822200017926a.pdf/div-class-title-the-carbonate-span-class-sup-14-span-c-background-and-its-components-at-the-leibniz-ams-facility-div.pdf

E. Bard, G. Ménot, F. Rostek, L. Licari, P. Böning et al., Radiocarbon calibration/comparison records based on marine sediments from the Pakistan and Iberian margins, Radiocarbon, vol.55, pp.1999-2019, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01021958

L. C. Skinner, S. Fallon, C. Waelbroeck, E. Michel, and S. Barker, Ventilation of the deep southern ocean and deglacial CO ? 2 Rise, Science, vol.328, pp.1147-1151, 2010.
URL : https://hal.archives-ouvertes.fr/cea-00818324

J. Wycech, D. C. Kelly, and S. Marcott, Effects of seafloor diagenesis on planktic foraminiferal radiocarbon ages, Geology, vol.44, pp.551-554, 2016.
DOI : 10.1130/g37864.1

K. Rozanski, Consultants' group meeting on 14C reference materials for radiocarbon laboratories, p.1991, 1991.

K. Rozanski, W. Stichler, R. Gonfiantini, E. M. Scott, R. Beukens et al., The IAEA ?, vol.14

, C Intercomparison exercise, vol.34, pp.506-519, 1990.

S. Shah and A. Pearson, Ultra-microscale (5-25 µg C) analysis of individual lipids by ? 14

C. Ams, Assessment and correction for sample processing blanks, Radiocarbon, vol.49, pp.69-82, 2007.