Table T10. Characteristic directions of minicores, Holes 1259A and 1259B. (See table notes. Continued on next two pages.)

Table T10. Characteristic directions of minicores, Holes 1259A and 1259B.


Core, section, interval (cm)	PMAG code	Depth (mcd)	Polarity		Chron/ subchron	Declination (°)	Inclination (°)	Intensity (mA/m)	MAD (°)	N	Temperature steps used in least-square analysis (°C)
Core, section, interval (cm)	PMAG code	Depth (mcd)	Label	Code	Chron/ subchron	Declination (°)	Inclination (°)	Intensity (mA/m)	MAD (°)	N	1	2	3	4	5	6	7	8	9	10	11	12
207-1259A-
15R-1, 86	151.086	131.76	N	4	C15n?	11.2	–8.6	5.67E–01	1.9	6	150	200	250	300	350	400	Org	Tied
15R-3, 13	153.013	134.03	NP	3		57.1	–5.0	8.42E–03	8.3	8	150	200	250	300	350	350	400	400	Org	Tied
16R-1, 6	161.006	140.66	R?	–1		66.2	–2.8	8.66E–03	7.8	4	250	350	400	400	Org	Tied
					Hiatus
16R-3, 83	163.083	144.43	N?	1	C17r?	356.3	8.4	4.37E–03	3.8	2	50	50	Org	Tied
17R-1, 11	171.011	150.31	RP	–3		93.7	–0.8	1.81E–02	3.8	4	250	300	350	400	Org	Tied
18R-1, 10	181.010	159.90	R	–4		106.0	–13.7	1.35E–02	3.6	5	200	250	300	350	400	Org	Tied
					Gap in coverage
19R-1, 84	191.084	170.34	R?	–1		194.9	–4.5	2.54E–02	0.6	5	200	250	300	350	400	Org	Tied
19R-2, 15	192.015	171.15	RP	–3	C18r	277.2	–3.2	8.54E–03	4.9	7	200	250	300	350	350	400	400	Org	Tied
19R-5, 31	195.031	175.81	R	–4		297.5	4.9	3.02E–02	2.5	6	150	200	250	300	350	400	Org	Tied
20R-1, 8	201.008	179.28	RP	–3		56.1	5.9	2.71E–02	2.6	5	200	250	300	350	400	Org	Tied
20R-3, 34	203.034	182.54	RP	–3		269.5	13.8	1.29E–02	2.5	5	200	250	300	350	400	Org	Tied
20R-5, 42	205.042	185.52	RP	–3		109.7	–2.5	1.15E–02	4.3	5	200	250	300	350	400	Org	Tied
21R-1, 43	211.043	189.23	NP	3	C19n	109.2	–8.9	8.88E–03	2.6	2	350	400	Org	Tied
21R-3, 71	213.071	192.51	RP	–3	C19r	163.8	9.0	1.50E–02	2.9	3	300	350	400	Org	Tied
22R-1, 31	221.031	198.81	R	–4		327.7	15.7	1.15E–02	3.3	4	250	300	350	400	Org	Tied
22R-3, 44	223.044	201.94	R	–4		126.6	–0.6	2.26E–02	2.2	4	250	300	350	400	Org	Tied
22R-5, 12	225.012	204.62	R	–4		308.0	5.9	1.60E–02	3.5	5	200	250	300	350	400	Org	Tied
23R-1, 83	231.083	208.93	NP	3	C20n	81.5	–14.7	1.04E–02	7.0	5	200	250	300	350	400	Org	Tied
23R-3, 85	233.085	211.93	N	4		343.3	–9.1	8.72E–03	2.6	5	200	250	300	350	400	Org	Tied
23R-5, 33	235.033	213.93	NP	3		206.6	–3.3	7.51E–03	3.4	7	200	200	250	300	350	400	400	Org	Tied
24R-1, 40	241.040	218.20	N	4		270.3	–3.6	1.19E–02	2.3	4	200	250	300	350	Org	Tied
25R-1, 31	251.031	227.51	NP	3		82.5	–4.0	1.67E–02	3.2	4	200	250	300	350	Org	Tied
25R-3, 33	253.033	230.53	R	–4	C20r	30.6	4.4	8.70E–03	4.1	6	200	250	300	350	400	400	Org	Tied
26R-1, 13	261.013	237.04	R	–4		138.8	15.1	1.40E–02	3.0	5	200	250	300	350	400	Org	Tied
26R-3, 11	263.011	240.01	RP	–3		105.7	3.3	1.52E–02	3.5	5	200	250	300	350	400	Org	Tied
26R-5, 119	265.119	244.09	R	–4		21.5	–1.8	1.77E–02	2.9	5	200	250	300	350	400	Org	Tied
27R-1, 138	271.138	247.88	R	–4		245.1	1.4	2.03E–02	2.7	4	250	300	350	400	Org	Tied
27R-3, 84	273.084	250.34	RP	–3		117.6	6.0	2.66E–02	3.8	4	200	250	300	350	Org	Tied
27R-5, 65	275.065	253.15	RP	–3		195.0	5.7	1.63E–02	4.6	2	300	350	Org	Tied
28R-1, 58	281.058	256.78	R	–4		121.0	4.1	2.57E–02	2.9	6	200	250	300	350	350	400	Org	Tied
					Gap in coverage
29R-1, 32	291.032	266.12	NP	3	C21n	295.3	17.0	1.87E–02	3.6	6	150	200	250	300	350	400	Org	Tied
29R-3, 28	293.028	269.08	N	4		3.7	9.5	2.02E–02	2.5	6	150	200	250	300	350	400	Org	Tied
29R-5, 63	295.063	272.43	RP	–3	C21r	99.4	1.3	1.35E–02	2.0	3	250	300	350	Org	Tied
30R-1, 90	301.090	276.40	N	4	?	250.0	–2.6	3.01E–02	1.4	5	200	250	300	350	400	Org	Tied
30R-3, 58	303.058	279.08	RPP	–2		99.9	–7.4	1.52E–02	1.3	2	350	400	Org	Tied
31R-1, 108	311.108	286.18	N	4	C22n	304.4	–5.1	1.27E–01	2.7	6	150	200	250	300	350	400	Org	Tied
32R-1, 67	321.067	295.38	NP	3		11.0	39.7	2.76E–02	6.5	5	200	250	300	350	400	Org	Tied
32R-2, 29	322.029	296.42	N	4		331.2	–3.1	1.39E+00	1.4	6	150	200	250	300	350	400	Org	Tied
					Hiatus? and gap in coverage
34R-1, 31	341.031	314.17	N	4		27.0	17.2	3.86E–02	2.6	5	200	250	300	350	400	Org	Tied
34R-3, 35	343.035	317.22	N?	1		347.8	46.3	9.08E–01	2.1	5	200	250	300	350	400	Org	Tied
34R-5, 78	345.078	320.65	N	4		275.4	–4.5	3.58E–02	5.0	4	250	300	350	400	Org	Tied

43R-1, 33	431.033	402.20	RP	–3	C25r?	236.0	–28.1	1.52E–02	9.3	4	200	250	300	400	Org	Tied
44R-1, 65	441.065	412.23	N	4	?	341.4	19.1	7.03E–02	2.1	3	250	300	350	Org	Tied
44R-3, 94	443.094	415.51	RP	–3		346.0	34.8	6.83E–03	4.0	4	200	250	300	300	Org	Tied
44R-5, 31	445.031	417.88	NP	3	C26n?	95.8	26.4	1.82E–01	3.2	3	250	300	350	Org	Tied
44R-6, 17	446.017	419.24	NP	3		102.4	2.0	1.30E–01	3.6	6	150	200	250	300	350	400	Org	Tied

47R-4, 3	474.003	444.59	RP	–3	C29r	155.8	–4.2	1.02E–02	8.7	8	200	200	225	225	250	300	300	350	Org	Tied
47R-5, 11	475.011	446.17	RP	–3		125.9	1.8	2.29E–02	6.8	4	300	300	330	360	Org	Tied
47R-CC, 24	479.024	447.82	RP	–3		90.5	–6.2	1.33E–02	8.3	6	200	200	225	250	300	350	Org	Tied
48R-1, 5	481.005	448.86	RP	–3		143.2	10.8	1.12E–02	12.5	4	250	300	350	350	Org	Tied
48R-2, 3	482.003	450.34	NP	3	C30n	60.2	–0.3	5.12E–03	8.4	5	150	150	200	200	240	Org	Tied
48R-3, 7	483.007	451.88	NP	3	to	354.3	9.1	4.53E–03	3.1	4	225	225	225	225	Org	Tied
48R-4, 3	484.003	453.34	NP	3	C31n	25.1	–0.1	7.67E–03	10.3	7	150	200	200	225	225	250	250	Org	Tied
48R-5, 4	485.004	454.84	NP	3		33.1	36.0	7.06E–03	8.0	4	150	150	200	200	Org	Tied
48R-6, 6	486.006	456.37	NP	3		46.1	–8.7	6.26E–03	9.8	8	150	150	200	200	225	225	250	250	Org	Tied
48R-7, 3	487.003	457.84	N?	1		64.4	–19.6	3.46E–03	3.4	3	150	150	150	Org	Tied
49R-1, 4	491.004	459.30	NP	3		11.1	–11.8	7.36E–03	4.8	6	150	200	200	240	240	270	Org	Tied
49R-2, 18	492.018	460.94	N?	1		13.2	34.9	4.51E–03	0.7	2	150	150	Org	Tied
49R-3, 3	493.003	462.12	NP	3		2.7	25.9	1.42E–02	7.0	4	50	150	200	200
49R-4, 11	494.011	463.70	R?	–1		95.5	–2.2	5.49E–03	7.8	6	150	150	200	200	225	225	Org	Tied
49R-5, 16	495.016	465.19	R?	–1		119.2	25.0	6.09E–03	4.5	4	150	150	200	200	Org	Tied
49R-6, 14	496.014	466.65	R?	–1		260.0	48.8	4.82E–03	0.0	0	200	Org	Tied
50R-1, 7	501.007	468.60	NP	3		43.7	14.5	2.48E–02	1.6	4	50	150	200	250
50R-2, 7	502.007	470.10	RPP	–2	C31r	261.4	–1.2	1.05E–02	6.7	4	250	300	350	400	Org	Tied
50R-3, 7	503.007	471.42	RPP	–2		147.2	9.1	4.26E–03	3.5	2	250	250	Org	Tied
50R-4, 7	504.007	472.92	RPP	–2		247.4	–7.9	6.61E–03	1.8	2	240	240	Org	Tied
50R-5, 7	505.007	474.29	RP	–3		309.3	–8.3	7.29E–03	4.7	4	200	250	300	300	Org	Tied
50R-6, 7	506.007	475.78	N?	1		338.1	51.6	3.10E–03	3.7	2	150	150	Org	Tied
50R-7, 7	507.007	476.63	R?	–1		121.8	17.2	3.38E–03	20.9	2	150	200	Org	Tied
51R-1, 5	511.005	477.98	R?	–1		216.8	–74.1	2.09E–03	11.8	2	200	200	Org	Tied
51R-2, 3	512.003	479.46	RPP	–2		316.1	–73.5	5.59E–03	3.2	4	250	250	300	300	Org	Tied
51R-3, 10	513.010	481.03	N?	1	C32n?	105.3	67.9	3.99E–03	1.3	2	150	150	Org	Tied
51R-4, 3	514.003	482.46	N?	1		149.5	34.7	4.49E–03	4.9	2	150	150	Org	Tied
51R-5, 4	515.004	483.97	N?	1		295.1	15.2	4.53E–03	1.5	2	150	150	Org	Tied
51R-6, 2	516.002	485.42	RPP	–2	?	341.6	10.4	5.76E–03	2.4	2	300	300	Org	Tied
51R-7, 3	517.003	486.93	R?	–1		267.8	38.7	5.53E–03	2.7	2	150	150	Org	Tied
51R-CC, 3	519.003	487.73	RP	–3	?	248.2	–19.7	3.54E–03	5.0	4	270	270	300	300	Org	Tied
207-1259B-
2R-1, 63	21.063	305.03	N	4	C22n	74.3	0.8	1.07E+00	1.3	7	200	240	270	300	330	360	400	Org	Tied
2R-3, 61	23.061	308.01	RPP	–2	C22r	351.7	–32.2	6.80E–02	7.6	3	300	350	400	Org	Tied
2R-5, 84	25.084	311.24	RP	–3		271.2	9.5	2.24E–02	2.4	4	250	300	350	400	Org	Tied
2R-7, 7	27.007	313.47	N	4	C23n	303.7	14.6	7.48E–02	2.9	5	270	300	330	360	400	Org	Tied
4R-1, 64	41.064	315.34	NP	3		80.8	10.4	3.96E–02	2.7	4	200	250	300	350	Org	Tied
4R-3, 14	43.014	317.84	NP	3		53.7	0.3	7.52E–01	1.4	3	300	350	400	Org	Tied
4R-5, 71	45.071	321.01	N	4		41.5	2.5	1.63E+00	1.1	7	200	240	270	300	330	360	400	Org	Tied
					Hiatus?
5R-1, 5	51.005	335.30	RP	–3	C24r	80.3	4.7	2.71E–02	3.4	5	200	250	300	350	400	Org	Tied
5R-3, 7	53.007	338.32	R	–4		162.0	–1.6	2.38E–02	2.4	5	270	300	330	360	400	Org	Tied
5R-5, 4	55.004	341.29	R	–4		303.1	–2.6	2.04E–02	4.5	4	250	300	350	400	Org	Tied
5R-7, 41	57.041	344.66	R	–4		299.7	–0.9	1.46E–02	3.6	5	200	250	300	350	400	Org	Tied
6R-1, 22	61.022	346.75	N?	1		29.9	0.4	9.26E–03	4.0	3	270	300	300	Org	Tied
6R-2, 5	62.005	348.08	NP	3	N within	305.6	–6.9	7.90E–03	4.0	3	350	400	400	Org	Tied
6R-CC, 2	69.002	349.50	NP	3	C24r?	258.6	0.0	1.57E–02	3.6	5	200	250	300	350	400	Org	Tied
7R-1, 37	71.037	355.20	RP	–3		280.7	6.3	2.39E–02	2.7	4	200	240	270	300	Org	Tied
7R-3, 8	73.008	357.91	RP	–3	C24r	73.8	–1.2	1.36E–02	3.7	4	250	300	350	400	Org	Tied
7R-5, 30	75.030	361.13	R	–4		217.8	11.3	1.46E–02	4.4	5	200	250	300	350	400	Org	Tied
7R-7, 37	77.037	364.00	RP	–3		102.0	6.6	3.37E–02	3.2	6	150	200	240	270	300	330	Org	Tied
8R-1, 8	81.008	364.61	R	–4		190.4	15.9	2.77E–02	2.4	4	200	250	300	350	Org	Tied
8R-3, 5	83.005	367.58	RPP	–2		32.8	12.2	6.26E–03	2.7	2	350	350	Org	Tied
8R-CC, 3	89.003	371.94	RP	–3		248.8	5.5	1.41E–02	5.2	4	300	330	360	360	Org	Tied
9R-1, 33	91.033	374.46	R	–4		331.7	–3.5	1.15E–02	6.4	9	200	225	250	250	300	300	350	400	400	Org	Tied

10R-1, 6	101.006	418.76	NP	3	C26n?	53.7	12.3	1.13E–01	2.4	5	200	250	300	350	400	Org	Tied
10R-3, 39	103.039	422.10	INT	0		92.5	68.5	5.06E–03	3.7	2	150	150	Org	Tied
10R-5, 33	105.033	425.04	R	–4	C26r?	93.3	9.4	7.57E–01	2.3	7	200	240	270	300	330	360	400	Org	Tied
10R-7, 46	107.046	427.87	RP	–3		96.6	–14.2	7.51E–03	3.2	4	300	350	350	400	Org	Tied
11R-1, 53	111.053	429.95	R	–4		127.4	3.7	4.17E–02	1.6	6	150	200	250	300	350	400	Org	Tied
11R-3, 2	113.002	432.14	R	–4		318.0	3.1	2.84E–02	1.8	6	150	200	250	300	350	400	Org	Tied
12R-1, 45	121.045	438.70	R	–4		304.8	8.0	6.05E–01	2.0	6	240	270	300	330	360	400	Org	Tied

13R-1, 3	131.003	443.27	RP	–3	C29r	295.0	–5.1	5.11E–02	2.2	8	200	240	270	270	300	330	360	400	Org	Tied
13R-2, 2	132.002	444.77	RP	–3		301.3	–17.7	8.08E–03	2.5	3	300	350	350	Org	Tied
13R-2, 100	132.100	445.75	RPP	–2		264.4	–14.5	5.77E–03	5.4	4	300	300	350	350	Org	Tied
13R-5, 3	135.003	449.28	NP	3	C30n	45.8	0.2	4.47E–03	9.3	4	200	200	225	225	Org	Tied
13R-7, 3	137.003	452.29	N?	1	to	70.8	14.1	7.51E–03	2.5	2	150	150	Org	Tied
14R-1, 4	141.004	453.10	NP	3	C31n	66.0	24.3	8.31E–03	2.6	3	150	200	200	Org	Tied
14R-3, 8	143.008	456.14	NPP	2		164.7	–2.1	6.23E–03	3.6	4	225	225	250	250	Org	Tied
14R-5, 5	145.005	459.11	NPP	2		204.6	21.9	4.75E–03	3.1	2	200	200	Org	Tied
15R-1, 61	151.061	460.97	NP	3		292.7	–0.8	5.22E–03	2.8	4	200	200	240	240	Org	Tied
15R-3, 52	153.052	463.88	NP	3		180.6	62.3	9.57E–03	1.1	3	150	200	200
15R-5, 27	155.027	466.63	R?	–1		212.8	–12.2	3.52E–03	6.5	2	200	200	Org	Tied
15R-7, 55	157.055	469.91	NP	3		50.6	17.0	1.16E–02	5.4	6	50	150	200	200	225	225	Org	Tied
16R-1, 49	161.049	471.70	RP	–3	C31r	80.1	–18.5	5.98E–03	10.3	6	300	300	330	330	360	360	Org	Tied
16R-3, 53	163.053	474.74	INT	0		73.6	48.5	3.15E–03	0.0	2	200	200
17R-1, 11	171.011	475.67	RP	–3		321.4	51.8	5.29E–03	6.2	7	200	225	225	250	250	300	300	Org	Tied
17R-3, 6	173.006	478.62	RPP	–2		145.2	–42.7	1.51E–02	5.7	10	150	200	200	240	270	300	330	330	360	400	Org	Tied
17R-5, 77	175.077	482.33	NP	3	C32n?	32.4	44.9	2.49E–03	9.2	6	225	225	250	250	300	300	Org	Tied
17R-7, 10	177.010	484.66	NP	3		115.2	35.4	5.21E–03	7.2	6	200	200	225	225	250	250	Org	Tied
18R-1, 9	181.009	485.94	RP	–3	?	109.7	54.1	4.41E–03	5.7	4	240	240	270	270	Org	Tied
18R-2, 7	182.007	487.41	NPP	2	?	352.2	21.8	5.44E–03	7.8	8	150	200	200	225	225	250	300	300	Org	Tied

Note: PMAG = paleomagnetism, MAD = maximum angular deviation. R = reversed polarity, N = normal polarity. RP and NP = less precise reversed and normal polarity assignments, respectively. RPP and NPP = sample did not achieve adequate cleaning during demagnetization but polarity was obviously reversed or normal, respectively. Orig. = origin. Black = normal polarity, white = reversed polarity, gray = intermediate or questionable polarity, yellow = gap in coverage or hiatus. Examples of interpretation of progressive demagnetization plots and methods of computation of the characteristic directions are given in "Paleomagnetism" in the "Explanatory Notes" chapter.