%SU90-03, 40.51N & 32.05W & 2475 m depth 
 Menviel, Capron et al., 2019, "The penultimate deglaciation: protocol for PMIP4 transient numerical simulations between 140 and 127 ka",Geoscientific Model Development Discussions
%Data from Chapman EPSL 1998
%Age model revised by Aline Govin on July 27 2017

depth (cm)	Age (ka)	Rationale
33	8.58	14C dating (Chapman 2000)
50	12.09	14C dating (Chapman 2000)
66	13.80	14C dating (Chapman 2000)
77	17.20	14C dating (Chapman 2000)
83	17.54	14C dating (Chapman 2000)
92	20.06	14C dating (Chapman 2000)
138	28.29	14C dating (Chapman 2000)
165	31.32	14C dating (Chapman 2000)
186	34.90	14C dating (Chapman 2000)
196	39.48	14C dating (Chapman 2000)
203	40.49	14C dating (Chapman 2000)
209	41.42	14C dating (Chapman 2000)
238.31	46.27	SST to NGRIP d18Oice on GICC05modelext
287.25	58.12	SST to NGRIP d18Oice on GICC05modelext
319.43	70.66	SST to NGRIP d18Oice on GICC05modelext
334.61	76.46	SST to NGRIP d18Oice on GICC05modelext
357.81	84.75	SST to NGRIP d18Oice on GICC05modelext
371.51	87.61	SST to NGRIP d18Oice on GICC05modelext
406.88	105.48	SST to NGRIP d18Oice on GICC05modelext
421.99	110.66	SST to NGRIP d18Oice on GICC05modelext
437.41	118.81	d18Obenthic to MD95-2042 on Corchia
457.16	127.84	SST to ODP976 SST on Corchia (btq to 2042 agree)
478.03	133.44	SST to ODP976 SST on Corchia (btq to 2042 agree)
489.14	135.80	SST to ODP976 SST on Corchia (btq to 2042 agree)
526.39	145.89	SST to ODP976 SST on Corchia (btq to 2042 agree)

%Data from Chapman EPSL 1998					
%Age model revised by Aline Govin July 2017
%d18Osw reconstructions done by Aline Govin in July 2017	
%SST and planktic d18O data on the same depth scale (from SST)			
%Col 1= depth (cm)
%Col 2= 	Age this study (ka)
%Col 3=	Summer SST (degC)
%Col 4=	d18O bulloides interpolated onto same depth scale as SST (permil)
%Col 5=	Isotopic temp (°C)	
%Col 6= d18Osw (permil SMOW)

450	124.57	22.49	1.06	20.79	2.20
451	125.02	22.39	1	20.69	2.12
452	125.48	22.99	1.16	21.29	2.41
453	125.94	23.58	1.12	21.88	2.50
454	126.39	22.39	1.46	20.69	2.58
455	126.85	22.56	1.33	20.86	2.49
456	127.31	22.38	1.32	20.68	2.44
457	127.77	22.19	1.35	20.49	2.43
458	128.07	19.55	1.69	17.85	2.18
459	128.33	19.46	1.47	17.76	1.94
460	128.60	19.32	1.36	17.62	1.79
461	128.87	19.71	1.35	18.01	1.87
462	129.14	19.05	1.55	17.35	1.92
463	129.41	16.53	1.61	14.83	1.40
464	129.67	17.94	1.46	16.24	1.58
465	129.94	15.35	1.32	13.65	0.84
466	130.21	15.07	1.24	13.37	0.69
467	130.48	15.53	1.62	13.83	1.18
468	130.75	14.47	1.43	12.77	0.74
469	131.02	11.91	1.24	10.21	-0.08
470	131.28	12.80	1.27	11.10	0.17
472	131.82	13.91	1.69	12.21	0.86
473	132.09	11.90	1.99	10.20	0.67
474	132.36	12.30	1.76	10.60	0.54
475	132.62	12.74	2.17	11.04	1.06
476	132.89	12.95	2.36	11.25	1.30
477	133.16	12.27	2.4	10.57	1.17
478	133.43	13.74	2.69	12.04	1.82
479	133.64	15.25	2.38	13.55	1.87
480	133.86	13.54	2.39	11.84	1.47
481	134.07	16.20	2.82	14.50	2.53
482	134.28	15.04	2.25	13.34	1.69
483	134.49	14.13	2.19	12.43	1.42
484	134.71	14.15	2.5	12.45	1.73
485	134.92	16.38	2.52	14.68	2.28
486	135.13	16.17	2.41	14.47	2.12
487	135.34	14.90	2.51	13.20	1.92
488	135.56	14.42	2.46	12.72	1.75
490	136.03	17.39	2.44	15.69	2.43
493	136.85	16.46	2.62	14.76	2.40
495	137.39	18.52	2.56	16.82	2.81
497	137.93	15.69	2.43	13.99	2.02
499	138.47	16.10	2.37	14.40	2.06
502	139.28	18.07	2.65	16.37	2.80
504	139.83	15.16	2.84	13.46	2.31
508	140.91	18.16	2.32	16.46	2.49
512	141.99	18.54	2.58	16.84	2.84
516	143.08	16.92	2.91	15.22	2.79