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REFNO AUTHORS YEAR TITLE JOURNAL VOL PAGES NOTE36 Koenigsberger, J.G. 1938 Natural residual magnetism of eruptive rocks Terr. Magn. Atmos. Elect. 43 299-32052 Nagata, T. 1943 Bull. Earthq. Res. Inst. 21 1-196

75 Thellier, E., Thellier, O. 1959 Ann. Geophys. 15 285-376

80 Wilson, R.L. 1961 Geophys. J. Roy. Astron. Soc. 5 45-58

79 van Zijl, J.S.V., Graham, K.W.T., Hales, A.L. 1962 Geophys. J. Roy. Astron. Soc. 7 169-182

51 Momose, K. 1963 Bull. Earthq. Res. Inst. 41 487-534

34 Irving, E., Stephenson, P.J., Major, A. 1965 Magnetism in Heard Island rocks J. Geophys. Res. 70 3421-342710 Bol'shakov, A.S., Solodovnikov, G.M. 1966 Magnitude of the geomagnetic field in the Lower Quaternary in Armenia Geomag. Aeron. (Eng. Edition) 6 574-577

18 Briden, J.C. 1966 Nature 212 246-247

19 Briden, J.C. 1966 Geophys. J. Roy. Astron. Soc. 11 267-278

27 Coe, R.S. 1967 J. Geophys. Res. 72 3247-3262

45 Krs, M. 1967 Intensity of the earth's magnetic field in the geological past Nature 215 697-69972 Smith, P.J. 1967 The intensity of the Tertiary geomagnetic field Geophys. J. Roy. Astron. Soc. 12 239-258

73 Smith, P.J. 1967 Estimates of the Devonian geomagnetic field intensity in Scotland U.S. Geol. Surv. Prof. Paper 575 D164-D168

74 Smith, P.J. 1967 Earth Planet. Sci. Letters 2 99-105

126 Ade-Hall, J.M., Khan, M.A., Dagley, P., Wilson, R.L. 1968 Geophys. J. Roy. Astron. Soc. 16 375-415

20 Bucha, V., Horacek, J.V., Rybar, J. 1968 The intensity of the geomagnetic field in the Quaternary Studia Geoph. Geod. 12 56-6135 Kobayashi, K. 1968 Phys. Earth Planet. Interiors 1 387-395

38 Kono, M. 1968 J. Geomag. Geoelect. 20 353-366

37 Kono, M., Nagata, T. 1968 J. Geomag. Geoelect. 20 211-220

44 Krs, M. 1968 Pure & Appl. Geophys. 69 158-167

49 McElhinny, M.W., Evans, M.E. 1968 Phys. Earth Planet. Interiors 1 485-497

53 Ozima, M., Ozima, M., Kaneoka, I. 1968 J. Geophys. Res. 73 711-723

135 Strangway, D.W., McMahon, B.E., Larson, E.E. 1968 J. Geophys. Res. 73 7031-7037

The natural remanent magnetism of volcanic rocks and its relation to geomagnetic phenomena

Sur l'intensite du champ magnetique terrestre dans le passe historique et geologique

Paleointensity method (INTMTD = T)

Palaeomagnetism in Northern Ireland, Part I. The thermal demagnetization of natural magnetic moments in rocks

Paleointensity method (INTMTD = W)

The palaeomagnetism of the Stormberg Lavas, II. The behaviour of the magnetic field during a reversal

Paleointensity method (INTMTD = Z)

Studies on the variations of the earth's magnetic field during Pliocene time

Variation of intensity of the palaeomagnetic field through geological time

Estimates of direction and intensity of the palaeomagnetic field from the Mugga Mugga Porphyry, Australia

Paleo-intensities of the Earth's magnetic field determined from Tertiary and Quaternary rocks

New methodology for Thellier technique

On the suitability of igneous rocks for ancient geomagnetic field intensity determination

A detailed opaque petrological and magnetic investigation of a single Tertiary lava flow from Skye, Scottland - I, II and III.

Paleomagnetic determination of the intensity of the geomagnetic field in the Precambrian period

Paleomagnetism of Pleistocene Usami volcano, Izu Peninsula, Japan - Intensity of the earth's magnetic field in geological time, II

Intensity of the earth's magnetic field in geological time, I. Late Pliocene in the southwestern U.S.A.

Geomagnetic field intensity during the Plio-Pleistocene derived from the thermo-remanence of porcellanites and paleo-slags (Czechoslovakia)

An investigation of the strength of the geomagnetic field in the early Precambrian

Potassium-argon ages and magnetic properties of some dredged submarine basalts and their geophysical implications

Magnetic paleointensity studies on a recent Basalt from Flagstaff, Arizona.


REFNO AUTHORS YEAR TITLE JOURNAL VOL PAGES NOTE11 Bol'shakov, A.S., Solodovnikov, G.M. 1969 Izv., Earth Phys. (Eng. Trans.) 5 325-328

57 Prevot, M., Watkins, N.D. 1969 Ann. Geophys. 25 351-369

64 Sasajima, S., Maenaka, K. 1969 Variation of the geomagnetic field intensity since the Late Miocene J. Geophys. Res. 74 1037-1044

65 Schwarz, E.J., Symons, D.T.A. 1969 Geomagnetic intensity between 100 million and 2500 million years ago Phys. Earth Planet. Interiors 2 11-18

127 Abranson, C.E. 1970 Pure & Appl. Geophys. 82 189-221

3 Bergh, H.W. 1970 Paleomagnetism of the Stillwater Complex, Montana 17 143-158

46 Lawley, E.A. 1970 Earth Planet. Sci. Letters 10 145-149

66 Schwarz, E.J., Symons, D.T.A. 1970 J. Geophys. Res. 75 6631-6640

125 Symons, D.T.A., Schwarz, E.J. 1970 Can. J. Earth Sci. 7 176-181

39 Kono, M. 1971 J. Geomag. Geoelect. 23 1-9

1 Rolph, T.C., Shaw, J. 1971 J. Geomag. Geoelect. 23 129-132

12 Bol'shakov, A.S., Solodovnikov, G.M. 1973 Izv., Earth Phys. (Eng. Trans.) 9 315-319 Replaced by ref 84

40 Kono, M. 1974 J. Geophys. Res. 79 1135-1141

50 Mikhaylova, N.P., Glevasskaya, A.M., Tsykora, V.N. 1974 Naukova Dumka, Kiev. 4 195-201

158 Shaw, J. 1974 Geophys. J. Roy. Astron. Soc. 39 133-141

13 Bol'shakov, A.S., Solodovnikov, G.M. 1975 Intensity of the geomagnetic field in the Early Triassic Dokl. Akad. Nauk (Eng. Trans.) 221 828-831 Replaced by ref 84

69 Shaw, J. 1975 Strong geomagnetic fields during a single Icelandic polarity transition Geophys. J. Roy. Astron. Soc. 40 345-350

159 Tanguy, J.C. 1975 Earth Planet. Sci. Letters 27 314-320 Paleointensity method

2 Bagina, O.L., Minasyan, D.O., Petrova, G.N. 1976 Izv. Akad. Nauk. (in Russian) 2 81-86

90 Barbetti, M, McElhinny, M.W. 1976 The Lake Mungo geomagnetic excursion Phil. Trans. R. Soc. London 281 515-542

14 Bol'shakov, A.S., Solodovnikov, G.M. 1976 Reversal of the geomagnetic field in Early Triassic time Izv., Earth Phys. (Eng. Trans.) 6 388-391 Replaced by ref 84

31 Dunlop, D.J., Hale, C.J. 1976 J. Geophys. Res. 81 4166-4172

The field strength of the ancient magnetic field of the Earth in the Pliocene-Quaternary epoch

Essai de determination de l'intensite du champ magnetique terrestre au cours d'un renversement de polarite

A discussion of the alternating field method and new paleointensity measurements of the Miocene geomagnetic field in Oregon.

Paleogeophysics (ed. S.K. Runcorn, Academic Press)

The intensity of the geomagnetic field in Iceland during Neogene polarity transitions and systematic deviations

Paleomagnetic field intensity during cooling of the Sudbury irruptive 1700 million years ago

Paleointensity study of late Miocene igneous rocks from British Columbia, Canada

Intensity of the earth's magnetic field in geological time, III. Pleistocene and Pliocene data from Japanese volcanic rocks

Evidence of anomalously weak geomagnetic field during Matuyama reversed epoch

Intensity of the geomagnetic field in the Triassic, based on a study of the magnetic properties of a heated contact

Intensity of the earth's magnetic field about 60 million years ago determined from Deccan trap basalts, India

Paleomagnetism of volcanic rocks of Carparty in "Paleomagnetism of volcanic rocks and reconstruction of the geomagnetic field in the Neogene"

A new method of determining the magnitude of the palaeomagnetic field. Application to five historic lavas and five archaeological samples

Paleointensity method (INTMTD = S)

Intensity of the geomagnetic field from recent italian lavas using a new paleointensity method

Determination of the intensity of the ancient geomagnetic field from the magnetization of effusive rocks of the Armenian SSR

A determination of paleomagnetic field intensity using submarine basalts drilled near the Mid-Atlantic Ridge


REFNO AUTHORS YEAR TITLE JOURNAL VOL PAGES NOTE83 McElhinny, M.W., Evans, M.E. 1976 Precambrian Res. 3 231-241

23 Carmichael, C.M. 1977 Phys. Earth Planet. Interiors 13 332-338

43 Kono, M., Ueno, N. 1977 Paleointensity determination by a modified Thellier method Phys. Earth Planet. Interiors 13 305-314

60 Radhakrishnamurty, C., Likhite, S.D., Sahasrabudhe, P.W. 1977 Phys. Earth Planet. Interiors 13 289-300

5 Bol'shakov, A.S., Solodovnikov, G.M., Vechfinskiy, V.S. 1978 Izv., Earth Phys. (Eng. Trans.) 14 904-910

215 Burakov, K.S., Nachasova, 1978 11 93-99

94 Coe, R.S., Gromme, C.S., Mankinen, E.A. 1978 J. Geophys. Res. 83 1740-1756

140 Tanaka, H. 1978 Geomagnetic paleointensities during the past 30,000 years in Japan 5 95-97

91 Barbetti, M, Flude, K. 1979 Nature 278 153-156

32 Gromme, C.S., Mankinen, E.A., Marshall, M., Coe, R.S. 1979 J. Geophys. Res. 84 3553-3575

41 Kono, M. 1979 Geophys. J. Roy. Astron. Soc. 56 385-396

58 Petrova, G.N., Bagina, O.L., Solodovnikov, G.M. 1979 Izv., Earth Phys. (Eng. Trans.) 15 75-80

178 Urrutia Fucugauchi, J. 1979 Geophys. J. Roy. Astron. Soc. 61 243-251

15 Bol'shakov, A.S., Solodovnikov, G.M. 1980 Geomagnetic field strength in the Late Jurassic Izv., Earth Phys. (Eng. Trans.) 16 848-857

42 Kono, M., Tosha, T. 1980 Geomagnetic paleointensity measurements on Leg 55 basalts Init. Rept. DSDP 55 753-75859 Petrova, G.N., Bagina, O.L., Nozharov, P.B. 1980 Izv., Earth Phys. (Eng. Trans.) 16 428-435

100 Schweitzer, Ch., Soffel, H.C. 1980 Palaeointensity measurements on postglacial lavas from Iceland. J. Geophys. 47 57-60

134 Tanaka, H. 1980 J. Geomag. Geoelect. 32 171-179

78 Urrutia Fucugauchi, J. 1980 Geophys. J. Roy. Astron. Soc. 63 601-618

6 1981 Izv., Earth Phys. (Eng. Trans.) 17 306-310

16 Bol'shakov, A.S., Solodovnikov, G.M. 1981 Intensity of the geomagnetic field in Late Cretaceous time Izv., Earth Phys. (Eng. Trans.) 17 754-761

67 Senanayake, W.E., McElhinny, M.W., McFadden, P.L. 1982 J. Geomag. Geoelect. 34 141-161

70 Shaw, J., Dagley, P., Mussett, A. 1982 Geophys. J. Roy. Astron. Soc. 68 211-218

Palaeomagnetic results from the Hart dolerite of the Kimberley Block, Australia

Paleointensity studies of oceanic basalts from DSDP Leg 37 and NRM/ARM ratios of oceanic and recent lavas

Nature of magnetic grains and their effect on the remanent magnetization of basalts

Determination of the geomagnetic field strength in the Late Cretaceous Period from the magnetization of burned rocks

The methods and results of studies of the geomagnetic field from the middle of the XVI century

Paleointensity method (INTMTD = WB)

Geomagnetic paleointensities from radiocarbon-dated lava flows on Hawaii and the question of the Pacific nondipole low

Rock magnetism and paleogeophysics

Paleomagnetic field strengths from sediments baked by lava flows of the Chaine des Puys, France

Geomagnetic paleointensities by the Thelliers' method from submarine pillow basalts: effects of seafloor weathering

Palaeomagnetism and palaeointensity studies of Scottish Devonian volcanic rocks

The determination of the Pliocene and Quaternary geomagnetic field intensity of Armenia by the Thellier and He methods

Paleointensity method (INTMTD = He)

Further reliability tests for determination of palaeointensities of the Earth's magnetic field

Magnetic field intensity of the earth in Pliocene Epoch from basalts of Bulgaria

Paleointensities of the Geomagnetic field determined from recent four lava flows of Sakurajima volcano, West Japan.

Paleointensity determination and K-Ar dating of the Tertiary north-east Jalisco volcanics (Mexico)

Bol'shakov, A.S., Gapeyev, A.K., Tkhoa, N.T.K., Solodovnikov, G.M.

Determination of paleointensity of the geomagnetic field in the Late Cretaceous period from the magnetization of effusive rocks

Comparison between the Thelliers' and Shaw's paleointensity methods using basalts less than 5 million years old

The magnitude of the palaeomagnetic field in Iceland between 2 and 6 Myr ago


REFNO AUTHORS YEAR TITLE JOURNAL VOL PAGES NOTE133 Tanaka, H. 1982 J. Geomag. Geoelect. 34 601-617

17 Bol'shakov, A.S., Solodovnikov, G.M. 1983 Izv., Earth Phys. (Eng. Trans.) 19 976-982

54 Pesonen, L.J., Halls, H.C. 1983 Geophys. J. Roy. Astron. Soc. 73 241-270

55 Prevot, M., Mankinen, E.A., Gromme, A., Lecaille, A. 1983 J. Geophys. Res. 88 2316-2326

68 Senanayake, W.E., McElhinny, M.W. 1983 J. Geophys. 52 85-96

76 Tkhoa, N.T.K. 1983 Izv., Earth Phys. (Eng. Trans.) 19 735-743

4 Bogue, S.W., Coe, R.S. 1984 J. Geophys. Res. 89 10341-10354

21 Burakov, K.S., Didenko, A.N., Pechersky, D.M. 1984 Izv., Earth Phys. (Eng. Trans.) 20 596-606

28 Coe, R.S., Gromme, S., Mankinen, E.A. 1984 J. Geophys. Res. 89 1059-1069

62 Roberts, N., Shaw, J. 1984 Geophys. J. Roy. Astron. Soc. 76 637-651

56 Prevot, M., Mankinen, E.A., Coe, R.S., Gromme, C.S. 1985 J. Geophys. Res. 90 10417-10448

63 Rolph, T.C., Shaw, J. 1985 Geophys. J. Roy. Astron. Soc. 80 773-781

9 Borisova, G.P. 1986 Izv., Earth Phys. (Eng. Trans.) 22 840-845

22 Burakov, K.S., Didenko, A.N., Pechersky, D.M. 1986 Izv., Earth Phys. (Eng. Trans.) 22 1013-1021

163 Rolph, T.C., Shaw, J. 1986 Variations of the Geomagnetic field in Sicily J. Geomag. Geoelect. 38 1269-127771 Sherwood, G.J., Shaw, J. 1986 Palaeointensity determinations on the Miocene of New Zealand J. Geomag. Geoelect. 38 1331-1338

77 Tunyi, I. 1986 J. Geomag. Geoelect. 38 1279-1295

130 Zhu, R., Chun, L., Gangkun, Z. 1986 Kexue Tongbao 5 336-339

7 Bol'shakov, A.S., Solodovnikov, G.M., Vinogradov, Y.K. 1987 Paleointensity of the geomagnetic field in the Early and Middle Jurassic Izv., Earth Phys. (Eng. Trans.) 23 324-333

33 Hale, C.J. 1987 Earth Planet. Sci. Letters 86 354-364

48 Marshall, M., Chauvin, A., Bonhommet, N. 1988 J. Geophys. Res. 93 11681-11698

Geomagnetic paleointensities for the period 6,00 to 3,000 years B.P. determined from lavas and pyroclasic flows in Japan.

Geomagnetic field intensity in Armenia in the Late Jurassic and Early Cretaceous

Geomagnetic field intensity and reversal asymmetry in late Precambrian Keweenawan rocks

High paleointensities of the geomagnetic field from thermomagnetic studies on rift valley pillow basalts from the Mid-Atlantic Ridge

A paleointensity method for use with highly oxidised basalts, and application to some Permian volcanics

Magnetic investigations into the Quaternary basalts of South Vietnam and determination of the Paleozoic intensity of the Earth's magnetic field

Transitional paleointensities from Kauai, Hawaii, and geomagnetic reversal models

An estimate of the geomagnetic field in the middle Devonian from baked siliceous rock and gabbro (South Mugodzhary)

Geomagnetic paleointensities from excursion sequences in lavas on Oahu, Hawaii

The relationship between the magnitude and direction of the geomagnetic field during the Late Tertiary in eastern Iceland

The Steens Mountain (Oregon) geomagnetic polarity transition, 2. Field intensity variations and discussion of reversal models

Sliding pTRM checks procedure

A new method of palaeofield magnitude correction for thermally altered samples and its application to Lower Carboniferous lavas

Estimation of the paleointensity of the geomagnetic field by a complex of thermal methods

Geomagnetic field intensity in the early Ordovician determined from welded sedimentary rocks

Palaeointensity of the geomagnetic field determined from igneous rocks of the West Carpathians

Determination of geomagnetic paleointensity of datong volcanic cluster in the pleistocene.

The intensity of the geomagnetic field at 3.5 Ga: paleointensity results from the Komati Formation, Barberton Mountain Land, South Africa

Preliminary paleointensity measurements and detailed magnetic analyses of basalts from the Skalamaelifell excursion, southwest Iceland


REFNO AUTHORS YEAR TITLE JOURNAL VOL PAGES NOTE61 Roperch, P., Bonhommet, N., Levi, S. 1988 Earth Planet. Sci. Letters 88 209-219

171 Sakai, Hi., Funaki, M. 1988 2 46-54

8 Bol'shakov, A.S., Solodovnikov, G.M., Vinogradov, Y.K. 1989 Paleointensity of the geomagnetic field in the early Permian Izv., Earth Phys. (Eng. Trans.) 25 70-78

24 Chauvin, A., Duncan, R.A., Bonhommet, N., Levi, S. 1989 Geophys. Res. Lett. 16 1189-1192

29 Derder, M.E., Thompson, J., Prevot, M., McWilliams, M. 1989 Phys. Earth Planet. Interiors 58 126-136

30 Didenko, A.N., Pechersky, D.M. 1989 Phys. Earth Planet. Interiors 58 289-306

101 Krsova, M., Krs, M., Pruner, P., Chvojka, R. 1989 Studia Geoph. Geod. 33 338-361

95 Salis, J.S., Bonhommet, N., Levi, S. 1989 J. Geophys. Res. 94 15771-15784

25 Chauvin, A., Roperch, P., Duncan, R.A. 1990 J. Geophys. Res. 95 2727-2752

47 1990 Earth Planet. Sci. Letters 96 443-457

103 Tanaka, H., 1990 Paleointensity high at 9000 years ago from volcanic rocks in Japan. J. Geophys. Res. 95 17517-17531

160 Zhu, R., Liu, C., Tshu, K.K. 1990 J. Graduate School, USTC 7 72-77

26 Chauvin, A., Gillot, P.Y., Bonhommet, N. 1991 J. Geophys. Res. 96 1981-2006

82 Perrin, M., Prevot, M., Mankinen, E.A. 1991 Low intensity of the geomagnetic field in Early Jurassic time J. Geophys. Res. 96 14197-1421081 1991 J. Geomag. Geoelect. 43 395-408

102 Tanaka, H., Kono, M. 1991 J. Geomag. Geoelect. 43 375-388

190 Zhu, R., Liu, C., Wu, H., Zhu, G. 1991 Transitional field behaviour for the Matuyama-Brunhes Sciences in China (Series B) 34 1252-125785 Solodovnikov, G.M. 1992 Paleointensity of the gomagnetic field in the lower Permian Izv., Earth Phys. (Eng. Trans.) 28 718-722

86 Solodovnikov, G.M. 1992 Geomagnetic intensity in the middle Carboniferous of Uzbekistan Izv., Earth Phys. (Eng. Trans.) 28 511-515

87 Solodovnikov, G.M. 1992 Paleostrength of geomagnetic field in Middle-Late Carboniferous Izv., Earth Phys. (Eng. Trans.) 28 327-331

185 Bogue, S.W., Hilary A.P. 1993 Distinctive field behavior following geomagnetic reversals Geophys. Res. Lett. 20 2399-240289 Mankinen, E.A., Champion, D.E. 1993 J. Geophys. Res. 98 7959-7976

Paleointensity of the earth's magnetic field during the Laschamp excursion and its geomagnetic implications

Paleomagnetic study of the Beacon supergroup in Antartica: remagnetization in the Jurassic time

Proc. NIPR Symp. Antarct. Geosci.

Paleointensity of the earth's magnetic field and K-Ar dating of the Louchadiere volcanic flow (central France): new evidence for the Laschamp excursion

Geomagnetic field intensity in Early Jurassic: investigation of the Newark Supergroup (eastern North America)

Direction and intensity of the geomagnetic field in the Middle Devonian and Lower Ordovician: southern Mugodjary ophiolite (Urals)

Palaeointensity of the geomagnetic field during upper Cainozoic derived from palaeo-slags and porcellanites in north Bohemia.

Paleointensity of the geomagnetic field from dated lavas of the Chaîne des Puys, France, 1.7-12 thousand years before present

Records of geomagnetic reversals from volcanic islands of French Polynesia, 2. Paleomagnetic study of a flow sequence (1.2-0.6 Ma) from the island of Tahiti and discussion of reversal models

Levi, S., Audunsson, H., Duncan, R.A., Kristjansson, L., Gillot, P.Y., Jakobsson, S.P.

Late Pleistocene geomagnetic excursion in Icelandic lavas: confirmation of the Laschamp excursion

Paleointensity determined from Datong volcano lava and its geologic significance

Paleointensity of the earth's magnetic field recorded by two Late Quaternary volcanic sequences at the Island of La Reunion (Indian Ocean)

Shaw, J., Sherwood, G.J., Mussett, A.E., Rolph, T.C., Subbarao, K.V., Sharma, P.V.

The strength of the geomagnetic field at the Cretaceous-Tertiary boundary: palaeointensity results from the Deccan Traps (India) and the Disko Lavas (Greenland)

Preliminary results and reliability of palaeointensity studies on historical and C14 dated Hawaiian lavas.

Broad trends in geomagnetic paleointensity on Hawaii during Holocene time


REFNO AUTHORS YEAR TITLE JOURNAL VOL PAGES NOTE96 Mankinen, E.A., Champion, D.E. 1993 Latest Pleistocene and Holocene geomagnetic paleointensity on Hawaii Science 262 412-416

93 Otake, H., Tanaka, H., Kono, M., Saito, K. 1993 J. Geomag. Geoelect. 45 595-612

88 Pick, T., Tauxe, L. 1993 Nature 366 238-242

107 Pick, T., Tauxe, L. 1993 J. Geophys. Res. 98 17949-17964

112 Sherwood, G.J., Shaw, J., Baer, G., Mallik, S.B. 1993 J. Geomag. Geoelect. 45 339-360

176 Thomas, D.N. 1993 Phys. Earth Planet. Interiors 75 329-342

118 Mankinen, E.A. 1994 633 1-17

97 Schnepp, E., Hradetzky, H. 1994 J. Geophys. Res. 99 9061-9076

92 Tanaka, H., Otsuka, A., Tachibana, T., Kono, M. 1994 Earth Planet. Sci. Letters 122 29-42

99 Tric, E., Valet, J.P., Gillot, P.Y., Lemeur, I. 1994 Phys. Earth Planet. Interiors 85 113-129

98 Schnepp, E. 1995 Geophys. J. Int. 121 627-633

84 Solodovnikov, G.M. 1995 Paleointensity of the early Triassic geomagnetic field Izv., Earth Phys. (Eng. Trans.) 30 815-821

105 Tanaka, H., Kono, M., Kaneko, S. 1995 J. Geomag. Geoelect. 47 89-102

132 Thomas, D.N., Piper, J.D.A. 1995 Geophys. J. Int. 122 266-282

115 Thomas, D.N., Rolph, T.C., Shaw, J. 1995 Geophys. J. Int. 123 798-816

177 Ueno, N. 1995 8 193-200

108 1996 Phys. Earth Planet. Interiors 96 41-59

106 1996 J. Geophys. Res. 101 585-600 Replaced by ref 181

110 1996 J. Geophys. Res. 101 11665-11673 Replaced by ref 139

116 Harcombe-Smee, B.J., Piper, J.D.A., Rolph, T.C., Thomas, D.N. 1996 Phys. Earth Planet. Interiors 94 63-73

Paleomagnetic study of Pleistocene lavas and dykes of the Zao volcano group, Japan

Geomagnetic palaeointensities during the Cretaceous normal superchron measured using submarine basaltic glass

Holocene paleointensities: Thellier experiments on submarine basaltic glass from the east Pacific Rise.

The strength of the geomagnetic field during the Cretaceous Quiet Zone : Paleointensity results from Israeli and Indian lavas

An integrated rock magnetic approach to the selection or rejection of ancient basalt samples for palaeointensity experiments

Preliminary geomagnetic paleointensities from Long Valley Caldera, California.

U.S. Geol. Surv. Open-File Report

Combined paleointensity and 40Ar/39Ar age spectrumdata from volcanic rocks of the West Eifel field (Germany): evidence for an early Brunhes geomagnetic excursion

Paleointensities for 10-22 ka from volcanic rocks in Japan and New Zealand

Absolute paleointensities between 60 and 160 kyear BP from Mount Etna (Sicily)

Paleointensity study of Quaternary East Eifel phonolitic rocks (Germany)

Paleosecular variation of direction and intensity from two Pliocene-Pleitocene lava sections in southwestern Iceland

Evidence for the existence of a transitional geomagnetic field recorded in a Proterozoic lava succession.

Palaeointensity results from the Permo-Carboniferous (Kiaman) reversed superchron : the Great Whin and Midland Valley sills of the northern United Kingdom

Geomagnetic paleointensity experiment on igneous and metamorphic rocks from Enderby land in Napier complex, Antartica


Camps, P., Ruffet, G., Shcherbakov, V.P., Shcherbakov, V.V., Prevot, M., Moussine-Pouchkine, A., Sholpo, L., Goguitchaichvili, A., Asanidze, B.

Paleomagnetic and geochronological study of a geomagnetic field reversal or excursion recorded in Pliocene volcanic rocks from Georgia (Lesser Caucaasis).

Garnier, F., Herrero-Bervera, E., Laj, C., Guillou, H., Kissel, C., Thomas, D.M.

Geomagnetic field intensity over the last 42,000 years from core SOH-4, Big Island, Hawaii

Garnier, F., Laj, C., Herrero-Bervera, E., Kissel, C., Thomas, D.M.

Preliminary determinations of geomagnetic field intensity for the last 400 kyr from the Hawaii Scientific Drilling Project Core, Big Island, Hawaii

A palaeomagnetic and palaeointensity study of the Mauchline lavas, south-west Scotland


REFNO AUTHORS YEAR TITLE JOURNAL VOL PAGES NOTE129 McClelland, E., Briden, J.C. 1996 J. Geophys. Res. 101 21995-22013

111 Mejia, V., Opdyke, N.D., Perfit, M.R. 1996 Geophys. Res. Lett. 23 475-478

119 Quidelleur, X., Valet, J.P. 1996 J. Geophys. Res. 101 13755-13773

109 Rais, A., Laj, C., Surmont, J., Gillot, P.-J., Guillou, H. 1996 Earth Planet. Sci. Letters 140 173-189

104 Schnepp, E. 1996 Phys. Earth Planet. Interiors 94 23-41

114 Solodovnikov, G.M. 1996 Geomagnetic intensity in the Early-Middle Devonian 32 615-621

142 1996 Absolute paleointensity and magnetomineralogical changes J. Geophys. Res. 101 25029-25044

124 1997 J. Geomag. Geoelect. 49 523-542

122 Brassart, J., Tric, E., Valet, J.P., Herrero-Bervera, E. 1997 Earth Planet. Sci. Letters 148 141-156

120 Gonzalez, S., Sherwood, G.J., Böhnel, H., Schnepp, E. 1997 Geophys. J. Int. 130 201-219

113 Kosterov, A.A., Prevot, M., Perrin, M., Shashkanov, V.A. 1997 J. Geophys. Res. 102 24859-24872


117 Morimoto, C., Otofuji, Y., Miki, M., Tanaka, H., Itaya, T. 1997 Geophys. J. Int. 128 585-583

164 1997 10 68-78

123 Tanaka, H., Kawamura, K., Nagao, K., Houghton, B.F. 1997 J. Geomag. Geoelect. 49 587-599

128 Thomas, D.N., Rolph, T.C., Friel, D.F. 1997 Geophys. J. Int. 130 257-265

131 Juarez, M.T., Tauxe, L., Gee, J.S., Pick, T. 1998 Nature 394 878-881

136 Kosterov, A.A, Perrin, M., Glen, J.M., Coe, R.S. 1998 J. Geophys. Res. 103 9739-9753

137 1998 Geophys. J. Int. 134 856-866

141 1998 Absolute paleointensity from Hawaiian lavas younger than 35 ka Earth Planet. Sci. Letters 161 19-32

161 1999 Paleointensity across the Reunion event in Ethiopia Earth Planet. Sci. Letters 170 17-34

An improved methodology for Thellier-type paleointensity determination in igneous rocks and its usefullness for verifying primary thermoremanence.

Paleomagnetic field intensity recorded in submarine basaltic glass from the East Pacific Rise, the last 69 ka.

Geomagnetic changes across the last reversal recorded in lava flows from La Palma, Canary Islands.

Geomagnetic field intensity between 70 000 and 130 000 years B.P. from a volcanic sequence on La Reunion, Indian Ocean.

Geomagnetic paleointensities derived from volcanic rocks of the Quaternary East Eifel volcanic field, Germany.

Izv., Phys. Solid Earth (Eng. Trans.)

Valet, J.P., Brassart, J., Le Meur, I., Soler, V., Quidelleur, X., Tric, E., Gillot, P.Y.

Paleointensity correction method (INTMTD = Tv)

Böhnel, H., Morales, J., Caballero, C., Alva, L., McIntosh, G., Gonzalez, S., Sherwood, G.J.

Variation of rock magnetic parameters and paleointensities over a Single Holocene lava flow.

Absolute paleointensity between 60 and 400 ka from the Kohala Mountain (Hawaii).

Paleosecular variation in Central Mexico over the last 30 000 years: the record from lavas.

Paleointensity of the Earth's magnetic field in Jurassic : new results from a Thellier study of the Lesotho Basalt, southern Africa

Laj, C., Rais, A., Surmont, J., Gillot, P.Y., Guillou, H., Kissel, C., Zanella, E.

Changes of the geomagnetic field vector obtained from lava sequences on the island of Vulcano (Aeolian Islands, Sicily).

Preliminary palaeomagnetic results of an archaean dolerite dyke of west Greenland : geomagnetic field intensity at 2.8 Ga

Sakai, Hi., Funaki, M., Sato, T., Rao, K.V., Takigami, Y., Sakai, Ha, Hirooka, K.

Paleomagnetic study of the Rajmahal trap in §India. Discussion of geomagnetic dipole moment and reconstruction of Gondwanaland


K-Ar ages and paleosecular variation of directions and intensity from Quaternary lava sequences in the Ruapehu Volcano, New Zealand.

Permo-Carboniferous (Kiaman) paleointensity results from the western Bohemian Massif, Germany.

The intensity of the Earth's magnetic field over the past 160 million years.

Paleointensity of the Earth's magnetic field in Early Cretaceous time: The Parana basalt, Brazil.

Thomas, D.N., Rolph, T.C., Shaw, J., Gonzalez de Sherwood, S., Zhuang, Z.

Paleointensity studies of a late Permian lava succession from Guizhou province, South China: implications for post-Kiaman dipole field behaviour.

Valet, J.P., Tric, E., Herrero-Bervera, E., Meynadier, L., Lockwood, J.P.

Carlut, J., Valet, J.P., Quidelleur, X., Courtillot, V., Kidane, T., Gallet, Y., Gillot, P.Y.


REFNO AUTHORS YEAR TITLE JOURNAL VOL PAGES NOTE208 Cottrell, R.D., Tarduno, J.A. 1999 Geomagnetic paleointensity derived from single plagioclase crystals Earth Planet. Sci. Letters 169 1-5

144 Goguitchaichvili, A., Prevot, M., Camps, P. 1999 Earth Planet. Sci. Letters 167 15-34

143 Goguitchaichvili, A., Prevot, M., Thompson, J., Roberts, N. 1999 Phys. Earth Planet. Interiors 115 53-66

174 Hill, M.J., Shaw, J. 1999 Geophys. J. Int. 139 583-590

139 Laj, C., Kissel, C. 1999 J. Geophys. Res. 104 15317-15338

148 Perrin, M., Riisager, J., Joseph, M. 1999 Memoir Geol. Soc. India 44 261-270

149 Riisager, J., Perrin, M., Rochette, P. 1999 Geophys. J. Int. 138 590-596

150 Riisager, J., Riisager, P., Perrin, M. 1999 Bull. Geol. Soc. Danemark 46 69-78

138 Solodovnikov, G.M. 1999 The intensity in the Eocene Geomagnetic Field 34 865-869

153 Solodovnikov, G.M. 1999 Geomagnetic intensity in the Pliocene 35 871-875

154 Solodovnikov, G.M. 1999 35 334-339

155 1999 J. Geophys. Res. 104 7577-7598

165 Carlut, J, Quidelleur, X. 2000 Phys. Earth Planet. Interiors 120 255-269

166 Cottrell, R.D., Tarduno, J.A. 2000 J. Geophys. Res. 105 23579-23594

186 2000 Geophys. J. Int. 143 977-984

187 2000 C. R. Acad. Sci. Paris 331 683-690

145 2000 Palaeomagnetism of the Miocene Farellones formation (Chile) Geophys. J. Int. 140 357-373

146 Juarez, M.T., Tauxe, L. 2000 The intensity of the time-averaged geomagnetic field: the last 5 Myr Earth Planet. Sci. Letters 175 169-180

162 Laj, C., Szeremeta, N., Kissel, C., Guillou, H. 2000 Earth Planet. Sci. Letters 179 191-204

188 Leonhardt, R., Hufenbecher, F., Heider, F., Soffel, H. 2000 Earth Planet. Sci. Letters 184 141-154

151 Riisager, J., Perrin, M., Riisager, P., Ruffet, G. 2000 J. Geophys. Res. 105 883-896

First Paleointensity study on plagioclase crystals

No evidence for strong fields during the R3-N3 Icelandic geomagnetic reversal

An attempt to determine the absolute geomagnetic field intensity in Southwestern Iceland during the Gauss-Matuyama reversal

Palaeointensity results for historic lavas from Mt Etna using microwave demagnetization/remagnetization in a modified Thellier-type experiment

Paleointensity method (INTMTD = Mpp)

Geomagnetic field intensity at Hawaii for the last 420 kyrs from the Havaii scientific drilling project core, Big Island, Hawaii.

Preliminary paleointensity results from dolerite dyke swarm in central Kerala, India

Palaeointensity results from Ethiopian basalts: implications for the Oligocene geomagnetic field strength

Palaeodirectional and palaeointensity results of Paleocene and Eocene basalts from West Greenland



Paleointensity of the geomagnetic field determined from Oligocene and Miocene rocks


Valet, J.P., Brassart, J., Quidelleur, X., Soler, V., Gillot, P.Y., Hongre, L.

Paleointensity variations across the last geomagnetic reversal at La Palma, Canary Islands, Spain

Absolute paleointensities recorded duri,g th Bruhnes chron at La Guadeloupe Island

In search of high-fidelity geomagnetic paleointensites: a comparison of single plagioclase crystal and whole rocks Thellier-Thellier analyses

Goguitchaichvili, A., Alva-Valdivia, L., Urrutia Fucugauchi, J., Morales, J., Ferrari, L.

Absolute palaeointensity results from the Trans-Mexican Volcanic Belt: implications for the Late Miocene geomagnetic field strngth.

Goguitchaichvili, A., Calvo, M., Sologashvili, D., Alva, L., Urrutia, J.

Palaeomagnetism of Georgian Plio-Quaternary volcanic provinces (Southern Caucasus): a pilot study.

Goguitchaichvili, A., Chauvin, A., Roperch, P., Prevot, M., Aguirre, L., Vergara, M.

Geomagnetic paleointensities at Hawaii between 3.9 and 2.1 Ma : preliminary results

High absolute paleointensity during a mid Miocene excursion of the Earth's magnetic field

Paleomagnetism, paleointensity and geochronology of Miocene basalts and baked sediments from Velay Oriental, French Massif Central


REFNO AUTHORS YEAR TITLE JOURNAL VOL PAGES NOTE152 Riisager, P., Abrahamsen, N. 2000 Phys. Earth Planet. Interiors 118 53-64

184 Selkin, P.A., Gee, J.S., Tauxe, L., Meurer, W.P., Newell, A.J. 2000 Earth Planet. Sci. Letters 183 403-416

172 Solodovnikov, G.M. 2000 36 468-475

175 Thomas, D.N., Biggin, A.J., Schmidt, P.W. 2000 Geophys. J. Int. 140 621-635


156 Yoshihara, A., Hamano, Y. 2000 Phys. Earth Planet. Interiors 117 295-307

179 Zhu, R., Pan, Y., Coe, R.S. 2000 J. Geophys. Res. 105 8305-8317

170 Alva-Valdivia, L., Goguitchaichvili, A., Urrutia Fucugauchi, J. 2001 Earth Planets Space 53 873-881


167 Goguitchaichvili, A., Camps, P., Urrutia Fucugauchi, J. 2001 Phys. Earth Planet. Interiors 124 81-93

169 Morales, J., Goguitchaichvili, A., Urrutia Fucugauchi, J. 2001 Earth Planets Space 53 893-902

191 2001 Geophys. J. Int. 145 401-422

173 Sumita, I, Hatakeyama, T., Yoshihara, A., Hamano, Y. 2001 Phys. Earth Planet. Interiors 128 223-241

209 Tarduno, J.A., Cottrell, R.D., Smirnov, A.V. 2001 Science 291 1779-1783

183 Yu, Y., Dunlop, D.J. 2001 J. Geophys. Res. 106 26331-26343

182 Zhu, R., Pan, Y., Shaw, J., Li, D., Li, Q. 2001 Phys. Earth Planet. Interiors 128 207-222


195 2002 Geophys. Res. Lett. 29, 13

180 Hill, M.J., Gratton, M.N., Shaw, J. 2002 Earth Planet. Sci. Letters 198 245-256


205 Leonhardt, R., Soffel, H.C. 2002 J. Geophys. Res.

189 Riisager, P., Riisager, J., Abrahamsen, N., Waagstein, R. 2002 Phys. Earth Planet. Interiors 131 91-100

Palaeointensity of West Greenland Palaeocene basalts: asymmetric intensity around C27n-C26r transition

The effect of remanence anisotropy on paleointensity estimates: a case study from the Archean Stillwater complex

Geomagnetic field paleointensity in the Pleistocene determined from extrusive rocks in Armenia


A palaeomagnetic study of Jurassic intrusives from New South Wales: further evidence for a pre-Cenozoic dipole low

Vlag, P., Alva-Valdivia, L., de Boer, C.B., Gonzalez, S., Urrutia Fucugauchi, J.

A rock- and paleomagnetic study of a Holocene lava flow in Central Mexico

Intensity of the Earth's magnetic field in late Archean obtained from diabase dikes of the Slave province, Canada

Paleointensity studies of a lava succession from Jilin province, northeastern China: evidence for the Blake event

Further constraints fpr the Plio-Pleistocene geomagnetic field strength: New results from the Los Tuxtlas volcanic field (Mexico)

Goguitchaichvili, A., Alva-Valdivia, L., Urrutia Fucugauchi, J., Zesati, C., Caballero, C.

Paleomagnetic and paleointensity study of Oligocene volcanic rocks from Chihuahua (northern Mexico)

On the features of the geodynamo following reversals or excursions: by absolute geomagnetic paleointensity data

A rock-magnetic and paleointensity study of some Mexican volcanic lava flows during the Latest Pleistocene to the Holocene

Ravilly, M., Horen, H., Perrin, M., Dyment, J., Gente, P., Guillou, H.

NRM intensity of altered oceanic basalts across the MAR (21°N, 0-1.5 Ma): a record of geomagnetic palaeointensity variations ?

Paleomagnetism of late Archean rocks of Hamersley basin, western Australia and the paleointensity at early Proterozoic

High Geomagnetic Intensity during the mid-Cretaceous from Thellier ananlyses of single palgioclase crystals

Paleointensity determination on the Late Precambrian Tudor Gabbro, Ontario

Geomagnetic palaeointensity just prior to the Cretaceous normal superchron

Goguitchaichvili, A., Alva-Valdivia, L., Rosas Elguera, J., Urrutia Fucugauchi, J., Angel Cervantes, M., Morales, J.

Paleosecular variation record of geomagnetic full vector during late Miocene, from the Nayarit area, Mexico

Goguitchaichvili, A., Alva-Valdivia, L., Urrutia, J., Morales, J., Ferreira Lopes, O.

On the reliability of Mesozoic dipole low : new absolute paleointensity results from Parana flood basalts (Brazil)

10,1029/2002GL015242

Investigating Tertiary Australian lava from Barrington Tops, NSW Australia, unsing thermal and microwave techniques

Laj, C., Kissel, C., Scao, V., Beer, J., Thomas, D.M., Guillou, H., Muscheler, R.

Geomagnetic intensity and inclination variations at Hawaii for the past 98 kyr from core SOH-4 (Big Island): a new study and a comparison with existing contemporary data

A reversal of the Earth's magnetic field recorded in mid-Miocene lava flows of Gran Canaria

107, B11, 2299

10,1029/2001JB000949

Thellier palaeointensity experiments on Faroes flood basalts: technical aspects and geomagnetic implications

05/06/2023 document.xls - REF 10/122

REFNO AUTHORS YEAR TITLE JOURNAL VOL PAGES NOTE206 Shi, R., Zhu, R., Pan, Y., Shi, G. 2002 Geophys. Res. Lett.

203 Takai, A., Shibuya, H., Yoshihara, A., Hamano, Y. 2002 Phys. Earth Planet. Interiors 133 159-179

202 Tanaka, H., Kono, M. 2002 Phys. Earth Planet. Interiors 133 147-157

192 Teanby, N., Laj, C., Gubbins, D., Pringle, M. 2002 Phys. Earth Planet. Interiors 131 101-140

200 Yu, Y., Dunlop, D.J. 2002 Earth Planet. Sci. Letters 203 983-998

212 Zhu, R., Pan, Y., Shi, R. 2002 Sciences in China (Series D) 45 931-938

147 Böhnel, H., Biggin, A.J., Walton, D., Shaw, J., Share, J.A. 2003 Earth Planet. Sci. Letters 214 221-236

193 Carvallo, C., Camps, P., Ruffet, G., Henry, B,, Poidras, T. 2003 Geophys. J. Int. 154 767-782

194 Goguitchaichvili, A., Morales, J., Cañon-Tapia, E., Negrete, R 2003 J. Geophys. Res.


201 Plenier, G., Camps, P., Coe, R.S., Perrin, M. 2003 Geophys. J. Int. 154 877-890

204 Riisager, P., Riisager, J., Zhao, X., Coe, R.S. 2003 Geochem., Geophys., Geosyst, 4, 12, 8803

211 Smirnov, A.V., Tarduno, J.A. 2003 Earth Planet. Sci. Letters 206 571-585

198 Smirnov, A.V., Tarduno, J.A., Pisakin, B.N. 2003 Geology 31 415-418

207 Tanaka, H., Kobayashi, K. 2003 Earth Planets Space 55 189-202

210 Tauxe, L., Love, J.J. 2003 Geochem., Geophys., Geosyst, 4,2,8702

197 Zhu, R., Hoffman, K.A., Pan, Y., Shi, R., Li, D. 2003 Phys. Earth Planet. Interiors 136 187-199

214 2004 J. Geophys. Res.


Paleointensity study of Early Miocene lavas from Pingzhuang, Inner Mongolia, China

29, 21, 2026

10,1029/2002GL015990

Paleointensity measurements of pyroclastic flow deposits co-born with widespread tephras in Kyushu Island, Japan

Paleointensities from a Cretaceous basalt platform in Inner Mongolia, northeastern China,

A detailed palaeointensity and inclination record from drill core SOH1 on Hawaii

Multivectorial paleointensity determination from the Cordova Gabbro, southern Ontario

Paleointensity method (INTMTD = M)

New Cretaceous palaeointensity data and the constraints on geodynamics

Preliminary study - Detailled study in ref 182

Microwave palaeointensities from a recent Mexican lava flow, baked sediments and reheated pottery

Mono Lake or Laschamp geomagnetic event recorded from lava flows in Amsterdam Island (southeastern Indian Ocean)

Geomagnetic field strength during late Miocene : First paleointensity results from Baja California

108, B2, 2114

10,1029/2002JB002081

Macouin, M., Valet, J.P., Besse, J., Buchan, K., Ernst, R., LeGoff, M., Scharer, U.

Low paleointensities recorded in 1 to 2,4 Ga Proterozoic dykes, Superior Province, Canada

Absolute palaeointensity of Oligocene (28-30 Ma) lava flows from the Kerguelen Archipelago (southern Indian Ocean)

Cretaceous geomagnetic paleointensities: Thellier experiments on Pillow lavas and Submarine basaltic glass from the Ontong Java Plateau

10,1029/2003GC000611

Magnetic hysteresis monitoring of Cretaceous submarine basaltic glass during Thellier paleointensity experiments: evidence for alteration and attendant low field bias,

Paleointensity of the early geodynamo (2,45 Ga) as recorded in Karelia: a single-crystal approach

Paleomagnetism of the late Quaternary Ontake Volcano, Japan: directions, intensities, and excursions

Paleointensity in Hawaiian Scientific Drilling Project Hole (HSDP2): Results from submarine basaltic glass

10,1029/2001GC000276

Evidence for weak geomagnetic field intensity prior to the Cretaceous normal superchron

Goguitchaichvili, A., Alva-Valdivia, L., Rosas Elguera, J., Urrutia Fucugauchi, J., Sole, J.

Absolute geomagnetic paleointensity after the Cretaceous Normal Superchron and just prior to the Cretaceous-Tertiary transition

109(B01105)

10.1029/2003JB002477

Zhu, R., Hoffman, K.A., Nomade, S., Renne, P.R., Shi, R., Pan, Y., Shi, G.

Geomagnetic paleointensity and direct age determination of the ISEA (M0r?) chron

05/06/2023 document.xls - DATA 11/122

Directions Intensity RocksData Ref IDENT SLAT SLONG AGE DAGE AgeMtd Continent Country IntM P N INC DEC K A95 N F DF DF% VDM GROUP TYPE FORM ROCKMAG COMMENTS

1 1 Joshua Hotaka Yama 36.8 139.2 1.8 0.2 Ar/Ar Asia Japan T- R 9 -38.8 184.4 7.2 9 10.5 0.5 5 2.3 Volcanic Lava FlowNear magnetite grains with Tc around 560°C Matuyama reversed epoch

2 2 Aragats 41.0 45.0 1.0 1.0 Geologic timescale Europe Armenia T- N 6 57.0 356.0 6 39.0 10.0 26 6.9 Volcanic Near magnetite phase

3 2 Stepanavan 41.0 46.0 2.6 0.8 Geologic timescale Europe Armenia T- R 9 -49.0 173.0 9 45.0 7.0 16 5.7 Volcanic Near magnetite phase VDMc = 8.8 ?

4 3 Stillwater Complex 45.4 -110.0 3100.0 200.0 Combined North America U.S.A. T- O 9 -40.0 160.0 23 10.9 4 24.0 0.5 2 5.2 Plutonic Intrusion5 4 Anahola 05 22.3 -158.9 4.4 0.6 K/Ar Pacific Ocean Hawaii T+ T 6 -22.1 155.7 690 2.6 2 11.1 0.4 4 2.7 Volcanic Basalt6 4 Anahola 07 22.3 -158.9 4.4 0.6 K/Ar Pacific Ocean Hawaii T+ T 7 -16.5 154.9 140 5.1 3 10.1 0.3 3 2.5 Volcanic Basalt7 4 Anahola 16 22.3 -158.9 4.4 0.6 K/Ar Pacific Ocean Hawaii T+ T 7 64.7 47.5 253 3.8 3 21.7 3.6 17 3.5 Volcanic Basalt8 4 Kukui Trail 05 22.1 -159.4 4.4 0.6 K/Ar Pacific Ocean Hawaii T+ T 7 -40.3 170.3 3031 1.1 3 34.8 5.2 15 7.5 Volcanic Basalt9 4 Kukui Trail 09 22.1 -159.4 4.4 0.6 K/Ar Pacific Ocean Hawaii T+ T 7 -27.7 158.1 191 4.4 2 43.1 4.6 11 10.2 Volcanic Basalt10 4 Kukui Trail 13 22.1 -159.4 4.4 0.6 K/Ar Pacific Ocean Hawaii T+ T 7 -30.0 158.9 2504 1.2 3 30.1 0.4 1 7.0 Volcanic Basalt11 4 Kukui Trail 18 22.1 -159.4 4.4 0.6 K/Ar Pacific Ocean Hawaii T+ T 6 -29.8 163.6 468 3.1 3 29.2 2.2 8 6.8 Volcanic Basalt12 4 Kukui Trail 23 22.1 -159.4 4.4 0.6 K/Ar Pacific Ocean Hawaii T+ T 7 -20.4 191.0 159 4.8 3 21.8 1.4 6 5.4 Volcanic Basalt13 4 Kukui Trail 26 22.1 -159.4 4.4 0.6 K/Ar Pacific Ocean Hawaii T+ T 7 -16.6 192.3 364 3.2 4 29.3 2.1 7 7.3 Volcanic Basalt14 4 Kukui Trail 28 22.1 -159.4 4.4 0.6 K/Ar Pacific Ocean Hawaii T+ T 7 22.4 13.4 896 2.0 3 37.8 0.9 2 9.2 Volcanic Basalt15 4 Kukui Trail 29 22.1 -159.4 4.4 0.6 K/Ar Pacific Ocean Hawaii T+ T 6 27.2 13.4 2904 1.2 3 36.8 1.6 4 8.7 Volcanic Basalt16 4 Kukui Trail 30 22.1 -159.4 4.4 0.6 K/Ar Pacific Ocean Hawaii T+ T 7 33.3 2.1 3839 1.0 2 44.3 0.3 1 10.1 Volcanic Basalt17 4 Kukui Trail 32 22.1 -159.4 4.4 0.6 K/Ar Pacific Ocean Hawaii T+ T 6 32.0 359.5 2509 1.3 2 44.4 0.3 1 10.2 Volcanic Basalt18 5 Achadzhur 41.0 45.0 85.5 2.5 Geologic timescale Europe Armenia T- O 44 40.0 19.0 1.5 44 6.8 Volcanic Tuff Baked contact Fine grained hematite and magnetite

19 5 Achadzhur 41.0 45.0 87.0 1.0 Geologic timescale Europe Armenia T- O 4 6.6 Pebble Baked contact

20 5 Sarigyukh 41.0 45.0 85.0 1.0 Geologic timescale Europe Armenia S O 33 42.0 18.5 2.0 33 7.3 Volcanic Tuff Baked contactFine grained hematite and magnetite

21 6 425 41.0 45.0 85.5 2.5 Geologic timescale Europe Armenia T- O 4 34.0 40.0 4 7.2 Volcanic Lava FlowHigh temperature oxidized magnetite - microscopic




25 7 Nakhichevan 01 39.0 46.0 164.5 10.5 Geologic timescale Europe Azerbaijan T- O 3 23.1 1.0 4 Baked contact fine hematite and/or magnetite Non oriented samples

26 7 Nakhichevan 02 39.0 46.0 164.5 10.5 Geologic timescale Europe Azerbaijan T- O 1 15.4 Baked contact fine hematite and/or magnetite Non oriented samples





31 7 Nakhichevan 07 39.0 46.0 164.5 10.5 Geologic timescale Europe Azerbaijan T- O 5 14.4 1.5 10 Volcanic Tuff Baked contact fine hematite and/or magnetite Non oriented samples


33 7 Nakhichevan 09 39.0 46.0 164.5 10.5 Geologic timescale Europe Azerbaijan T- O 11 42.6 2.5 6 Volcanic Porphyrite Baked contact fine hematite and/or magnetite Non oriented samples





38 7 Nakhichevan 14 39.0 46.0 164.5 10.5 Geologic timescale Europe Azerbaijan T- O 4 10.3 Volcanic Tuff Baked contact fine hematite and/or magnetite Non oriented samples



41 7 Nakhichevan 17 39.0 46.0 164.5 10.5 Geologic timescale Europe Azerbaijan T- O 1 12.8 Volcanic Tuff Baked contact fine hematite and/or magnetite Non oriented samples









Data Ref IDENT SLAT SLONG AGE DAGE AgeMtd Continent Country IntM P N INC DEC K A95 N F DF DF% VDM GROUP TYPE FORM ROCKMAG COMMENTS



51 7 North Caucasus 01 44.0 42.0 187.5 3.5 Geologic timescale Europe Russia T- O 4 33.0 20.0 15.0 4 29.0 2.0 7 6.5 Volcanic Tuff Baked contact fine magnetite and hematite grains

52 7 North Caucasus 01r 44.0 42.0 193.5 9.5 Geologic timescale Europe Russia T- O 3 -50.0 152.0 14.0 4 18.0 1.0 6 3.4 Volcanic Porphyrite Baked contact

53 7 North Caucasus 02 44.0 42.0 187.5 3.5 Geologic timescale Europe Russia T- O 7 40.0 31.0 10.0 8 16.0 1.0 6 3.4 Sediment Sandstone Baked contact fine magnetite and hematite grains




57 7 North Caucasus 04 44.0 42.0 187.5 3.5 Geologic timescale Europe Russia T- O 4 55.0 16.0 7.5 5 24.0 3.0 12 4.3 Volcanic Porphyrite Baked contact fine magnetite and hematite grains

58 7 North Caucasus 04r 44.0 42.0 193.5 9.5 Geologic timescale Europe Russia T- O 28 -52.0 140.0 4.0 38 19.0 1.0 5 3.5 Baked contact




62 7 North Caucasus 08 44.0 42.0 187.5 3.5 Geologic timescale Europe Russia T- O 16 -56.0 192.0 2.5 16 35.0 1.0 3 6.2 Volcanic Tuff Baked contact fine magnetite and hematite grains

63 7 North Caucasus 09 44.0 42.0 187.5 3.5 Geologic timescale Europe Russia T- O 5 -51.0 182.0 9.0 3 36.0 1.0 3 6.8 Baked contact fine magnetite and hematite grains








71 7 North Caucasus 17 44.0 42.0 187.5 3.5 Geologic timescale Europe Russia T- O 8 -54.0 190.0 11.0 5 25.0 2.0 8 4.6 Volcanic Porphyrite Baked contact fine magnetite and hematite grains

72 7 North Caucasus 18 44.0 42.0 187.5 3.5 Geologic timescale Europe Russia T- O 5 -48.0 196.0 9.0 6 17.0 1.0 6 3.4 Volcanic Porphyrite Baked contact fine magnetite and hematite grains








80 7 North Caucasus 26 44.0 42.0 187.5 3.5 Geologic timescale Europe Russia T- O 6 -44.0 222.0 9.0 6 18.0 2.0 11 3.7 Sediment Sandstone Baked contact fine magnetite and hematite grains



83 7 Somkheto-Karabakh 01 41.0 45.5 162.0 2.0 Geologic timescale Europe Azerbaijan T- O 5 41.0 355.0 9.0 3 9.0 1.0 11 1.9 Volcanic Tuff Baked contact Magnetite

84 7 Somkheto-Karabakh 02 41.0 45.5 162.0 2.0 Geologic timescale Europe Azerbaijan T- O 2 43.0 354.0 3 10.0 1.0 10 2.0 Volcanic Tuff Baked contact Magnetite

85 7 Somkheto-Karabakh 03 41.0 45.5 162.0 2.0 Geologic timescale Europe Azerbaijan T- O 4 48.0 352.0 15.0 8 13.0 1.0 8 2.5 Baked contact Magnetite


87 7 Somkheto-Karabakh 05 41.0 45.5 162.0 2.0 Geologic timescale Europe Azerbaijan T- O 2 41.0 12.0 1 13.0 2.7 Volcanic Tuff Baked contact Magnetite

88 7 Somkheto-Karabakh 06 41.0 45.5 162.0 2.0 Geologic timescale Europe Azerbaijan T- O 1 51.0 13.0 1 11.0 2.0 Volcanic Tuff Baked contact Magnetite


90 7 Somkheto-Karabakh 08 41.0 45.5 167.0 3.0 Geologic timescale Europe Azerbaijan T- O 11 -39.0 174.0 2.0 21 11.0 1.0 9 2.4 Sediment Sandstone Baked contact Magnetite

91 7 Somkheto-Karabakh 09 41.0 45.5 167.0 3.0 Geologic timescale Europe Azerbaijan T- O 3 46.0 38.0 19.0 3 9.0 1.0 11 1.8 Sediment Sandstone Baked contact Magnetite

92 7 Somkheto-Karabakh 10 41.0 45.5 167.0 3.0 Geologic timescale Europe Azerbaijan T- O 2 48.0 24.0 2 12.0 1.0 8 2.4 Sediment Sandstone Baked contact Magnetite


94 7 Somkheto-Karabakh 12 41.0 45.5 167.0 3.0 Geologic timescale Europe Azerbaijan T- O 3 36.0 286.0 21.0 1 12.0 2.6 Sediment Sandstone Baked contact Magnetite






98 7 Somkheto-Karabakh 16 41.0 45.5 167.0 3.0 Geologic timescale Europe Azerbaijan T- O 7 39.0 358.0 8.0 15 10.0 1.0 10 2.1 Volcanic Porphyrite Baked contact Magnetite




102 7 Somkheto-Karabakh 20 41.0 45.5 167.0 3.0 Geologic timescale Europe Azerbaijan T- O 2 -47.0 142.0 2 12.0 1.0 8 2.4 Volcanic Porphyrite Baked contact Magnetite

103 7 Somkheto-Karabakh 21 41.0 45.5 167.0 3.0 Geologic timescale Europe Azerbaijan T- O 2 -50.0 220.0 2 10.0 1.0 10 1.9 Baked contact Magnetite




107 8 NCauc01 43.0 42.0 276.5 18.5 Geologic timescale Europe Russia T- R 2 -34.0 260.0 2 16.0 1.0 6 3.6 Volcanic Porphyrite Baked contact

108 8 NCauc02 43.0 42.0 276.5 18.5 Geologic timescale Europe Russia T- R 7 -24.0 252.0 5.0 5 16.0 1.0 6 3.9 Volcanic Porphyrite Baked contact


110 8 NCauc04 43.0 42.0 276.5 18.5 Geologic timescale Europe Russia T- R 6 -33.0 243.0 8.0 15 17.0 1.0 6 3.9 Volcanic Tuff Baked contact

111 8 NCauc05 43.0 42.0 276.5 18.5 Geologic timescale Europe Russia T- R 23 -34.0 250.0 5.0 27 20.0 1.0 5 4.5 Volcanic Tuff Baked contact





116 8 NCauc10 43.0 42.0 276.5 18.5 Geologic timescale Europe Russia T- R 7 -18.0 250.0 6.0 15 18.0 1.0 6 4.5 Volcanic Baked contact

117 8 NCauc11 43.0 42.0 276.5 18.5 Geologic timescale Europe Russia T- R 36 -33.0 250.0 3.0 30 15.0 1.0 7 3.4 Volcanic Baked contact

118 8 NCauc12 43.0 42.0 276.5 18.5 Geologic timescale Europe Russia T- R 24 -31.0 250.0 3.0 22 22.0 1.0 5 5.1 Baked contact






124 8 NCauc18 43.0 42.0 276.5 18.5 Geologic timescale Europe Russia T- R 2 -22.0 238.0 2 13.0 1.0 8 3.2 Volcanic Porphyrite Baked contact





129 8 NCauc23 43.0 42.0 276.5 18.5 Geologic timescale Europe Russia T- R 3 13.0 2.0 15 3.2 Volcanic Porphyrite Baked contact

130 8 Uzbek01 41.0 70.0 280.0 5.0 Radiometric age Asia Uzbekistan T- O 18 -44.0 150.0 5.0 11 35.0 1.0 3 7.2 Volcanic Tuff Baked contact

131 8 Uzbek02 41.0 70.0 280.0 5.0 Radiometric age Asia Uzbekistan T- O 14 -46.0 152.0 4.0 13 35.0 1.0 3 7.1 Volcanic Ignimbrite Lava Flow132 8 Uzbek03 41.0 70.0 280.0 5.0 Radiometric age Asia Uzbekistan T- O 18 -44.0 134.0 5.0 20 34.0 2.0 6 7.0 Volcanic Ignimbrite Lava Flow133 8 Uzbek04 41.0 70.0 280.0 5.0 Radiometric age Asia Uzbekistan T- O 11 -35.0 144.0 6.0 13 37.0 1.0 3 8.3 Volcanic Tuff Baked contact





138 9 Azerbaijan 40.0 47.0 25.0 5.0 Estimated age Europe Azerbaijan Z O 9 51.0 5.0 10 Volcanic139 9 Chegem 40.0 45.0 3.5 1.5 Estimated age Europe Armenia Z N 13 43.0 4.0 9140 9 Kuriin flow 41.0 44.0 0.4 0.4 Estimated age Europe Georgia W R 10 54.0 4.5 8 Volcanic Dolerite

141 10 1 40.0 45.0 1.0 1.0 Estimated age Europe Armenia T- N 61.0 357.0 9 49.0 2.0 4 8.7 Baked contact

142 10 2 40.0 45.0 1.0 1.0 Estimated age Europe Armenia T- R -62.0 174.5 3 45.0 1.0 2 7.8 Baked contact

143 11 Basargechar 40.2 45.7 1.0 1.0 Stratigraphic Europe Armenia T- N 61.0 357.0 9 49.0 2.0 4 8.3 Baked contact

144 11 Kamo 40.3 45.2 3.0 2.0 Stratigraphic Europe Armenia T- R -52.5 165.5 45 32.7 0.3 1 6.1 Baked contact

145 11 Karbi1 40.3 44.4 1.0 0.3 Stratigraphic Europe Armenia T- N 47.5 356.0 45 43.4 0.3 1 8.5 Baked contact age in Petrova et al., 1979

146 11 Karbi2 40.3 44.4 1.0 0.3 Stratigraphic Europe Armenia T- N 60.0 350.5 10 46.7 0.8 2 7.8 Baked contact Izv., Earth Phys., 15, 75-79



147 11 Malishka1 40.2 45.4 0.0 0.0 Stratigraphic Europe Armenia T- N 65.5 2.0 44 40.8 0.4 1 6.4 Baked contact

148 11 Malishka2 40.2 45.4 0.0 0.0 Stratigraphic Europe Armenia T- N 66.0 14.0 15 51.8 0.5 1 8.1 Baked contact

149 11 Manycharsk 40.3 45.2 2.3 0.6 Stratigraphic Europe Armenia T- R -62.0 198.0 29 33.8 0.3 1 5.6 Baked contact age in Petrova et al., 1979

150 11 Tsovak 40.7 45.2 1.4 0.3 Stratigraphic Europe Armenia T- R -62.0 174.5 30 45.0 1.0 2 7.4 Baked contact age in Petrova et al., 1979

151 15 Shampandin region B1 41.0 45.0 150.0 4.0 Geologic timescale Europe Armenia T- N 20 48.0 3.0 1.0 24 17.0 1.0 6 3.4 Baked contact

152 15 Shampandin region B2 41.0 45.0 150.0 4.0 Geologic timescale Europe Armenia T- R 29 -71.5 293.0 5.0 33 11.0 0.5 5 1.6 Baked contact






158 16 Paravakar 1 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 6 9.0 1.0 11 0.9 Volcanic Lava Flow159 16 Paravakar 3 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 4 22.0 1.5 7 4.4 Volcanic Lava Flow160 16 Paravakar 4 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 2 25.0 2.5 10 5.2 Volcanic Lava Flow161 16 Paravakar 5 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 8 45.0 19.0 5.0 13 25.5 1.5 6 4.6 Baked contact

162 16 Paravakar 6 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 16 45.0 6.5 3.5 18 24.5 0.5 2 4.9 Volcanic Lava Flow163 16 Paravakar 7 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 2 16.0 3.5 22 3.3 Volcanic Lava Flow164 16 Paravakar 9 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 9 46.0 5.0 10.0 18 18.0 3.6 Baked contact

165 16 Tovuz 01 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 3 23.0 0.5 2 4.5 Volcanic Lava Flow166 16 Tovuz 03 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 2 23.0 5.0 22 4.5 Volcanic Lava Flow167 16 Tovuz 04 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 2 23.0 1.5 7 4.5 Volcanic Lava Flow168 16 Tovuz 05 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 2 19.0 0.5 3 3.8 Volcanic Lava Flow169 16 Tovuz 06 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 14 47.0 33.0 3.0 23 19.0 0.5 3 4.0 Baked contact

170 16 Tovuz 07 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 26 40.0 42.0 1.5 37 23.0 0.2 1 4.8 Baked contact

171 16 Tovuz 08 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 1 22.0 4.3 Volcanic Lava Flow172 16 Tovuz 09 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 2 18.0 1.0 6 3.5 Volcanic Lava Flow173 16 Tovuz 10 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 2 20.0 1.0 5 3.9 Volcanic Lava Flow174 16 Tovuz 13 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 16 46.0 37.0 2.0 24 22.0 1.0 5 4.3 Baked contact



177 16 Tovuz 16 41.0 45.0 86.0 3.0 Geologic timescale Europe Armenia T- O 6 28.0 0.5 2 5.5 Baked contact

178 17 Artaminian 1 41.0 45.0 126.0 4.0 Geologic timescale Europe Armenia T- O 5 34.0 7.0 3.0 5 8.0 2.0 25 1.8 Baked contact




182 17 Artaminian 5 41.0 45.0 126.0 4.0 Geologic timescale Europe Armenia T- O 4 -34.0 170.0 2.0 4 8.0 3.0 38 1.8 Baked contact

183 17 Kafan 01 39.0 46.0 150.0 4.0 Geologic timescale Europe Armenia T- O 5 -45.0 197.0 10.0 4 13.0 2.0 15 2.6 Baked contact





188 17 Kafan 06 39.0 46.0 147.5 6.5 Geologic timescale Europe Armenia T- T 7 -41.0 266.0 16.0 7 9.0 1.0 11 1.8 Baked contact













199 17 Kafan 17 39.0 46.0 143.5 2.5 Geologic timescale Europe Armenia T- O 7 41.0 7.0 6 9.0 1.0 11 2.0 Baked contact

200 17 Kafan 18 39.0 46.0 143.5 2.5 Geologic timescale Europe Armenia T- O 17 38.0 24.5 3.5 18 15.0 1.0 7 3.4 Baked contact




204 17 Kafan 22 39.0 46.0 143.5 2.5 Geologic timescale Europe Armenia T- T 4 40.0 74.0 25.0 7 5.0 1.0 20 1.0 Baked contact




208 17 Kafan 26 39.0 46.0 123.0 7.0 Geologic timescale Europe Armenia T- O 20.0 1.0 5 4.3 Baked contact

209 17 Kafan 27 39.0 46.0 123.0 7.0 Geologic timescale Europe Armenia T- O 1 -46.0 210.0 4 20.0 2.0 10 4.1 Baked contact




213 18 Aden 12.8 45.0 2.5 2.5 Estimated age Middle East Yemen W O 24.0 353.0 2740 2.7 0 16.3 2.6 16 2.2 Volcanic VDMc = 3.9

214 18 Ferrar -75.0 60.0 158.0 8.0 Geologic timescale Antarctica Antarctica W O 19.7 0.6 3 3.1 Volcanic Dolerite

215 18 Lower Kuttung -33.0 148.0 340.0 20.0 Geologic timescale Australia Australia W O 4.5 5.4 120 0.6 Volcanic216 18 Lower Marine Series -33.0 148.0 272.0 14.0 Geologic timescale Australia Australia W O 31.0 22.4 72 3.2 Volcanic Andesite

217 18 Mt Dromedary -33.0 148.0 94.0 5.0 Geologic timescale Australia Australia W O 24.0 25.6 107 2.4218 18 Nethercote -33.0 148.0 367.0 7.0 Geologic timescale Australia Australia W O 0.5 0.8 160 0.1 Volcanic Basalt219 18 Paterson -33.0 148.0 314.5 18.5 Geologic timescale Australia Australia W O 6.5 4.3 66 0.7220 18 Red Hill -42.0 147.0 174.0 5.0 Geologic timescale Australia Tasmania W O 37.7 26.3 70 4.3 Plutonic Granophyre

221 19 Mugga Mugga porphyry -35.1 149.4 407.5 20.5 Geologic timescale Australia Australia T- O 17 -40.0 16.0 43 5.5 26 9.6 0.7 7 2.3 Plutonic Intrusion222 20 Brezno 50.4 13.4 1.0 1.0 Stratigraphic Europe Czechia T- N 58.0 6.0 2 23.3 3.3 14 4.1 Sediment Porcellanite

223 20 Dolany 50.4 13.4 0.5 0.5 Stratigraphic Europe Czechia T- N 51.0 22.0 7 66.6 3.3 5 12.7 Sediment Porcellanite

224 20 Hosnice 50.4 13.4 1.0 1.0 Stratigraphic Europe Czechia T- N 61.0 6.0 3 19.3 4.6 24 3.3 Sediment Porcellanite

225 20 Kolozulky 50.4 13.4 1.0 1.0 Stratigraphic Europe Czechia T- N 68.0 293.0 1 49.9 7.7 Sediment Porcellanite

226 20 Nechranice 50.4 13.4 0.5 0.5 Stratigraphic Europe Czechia T- N 48.0 7.0 3 62.9 2.4 4 12.4 Sediment Porcellanite

227 20 Necichy 50.4 13.4 1.0 1.0 Stratigraphic Europe Czechia T- N 71.0 355.0 1 27.6 4.1 Sediment Porcellanite

228 20 Sabenice 50.4 13.4 1.0 1.0 Stratigraphic Europe Czechia T- N 47.0 345.0 3 38.2 0.3 1 7.6 Sediment Porcellanite

229 20 Tuchomysl 50.4 13.4 0.5 0.5 Stratigraphic Europe Czechia T- N 55.0 298.0 3 50.0 8.6 17 9.1 Sediment Porcellanite

230 20 Tusimice 50.4 13.4 1.0 1.0 Stratigraphic Europe Czechia T- N 64.0 6.0 2 39.9 2.1 5 6.5 Sediment Porcellanite

231 20 Velno 50.4 13.4 1.0 1.0 Stratigraphic Europe Czechia T- R -50.0 198.0 26 37.3 9.3 25 7.2 Sediment Porcellanite

232 20 Zabrusnay 50.4 13.4 1.0 1.0 Stratigraphic Europe Czechia T- N 52.0 22.0 3 50.8 3.9 8 9.6 Sediment Porcellanite

233 20 Zelesky 50.4 13.4 1.0 1.0 Stratigraphic Europe Czechia T- N 61.0 15.0 3 42.5 4.3 10 7.2 Sediment Porcellanite

234 23 332-B-37-2 37.0 -34.0 3.5 1.5 Stratigraphic Atlantic Ocean Z R -40.0 1 26.0 2.0 8 5.9 Volcanic Basalt235 23 335-6-1 37.0 -34.0 13.5 3.0 Stratigraphic Atlantic Ocean Z O -70.0 1 36.5 3.5 10 8.3 Volcanic Basalt236 24 Louchadiere 45.9 2.9 0.0 0.0 K/Ar Europe France T+ T 31 58.2 114.1 130 6.7 10 12.9 3.3 26 2.2 Volcanic Lava Flow237 25 BKB -17.7 -149.7 1.1 0.1 K/Ar Pacific Ocean Society Islands T+ T 10.6 181.7 2 27.9 0.8 3 7.1 Volcanic Lava Flow238 25 BKI -17.7 -149.7 1.1 0.1 K/Ar Pacific Ocean Society Islands T+ T -40.3 160.0 4 7.9 0.9 11 1.7 Volcanic Lava Flow239 25 BKK -17.7 -149.7 1.1 0.1 K/Ar Pacific Ocean Society Islands T+ T -5.7 221.3 2 6.5 3.7 57 1.7 Volcanic Lava Flow240 25 BKP -17.7 -149.7 1.1 0.1 K/Ar Pacific Ocean Society Islands T+ T 28.7 348.1 4 8.1 1.0 12 1.9 Volcanic Lava Flow241 25 BKT1 -17.7 -149.7 1.1 0.1 K/Ar Pacific Ocean Society Islands T+ T 45.8 358.7 1 4.0 0.2 5 0.8 Volcanic Lava Flow242 25 CA -17.7 -149.7 1.0 0.1 K/Ar Pacific Ocean Society Islands T+ T -29.7 10.6 1 54.3 2.4 4 12.7 Volcanic Lava Flow243 25 M2C -17.7 -149.7 1.0 0.1 K/Ar Pacific Ocean Society Islands T+ T 58.0 213.5 2 2.6 0.1 4 0.5 Volcanic Lava Flow244 25 PKC -17.7 -149.7 1.1 0.1 K/Ar Pacific Ocean Society Islands T+ T 6.4 220.8 3 6.3 0.2 3 1.6 Volcanic Lava Flow



245 25 R1N -17.7 -149.7 0.8 0.2 K/Ar Pacific Ocean Society Islands T+ T 33.3 178.2 2 37.7 1.6 4 8.6 Volcanic Lava Flow246 25 R1U -17.7 -149.7 0.8 0.2 K/Ar Pacific Ocean Society Islands T+ T 7.3 224.5 2 3.4 0.2 6 0.9 Volcanic Lava Flow247 25 TR-TS -17.7 -149.7 0.7 0.1 K/Ar Pacific Ocean Society Islands T+ T 0.2 230.2 3 3.6 0.3 8 0.9 Volcanic Lava Flow248 26 RA01 -21.0 55.5 0.1 0.0 K/Ar Indian Ocean La Reunion T+ N 3 -45.2 7.8 68 15.0 2 36.4 4.5 12 7.4 Volcanic Lava Flow249 26 RA02 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 3 -48.5 1.5 249 7.8 1 32.8 1.1 3 6.5 Volcanic Lava Flow250 26 RA03 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 3 -43.4 1.3 116 11.5 5 31.9 6.3 20 6.6 Volcanic Lava Flow251 26 RA04 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 4 -64.8 352.0 136 7.9 2 55.0 6.6 12 8.8 Volcanic Lava Flow252 26 RA05 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 3 -63.9 353.1 25 25.2 3 54.2 9.5 18 8.8 Volcanic Lava Flow253 26 RA06 -21.0 55.5 0.1 0.0 K/Ar Indian Ocean La Reunion T+ N 3 -61.0 343.7 220 8.3 4 47.9 6.9 14 8.1 Volcanic Lava Flow254 26 RA07 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 6 -57.8 350.9 203 4.7 3 45.3 3.2 7 8.0 Volcanic Lava Flow255 26 RA09 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 5 -58.1 348.8 358 4.0 4 44.0 5.1 12 7.7 Volcanic Lava Flow256 26 RA10 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 4 -47.9 5.6 18 22.6 2 36.1 7.1 20 7.2 Volcanic Lava Flow257 26 RA11 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 6 -52.6 3.4 161 5.3 2 29.4 0.8 3 5.5 Volcanic Lava Flow258 26 RA13 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 5 -43.9 335.9 549 3.3 2 30.6 1.1 4 6.3 Volcanic Lava Flow259 26 RA15 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 6 -38.4 335.1 159 5.3 2 19.0 6.6 35 4.1 Volcanic Lava Flow260 26 RA17 -21.0 55.5 0.1 0.0 K/Ar Indian Ocean La Reunion T+ N 6 -44.0 351.9 194 4.8 3 47.8 8.2 17 9.9 Volcanic Lava Flow261 26 RB01 -21.0 55.5 0.0 Carbon 14 Indian Ocean La Reunion T+ N 6 -40.9 1.1 209 4.6 3 37.2 0.5 1 7.9 Volcanic Basalt Lava Flow262 26 RB02 -21.0 55.5 0.0 Interpolated ages Indian Ocean La Reunion T+ N 5 -41.4 0.8 151 6.3 5 46.4 6.7 14 9.8 Volcanic Basalt Lava Flow263 26 RB03 -21.0 55.5 0.0 Interpolated ages Indian Ocean La Reunion T+ N 5 -33.2 358.7 140 6.5 3 34.2 5.9 17 7.8 Volcanic Basalt Lava Flow264 26 RB03' -21.0 55.5 0.0 Interpolated ages Indian Ocean La Reunion T+ N 5 -38.4 357.9 919 2.5 3 34.5 2.2 6 7.5 Volcanic Basalt Lava Flow265 26 RB04 -21.0 55.5 0.0 Interpolated ages Indian Ocean La Reunion T+ N 6 -34.8 356.0 407 3.3 3 33.9 6.7 18 7.6 Volcanic Basalt Lava Flow266 26 RB08 -21.0 55.5 0.0 0.0 K/Ar Indian Ocean La Reunion T+ N 5 -43.8 6.7 88 8.2 1 42.6 0.4 1 8.8 Volcanic Basalt Lava Flow267 26 RB09 -21.0 55.5 0.0 Interpolated ages Indian Ocean La Reunion T+ N 5 -42.5 4.7 73 9.0 3 37.4 7.3 20 7.8 Volcanic Basalt Lava Flow268 26 RB10 -21.0 55.5 0.0 Interpolated ages Indian Ocean La Reunion T+ N 5 -50.0 350.0 118 5.8 3 44.4 3.4 8 8.6 Volcanic Basalt Lava Flow269 26 RB11 -21.0 55.5 0.0 Interpolated ages Indian Ocean La Reunion T+ N 5 -53.5 352.6 263 4.7 3 41.2 7.7 19 7.6 Volcanic Basalt Lava Flow270 26 RB12 -21.0 55.5 0.0 Interpolated ages Indian Ocean La Reunion T+ N 5 -54.3 347.7 141 6.5 4 43.1 9.3 22 7.9 Volcanic Basalt Lava Flow271 27 Alturas 41.5 -120.6 2.5 2.5 Geologic timescale North America U.S.A. T- R -48.0 204.0 2 43.0 6.0 14 8.5 Volcanic Basalt272 27 Alturas 41.5 -120.6 2.5 2.5 Geologic timescale North America U.S.A. T- R -48.0 204.0 6 35.0 1.0 3 6.9 Sediment Baked contact

273 27 Alturas NE 41.5 -120.6 7.2 0.3 K/Ar North America U.S.A. T- T -5.0 354.0 6 15.3 0.7 5 3.9 Sediment Baked contact

274 27 Alturas NE 41.5 -120.6 7.2 0.3 K/Ar North America U.S.A. T- N -5.0 354.0 6 14.0 3.0 21 3.6 Volcanic Basalt275 27 Crater Lake 43.0 -122.5 0.0 0.0 Radiometric age North America U.S.A. T- N 65.0 355.0 5 43.0 7.0 16 6.9 Volcanic Scoria276 27 Crater Lake 43.0 -122.5 1.0 1.0 Geologic timescale North America U.S.A. T- N 63.0 0.0 2 18.0 1.0 6 3.0 Volcanic Andesite

277 27 Devil Homestead 41.9 -121.2 0.0 0.0 Geologic timescale North America U.S.A. T- N 62.0 19.0 3 56.0 7.0 12 9.3 Volcanic Basalt278 27 Hat Creek 41.9 -121.2 0.0 0.0 Geologic timescale North America U.S.A. T- N 60.0 3.0 6 22.3 0.9 4 3.8 Volcanic Basalt279 27 Hippo Butte 41.9 -121.2 0.0 0.0 Geologic timescale North America U.S.A. T- N 58.0 345.0 4 46.0 4.0 9 8.1 Volcanic Scoria280 27 Sacramento 41.1 -121.4 1.0 1.0 Geologic timescale North America U.S.A. T- N 59.0 335.0 3 28.0 2.0 7 4.9 Volcanic Basalt281 27 Schonchin Butte 41.9 -121.2 0.0 0.0 Geologic timescale North America U.S.A. T- N 55.0 350.0 7 46.0 8.0 17 8.4 Volcanic Scoria282 27 Skull Cave 41.7 -121.5 1.0 0.5 Geologic timescale North America U.S.A. T- N 51.0 347.0 7 36.0 4.0 11 6.9 Volcanic Basalt283 27 Steens 47.6 118.6 15.1 1.0 Estimated age North America U.S.A. T- T -20.0 200.0 2 11.0 2.0 18 2.7 Volcanic Basalt284 27 Warner 41.9 -121.6 2.0 1.0 Geologic timescale North America U.S.A. T- N 65.0 325.0 3 36.0 5.0 14 5.8 Volcanic Basalt285 28 D27 21.4 -158.1 3.0 0.4 K/Ar Pacific Ocean Hawaii T+ T -14.2 182.4 4 23.0 9.0 39 5.8 Volcanic Lava Flow286 28 D28 21.4 -158.1 3.0 0.4 K/Ar Pacific Ocean Hawaii T+ T -14.0 182.4 4 41.0 5.0 12 10.4 Volcanic Lava Flow287 28 D35 21.4 -158.1 3.0 0.4 K/Ar Pacific Ocean Hawaii T+ T 3.9 183.1 8 7.0 1.0 14 1.8 Volcanic Lava Flow288 28 D38 21.4 -158.1 3.0 0.4 K/Ar Pacific Ocean Hawaii T+ T 2.4 181.6 1 8.0 2.1 Volcanic Lava Flow289 28 F69 21.4 -158.1 1.9 0.1 K/Ar Pacific Ocean Hawaii T+ T -23.5 170.5 2 21.0 8.0 38 5.1 Volcanic Lava Flow290 28 F71 21.4 -158.1 1.9 0.1 K/Ar Pacific Ocean Hawaii T+ T -48.6 173.5 2 50.0 3.0 6 9.8 Volcanic Lava Flow291 28 F72 21.4 -158.1 1.9 0.1 K/Ar Pacific Ocean Hawaii T+ T -79.4 189.3 3 41.0 3.0 7 5.6 Volcanic Lava Flow292 28 N1 21.4 -158.1 3.6 0.1 K/Ar Pacific Ocean Hawaii T+ T -32.7 37.3 2 9.0 0.2 2 2.1 Volcanic Lava Flow293 28 N2 21.4 -158.1 3.6 0.1 K/Ar Pacific Ocean Hawaii T+ T 6.5 6.6 3 23.0 5.0 22 5.9 Volcanic Lava Flow



294 28 N3 21.4 -158.1 3.6 0.1 K/Ar Pacific Ocean Hawaii T+ T 34.3 356.5 1 40.0 9.0 Volcanic Lava Flow295 28 N4 21.4 -158.1 3.6 0.1 K/Ar Pacific Ocean Hawaii T+ T 35.5 358.4 3 20.0 8.0 40 4.5 Volcanic Lava Flow296 28 O42 21.4 -158.1 3.0 0.4 K/Ar Pacific Ocean Hawaii T+ T -45.5 177.8 6 21.0 2.0 10 4.3 Volcanic Lava Flow297 29 East Mtn - Holyoke 42.2 -73.7 182.5 12.5 Combined North America U.S.A. T- O 5 -6.8 12.3 739 2.3 6 43.5 7.3 17 11.3 Volcanic Basalt298 29 Mt.Hook - Palisades 41.1 -73.9 182.5 12.5 Combined North America U.S.A. T- O 11 20.9 354.8 476 1.9 11 37.9 7.1 19 9.4 Plutonic Sill299 30 Ashchisay 48.5 58.5 384.0 24.0 Geologic timescale Asia Russia SW O 29.0 129.0 15 5.7 8.0 6.0 75 1.9 Plutonic Gabbro300 30 Bachtybay 48.5 58.5 384.0 24.0 Geologic timescale Asia Russia SW O 48.0 329.0 11 12.2 4.0 2.0 50 0.8 Plutonic Gabbro301 30 Berchogur 48.5 58.5 384.0 4.0 Geologic timescale Asia Russia SW O 28.0 186.0 45 9.0 5.5 1.5 27 1.3 Baked contact

302 30 Karaksak 48.5 58.5 384.0 4.0 Geologic timescale Asia Russia SW O 27.0 60.0 75 7.2 8.0 5.0 62 1.9 Baked contact

303 30 Medes 48.5 58.5 497.0 9.0 Geologic timescale Asia Russia SW O 48.0 155.0 29 16.1 16.7 1.2 7 3.3 Baked contact

304 30 Shuldak Dangilek 48.5 58.5 384.0 4.0 Geologic timescale Asia Russia SW O 30.0 99.0 583 5.1 7.1 1.1 15 1.6 Plutonic Gabbro305 31 332B-11 36.9 -33.6 3.5 0.3 Stratigraphic Atlantic Ocean T- O 1 10.0 10.0 100 Volcanic Basalt306 31 332B-22 36.9 -33.6 3.5 0.3 Stratigraphic Atlantic Ocean T- O 1 35.0 8.0 23 Volcanic Basalt307 31 332B-27 36.9 -33.6 3.5 0.3 Stratigraphic Atlantic Ocean T- O 1 45.0 8.0 18 Volcanic Basalt308 31 332B-33 36.9 -33.6 3.5 0.3 Stratigraphic Atlantic Ocean T- O 1 12.0 2.0 17 Volcanic Basalt309 31 335-10 37.3 -35.2 13.5 3.0 Stratigraphic Atlantic Ocean T- O -67.0 1 30.0 20.0 67 4.7 Volcanic Basalt VDMc310 32 07D-2 3.2 -83.0 0.1 0.1 Stratigraphic Atlantic Ocean T+ O 2 31.5 2.5 8 Volcanic Basalt311 32 104B -19.8 66.1 0.1 0.1 Stratigraphic Atlantic Ocean T+ O 1 50.0 Volcanic Basalt312 32 12:4 46.1 -130.0 0.6 0.1 Stratigraphic Atlantic Ocean T+ O 1 19.0 Volcanic Basalt313 32 17D-2 0.8 -86.1 0.1 0.1 Stratigraphic Atlantic Ocean T+ O 1 43.0 Volcanic Basalt314 32 26:3 15.3 -104.6 0.1 0.1 Stratigraphic Atlantic Ocean T+ O 2 42.5 1.5 4 Volcanic Basalt315 32 93 -12.4 65.9 0.1 0.1 Stratigraphic Atlantic Ocean T+ O 2 46.5 2.5 5 Volcanic Basalt316 33 Komati -26.0 31.1 3455.0 35.0 Ar/Ar Africa South Africa T- O 7 81.0 326.0 60 8.0 4 20.0 3.0 15 2.7 Volcanic Lava Flow VDMc317 34 Heard Island -53.0 73.5 1.0 1.0 Estimated age Indian Ocean Kerguelen Z N 9 -62.0 353.0 42 8.0 11 43.1 37.8 88 7.2 Igneous318 35 Abitibi 48.5 -78.0 1825.0 K/Ar North America Canada T- O 1 5.7 Plutonic Gabbro319 35 Matachewan 48.5 -81.0 2485.0 K/Ar North America Canada T- O 1 9.3 Metamorphic Amphibolite

320 35 Muskox 66.5 -115.5 1150.0 K/Ar North America Canada T- O 1 7.5 Plutonic Gabbro321 35 Skrainka 37.5 -90.5 1300.0 100.0 Rb/Sr North America U.S.A. T- O 1 6.5322 36 00 Frankenstein 50.0 10.0 28.0 8.0 Estimated age Europe Germany ONR O 1 17.0 Volcanic Basalt323 36 01 Baveno 42.0 14.0 242.0 50.0 Estimated age Europe Italy ONR O 1 7.7 Plutonic Granite324 36 01 Niederobfleiden 50.0 10.0 18.0 6.0 Estimated age Europe Germany ONR O 1 42.1 Volcanic Basalt325 36 02 Duchroth, Pflatz 50.0 10.0 227.0 50.0 Estimated age Europe Germany ONR O 1 8.5 Metamorphic Amphibolite

326 36 02. Hornberg 50.0 10.0 15.0 5.0 Estimated age Europe Germany ONR O 1 18.7 Volcanic Basalt327 36 03. Eifel 50.0 10.0 7.0 2.0 Estimated age Europe Germany ONR O 1 19.1 Volcanic Basalt328 36 04. Eifel 50.0 10.0 3.0 1.0 Estimated age Europe Germany ONR O 1 42.9 Volcanic Basalt329 36 05. Eifel 50.0 10.0 6.0 2.0 Estimated age Europe Germany ONR O 1 43.8 Volcanic Basalt330 36 06. Kassel 50.0 10.0 14.0 4.0 Estimated age Europe Germany ONR O 1 7.2 Volcanic Basalt331 36 07. Biltstein 50.0 10.0 27.0 7.0 Estimated age Europe Germany ONR O 1 6.4 Volcanic Basalt332 36 08. Oberramstadt 50.0 10.0 37.0 12.0 Estimated age Europe Germany ONR O 1 4.7 Volcanic Basalt333 36 10. Goldberg 50.0 10.0 44.0 14.0 Estimated age Europe Germany ONR O 1 9.4 Volcanic Basalt334 36 12. West Elk Mtn 20.0 -100.0 2.0 1.0 Estimated age North America Mexico ONR O 1 42.1 Volcanic335 36 13. Andes -10.0 -75.0 65.0 30.0 Estimated age South America Peru ONR O 1 27.2 Plutonic Granodiorite

336 36 14. West Elk Mtn 40.0 -100.0 59.0 24.0 Estimated age North America U.S.A. ONR O 1 19.6 Volcanic Andesite

337 36 15. West Elk Mtn 40.0 -100.0 56.0 23.0 Estimated age North America U.S.A. ONR O 1 41.7 Volcanic Andesite

338 36 16. Loch Kilchrist 55.0 0.0 22.0 7.0 Estimated age Europe United Kingdom ONR O 1 30.2 Plutonic Granite339 36 17. Bergwell 47.0 8.0 12.0 4.0 Estimated age Europe Switzerland ONR O 1 41.7 Plutonic Granite340 36 18. Monte Capanna 42.0 14.0 48.0 16.0 Estimated age Europe Italy ONR O 1 40.8 Plutonic Granite341 36 18. Monte Capanna 42.0 14.0 16.0 5.0 Estimated age Europe Italy ONR O 1 42.1 Plutonic Granite342 36 20. Bunzlau 50.0 10.0 215.0 50.0 Estimated age Europe Germany ONR O 1 1.3 Volcanic Porphyrite



343 36 22. Neubrohna 50.0 10.0 251.0 50.0 Estimated age Europe Germany ONR O 1 9.4 Volcanic Diabase

344 36 23. Bautzen 50.0 10.0 251.0 50.0 Estimated age Europe Germany ONR O 1 0.8 Volcanic Diabase

345 36 24. Brohna 50.0 10.0 249.0 50.0 Estimated age Europe Germany ONR O 1 5.1 Plutonic Granite346 36 25. Hartz 50.0 10.0 245.0 50.0 Estimated age Europe Germany ONR O 1 11.0 Plutonic Granite347 37 Oak Creek 839 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- R -64.0 216.0 1 39.5 6.4 Volcanic Lava Flow348 37 Oak Creek 842 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- R -62.0 182.0 1 70.5 11.7 Volcanic Lava Flow349 37 Oak Creek 843 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- R -31.0 176.0 1 39.5 6.9 Volcanic Lava Flow VDMc = 9.1 ?

350 37 Rio Grande 818 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- R -65.0 200.0 1 64.5 10.3 Volcanic Lava Flow351 37 Rio Grande 820 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- R -50.0 203.0 1 61.0 11.8 Volcanic Lava Flow352 37 Rio Grande 820A 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- R -50.0 165.0 1 51.5 10.0 Volcanic Lava Flow353 37 Rio Grande 821 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- R -48.0 169.0 1 41.5 8.2 Volcanic Lava Flow354 37 Rio Grande 822 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- R -46.0 161.0 1 82.0 16.6 Volcanic Lava Flow355 37 Rio Grande 824 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- R -48.0 163.0 1 50.0 9.9 Volcanic Lava Flow356 37 Rio Grande 825 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- R -63.0 214.0 1 60.0 9.9 Volcanic Lava Flow357 37 Rio Grande 826 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- R -43.0 188.0 1 36.5 7.6 Volcanic Lava Flow358 37 Rio Grande 827 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- R -44.0 178.0 1 68.0 14.0 Volcanic Lava Flow359 37 Rio Grande 829 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- N 44.0 350.0 1 35.0 7.2 Volcanic Lava Flow360 37 Rio Grande 830 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- N 38.0 19.0 1 51.5 11.2 Volcanic Lava Flow361 37 Rio Grande 831 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- N 55.0 28.0 1 36.0 6.6 Volcanic Lava Flow362 37 Rio Grande 832 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- R -67.0 166.0 1 61.0 9.5 Volcanic Lava Flow363 37 Walnut Canyon 840 35.2 -111.6 4.1 0.4 Geologic timescale North America U.S.A. T- R -37.0 187.0 1 49.0 9.2 Volcanic Lava Flow VDMc = 10.8

364 38 UV06 35.0 139.0 0.9 0.1 Geomagnetic polarity timescale Asia Japan T- R -69.3 139.3 1 37.0 5.5 Volcanic Lava FlowDating: Kaneoka et al., 1970, JGG, 22, 559-516.

365 38 UV07 35.0 139.0 0.9 0.1 Geomagnetic polarity timescale Asia Japan T- R -53.7 152.5 3 73.0 7.0 10 13.5 Volcanic Lava FlowDating: Kaneoka et al., 1970, JGG, 22, 559-516.




369 38 UV11 35.0 139.1 1.0 0.0 Geomagnetic polarity timescale Asia Japan T- N 62.6 342.7 1 51.5 8.5 Volcanic Lava FlowDating: Kaneoka et al., 1970, JGG, 22, 559-516.






375 39 HN04 35.0 139.0 0.3 0.3 Stratigraphic Asia Japan T- N 56.0 314.7 1 71.0 12.8 Volcanic Lava Flow376 39 HN07 35.0 139.0 0.3 0.3 Stratigraphic Asia Japan T- N 71.2 344.8 1 108.0 16.0 Volcanic Lava Flow377 39 HN08 35.0 139.0 0.3 0.3 Stratigraphic Asia Japan T- N 56.7 4.9 1 77.0 13.7 Volcanic Lava Flow378 39 HN09 35.0 139.0 0.3 0.3 Stratigraphic Asia Japan T- N 51.9 356.7 2 99.0 18.7 Volcanic Lava Flow379 39 HN12 35.0 139.0 0.3 0.3 Stratigraphic Asia Japan T- N 50.5 359.6 2 130.0 24.9 Volcanic Lava Flow380 39 HN19 35.0 139.0 0.3 0.3 Stratigraphic Asia Japan T- N 57.7 357.1 2 89.0 15.6 Volcanic Lava Flow381 39 HN20 35.0 139.0 0.3 0.3 Stratigraphic Asia Japan T- N 55.5 3.8 1 80.0 14.4 Volcanic Lava Flow382 39 HN26 35.0 139.0 0.3 0.3 Stratigraphic Asia Japan T- N 51.2 348.8 1 60.0 11.5 Volcanic Lava Flow383 39 KM21 33.2 130.0 8.5 1.5 K/Ar Asia Japan T- T 8 -3.5 175.6 18.0 2 6.0 1.5 Volcanic Basalt384 39 KM23 33.2 130.0 8.5 1.5 K/Ar Asia Japan T- O 5 27.2 175.1 13.6 2 35.0 8.3 Volcanic Basalt385 39 KM52 33.2 130.0 8.5 1.5 K/Ar Asia Japan T- O 4 -46.9 180.5 8.2 2 44.0 8.8 Volcanic Basalt386 39 KM53 33.2 130.0 8.5 1.5 K/Ar Asia Japan T- O 5 -50.4 188.7 5.3 1 55.0 10.6 Volcanic Basalt387 39 ML 35.0 139.0 0.0 0.0 Carbon 14 Asia Japan T- N 46.6 357.5 47 4.9 4 44.0 3.0 7 8.8 Volcanic Lava Flow no information age determination was given in ref. 103

388 40 Deccan Amboli S2 17.9 75.7 65.0 0.5 Combined Asia India T- R 13 52.8 197.2 3.7 1 44.8 8.4 Volcanic Lava Flow389 40 MA002 17.9 75.7 65.0 0.5 Combined Asia India T- R 7 30.3 152.3 3.9 2 53.1 2.0 4 12.4 Volcanic Lava Flow390 40 MAG 17.9 75.7 65.0 0.5 Combined Asia India T- R 7 53.3 188.7 8.1 1 41.4 7.7 Volcanic Lava Flow391 40 MAI 17.9 75.7 65.0 0.5 Combined Asia India T- R 7 62.2 160.4 8.3 2 39.2 0.4 1 6.5 Volcanic Lava Flow



392 40 MAJ 17.9 75.7 65.0 0.5 Combined Asia India T- R 4 45.7 124.3 2.8 2 39.9 1.5 4 8.1 Volcanic Lava Flow393 40 MAM 17.9 75.7 65.0 0.5 Combined Asia India T- R 7 61.8 148.7 4.2 2 38.0 1.1 3 6.3 Volcanic Lava Flow394 40 MAW 17.9 75.7 65.0 0.5 Combined Asia India T- R 7 19.7 163.3 2.6 2 38.2 1.5 4 9.4 Volcanic Lava Flow395 40 MAZ5 17.9 75.7 65.0 0.5 Combined Asia India T- T 7 -68.9 290.0 2.8 2 18.4 1.6 9 2.8 Volcanic Lava Flow396 40 MAZ6 17.9 75.7 65.0 0.5 Combined Asia India T- T 7 -64.2 292.6 4.2 2 17.9 0.3 2 2.9 Volcanic Lava Flow397 41 SC04 56.4 -3.3 384.0 24.0 Geologic timescale Europe United Kingdom T- T 4 13.6 86.7 79 7.9 2 16.5 0.2 1 4.2 Volcanic Lava Flow398 41 SC05 56.4 -3.3 384.0 24.0 Geologic timescale Europe United Kingdom T- T 6 10.2 68.8 118 5.3 2 8.2 1.1 13 2.1 Volcanic Lava Flow399 41 SC06 56.4 -3.3 384.0 24.0 Geologic timescale Europe United Kingdom T- N 6 -7.9 65.6 35 9.6 2 8.6 1.6 19 2.2 Volcanic Lava Flow400 41 SC07 56.4 -3.3 384.0 24.0 Geologic timescale Europe United Kingdom T- R 6 39.4 200.5 100 5.7 1 18.1 3.9 Volcanic Lava Flow401 41 SC08 56.4 -3.2 384.0 24.0 Geologic timescale Europe United Kingdom T- T 5 42.7 84.7 61 8.0 3 9.1 1.5 16 1.9 Volcanic Lava Flow402 41 SC09 56.4 -3.2 384.0 24.0 Geologic timescale Europe United Kingdom T- T 6 -2.3 183.1 611 2.3 2 40.8 5.7 14 10.5 Volcanic Lava Flow403 41 SC11 56.5 -3.3 384.0 24.0 Geologic timescale Europe United Kingdom T- R 5 56.8 176.8 177 4.7 1 6.5 1.2 Volcanic Lava Flow404 41 SC12 56.5 -3.2 384.0 24.0 Geologic timescale Europe United Kingdom T- N 6 -18.0 46.5 260 3.5 3 10.9 1.9 17 2.7 Volcanic Lava Flow405 42 Nintoku 432A-1 41.3 170.4 56.2 0.6 K/Ar Pacific Ocean S O -65.2 1 19.0 1.0 5 3.0 Volcanic Basalt406 42 Nintoku 432A-2 41.3 170.4 56.2 0.6 K/Ar Pacific Ocean S O -66.4 1 123.0 5.0 4 19.3 Volcanic Basalt407 42 Nintoku 432A-3 41.3 170.4 56.2 0.6 K/Ar Pacific Ocean S O -28.6 1 36.0 2.0 6 8.4 Volcanic Basalt408 42 Ojin 430A-2 38.0 170.6 55.2 0.7 K/Ar Pacific Ocean ST O -17.4 2 94.0 13.0 14 23.5 Volcanic Basalt409 42 Ojin 430A-3 38.0 170.6 55.2 0.7 K/Ar Pacific Ocean T- O -22.4 1 81.0 4.0 5 19.6 Volcanic Basalt410 42 Suiko 433C08 44.8 170.0 64.7 1.1 K/Ar Pacific Ocean S O -53.0 1 14.0 1.0 7 2.5 Volcanic Basalt411 42 Suiko 433C11A 44.8 170.0 64.7 1.1 K/Ar Pacific Ocean T- O -33.4 1 50.0 5.0 10 11.4 Volcanic Basalt412 42 Suiko 433C20 44.8 170.0 64.7 1.1 K/Ar Pacific Ocean T- O -40.1 1 33.0 2.0 6 7.0 Volcanic Basalt413 42 Suiko 433C25 44.8 170.0 64.7 1.1 K/Ar Pacific Ocean T- O -49.6 1 51.0 3.0 6 9.9 Volcanic Basalt414 42 Suiko 433C48 44.8 170.0 64.7 1.1 K/Ar Pacific Ocean T- O -44.1 1 39.0 1.0 3 8.0 Volcanic Basalt415 42 Suiko 433C52 44.8 170.0 64.7 1.1 K/Ar Pacific Ocean T- O -13.6 1 133.0 9.0 7 33.6 Volcanic Basalt416 42 Suiko 433C64 44.8 170.0 64.7 1.1 K/Ar Pacific Ocean T- O -68.1 1 73.0 7.0 10 11.3 Volcanic Basalt417 43 San Juan 01 37.8 -106.4 34.0 1.0 K/Ar North America U.S.A. T- O 8 23.9 4.5 6 26.0 4 16.1 2.9 18 3.9 Volcanic Rhyolite

418 43 San Juan 04 37.4 -106.3 29.8 1.0 K/Ar North America U.S.A. T- O 8 37.1 325.4 211 3.8 1 11.7 2.6 Volcanic Rhyolite

419 43 San Juan 08 37.7 -106.3 27.3 0.6 K/Ar North America U.S.A. T- O 8 -59.2 142.9 1110 1.7 1 47.8 8.3 Volcanic Rhyolite

420 43 San Juan 11 37.9 -107.1 26.5 0.2 K/Ar North America U.S.A. T- O 9 69.8 348.8 597 2.1 2 33.9 4.4 13 5.1 Volcanic Rhyolite


422 43 San Juan 13 37.8 -106.8 26.4 1.0 K/Ar North America U.S.A. T- O 7 53.4 331.9 206 4.2 1 42.6 7.9 Volcanic Rhyolite

423 43 San Juan 15 37.7 -107.3 28.0 0.2 K/Ar North America U.S.A. T- O 8 -25.6 250.1 127 4.9 1 4.8 1.1 Volcanic Rhyolite


425 44 Brezno 50.4 13.4 2.5 2.5 Estimated age Europe Czechia T- N 55.4 352.6 9 34.0 4.5 13 6.2 Sediment Porcellanite

426 44 Svinci. 50.4 13.4 2.5 2.5 Estimated age Europe Czechia T- N 62.0 347.0 10 71.4 8.2 11 11.9 Sediment Porcellanite

427 44 Tusimi. 50.4 13.4 2.5 2.5 Estimated age Europe Czechia T- N 76.2 339.5 17 69.9 8.3 12 9.8 Sediment Porcellanite

428 44 Vtelno 50.4 13.4 2.5 2.5 Estimated age Europe Czechia T- R -60.1 209.1 20 40.4 5.9 15 6.9 Sediment Porcellanite

429 45 Horni 50.1 12.8 300.0 60.0 Geologic timescale Europe Czechia T- O 2 55.0 6.0 11 Plutonic Granite430 45 Hyncice 50.6 16.3 273.0 15.0 Geologic timescale Europe Czechia T- O -3.0 192.0 8 50.0 3.0 6 12.9 Volcanic Ignimbrite

431 46 A34 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 3 5.1 0.1 2 Volcanic Lava Flow432 46 A35 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 5 5.8 0.5 9 Volcanic Lava Flow433 46 A38 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 5 12.7 0.4 3 Volcanic Lava Flow434 46 B07 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 2 4.2 0.2 5 Volcanic Lava Flow435 46 B09 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 5 2.8 0.6 21 Volcanic Lava Flow436 46 B10 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 6 5.3 0.2 4 Volcanic Lava Flow437 46 B11 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 4 5.2 0.4 8 Volcanic Lava Flow438 46 B23 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 1 2.2 Volcanic Lava Flow439 46 B24 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 3 3.7 0.3 8 Volcanic Lava Flow440 46 C13 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 2 9.0 1.6 18 Volcanic Lava Flow



441 46 C23 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 5 8.4 1.0 12 Volcanic Lava Flow442 46 C26 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 1 2.2 Volcanic Lava Flow443 46 D51 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 2 1.4 0.2 14 Volcanic Lava Flow444 46 D61 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 1 2.5 Volcanic Lava Flow445 46 J58 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 1 8.2 Volcanic Lava Flow446 46 J59 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 1 7.9 Volcanic Lava Flow447 46 K31A 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 3 2.6 0.6 23 Volcanic Lava Flow448 46 L04 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 5 8.7 1.6 18 Volcanic Lava Flow449 46 L05 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 3 12.2 0.4 3 Volcanic Lava Flow450 46 L06 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 4 10.6 1.3 12 Volcanic Lava Flow451 46 L53 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 2 5.9 0.1 2 Volcanic Lava Flow452 46 M10 65.2 -15.1 13.3 11.3 Geologic timescale Atlantic Ocean Iceland Z T 1 2.9 Volcanic Lava Flow453 47 Skalamaelifell 63.9 -22.2 0.0 0.0 Stratigraphic Atlantic Ocean Iceland T+ T -15.0 258.0 8 4.2 0.2 5 1.1 Volcanic Lava Flow454 48 Normal 63.9 -22.2 0.0 0.0 Stratigraphic Atlantic Ocean Iceland T+ N 69.0 31.0 10 34.0 9.5 28 5.2 Volcanic Lava Flow455 48 Skalam 63.9 -22.2 0.0 0.0 Stratigraphic Atlantic Ocean Iceland T+ T -22.0 262.0 6 4.1 0.6 15 1.0 Volcanic Lava Flow456 49 Modipe gabbro -24.7 26.2 2630.0 470.0 Geologic timescale Africa Botswana Z O 85.0 154.5 11 93.8 9.4 10 12.3 Plutonic Gabbro457 50 Carpathia 502 49.0 24.0 15.0 1.0 Geologic timescale Europe Russia T- O -51.0 177.0 1 9.0 Igneous458 50 Carpathia 510 49.0 24.0 11.3 1.0 Geologic timescale Europe Russia T- O 1 5.7 Igneous459 50 Carpathia 517 49.0 24.0 11.6 0.3 Geologic timescale Europe Russia T- O 74.0 18.0 1 9.2 Igneous460 50 Carpathia 521 49.0 24.0 9.2 1.0 Geologic timescale Europe Russia T- O 58.0 4.0 1 4.7 Igneous461 50 Carpathia 522 49.0 24.0 9.2 1.0 Geologic timescale Europe Russia T- O 56.0 12.0 1 4.9 Igneous462 50 Carpathia 550 49.0 24.0 11.7 1.0 Geologic timescale Europe Russia T- O 61.0 331.0 1 8.4 Igneous463 50 Carpathia 552 49.0 24.0 9.2 1.0 Geologic timescale Europe Russia T- O 65.0 355.0 1 2.5 Igneous464 50 Carpathia 564 49.0 24.0 14.8 0.3 Geologic timescale Europe Russia T- O 35.0 14.0 1 13.3 Igneous465 50 Carpathia 566 49.0 24.0 11.5 1.0 Geologic timescale Europe Russia T- O 49.0 322.0 1 8.2 Igneous466 50 Carpathia 573 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 57.0 18.0 1 5.5 Igneous467 50 Carpathia 580 49.0 24.0 12.2 0.1 Geologic timescale Europe Russia T- O -69.0 220.0 1 6.8 Igneous468 50 Carpathia 582 49.0 24.0 16.6 1.0 Geologic timescale Europe Russia T- O -59.0 179.0 1 8.4 Igneous469 50 Carpathia 585 49.0 24.0 16.6 1.0 Geologic timescale Europe Russia T- O -66.0 193.0 1 10.1 Igneous470 50 Carpathia 586 49.0 24.0 15.0 1.0 Geologic timescale Europe Russia T- O 35.0 14.0 1 10.9 Igneous471 50 Carpathia 597 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 68.0 336.0 1 11.2 Igneous472 50 Carpathia 602 49.0 24.0 12.0 1.0 Geologic timescale Europe Russia T- O 54.0 357.0 1 17.3 Igneous473 50 Carpathia 606 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 48.0 9.0 1 10.5 Igneous474 50 Carpathia 615 49.0 24.0 13.0 0.8 Geologic timescale Europe Russia T- O -60.0 204.0 1 14.1 Igneous475 50 Carpathia 616 49.0 24.0 11.6 0.3 Geologic timescale Europe Russia T- O 72.0 70.0 1 6.5 Igneous476 50 Carpathia 621 49.0 24.0 13.0 0.8 Geologic timescale Europe Russia T- O -34.0 175.0 1 6.5 Igneous477 50 Carpathia 627 49.0 24.0 14.5 1.0 Geologic timescale Europe Russia T- O -70.0 165.0 1 6.3 Igneous478 50 Carpathia 628 49.0 24.0 11.6 0.3 Geologic timescale Europe Russia T- O 56.0 18.0 1 8.4 Igneous479 50 Carpathia 644 49.0 24.0 13.0 0.8 Geologic timescale Europe Russia T- O -59.0 173.0 1 8.7 Igneous480 50 Carpathia 649 49.0 24.0 10.2 1.0 Geologic timescale Europe Russia T- O 66.0 351.0 1 7.1 Igneous481 50 Carpathia 669 49.0 24.0 13.0 0.8 Geologic timescale Europe Russia T- O 1 7.6 Igneous482 50 Carpathia 708 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 75.0 344.0 1 3.0 Igneous483 50 Carpathia 717 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 68.0 14.0 1 7.9 Igneous484 50 Carpathia 769 49.0 24.0 14.8 0.3 Geologic timescale Europe Russia T- O -65.0 217.0 1 8.2 Igneous485 50 Carpathia 786 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 75.0 313.0 1 3.3 Igneous486 50 Carpathia 810 49.0 24.0 13.0 0.8 Geologic timescale Europe Russia T- O 57.0 343.0 1 7.9 Igneous487 50 Carpathia 820 49.0 24.0 13.0 0.8 Geologic timescale Europe Russia T- O -60.0 223.0 1 5.5 Igneous488 50 Carpathia 837 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 72.0 4.0 1 18.8 Igneous489 50 Carpathia 840 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 1 14.1 Igneous



490 50 Carpathia 847 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 56.0 24.0 1 6.8 Igneous491 50 Carpathia 851 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 72.0 4.0 1 18.8 Igneous492 50 Carpathia 853 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 78.0 306.0 1 15.5 Igneous493 50 Carpathia 856 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 1 4.3 Igneous494 50 Carpathia 863 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 59.0 15.0 1 4.1 Igneous495 50 Carpathia 896 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 49.0 353.0 1 4.1 Igneous496 50 Carpathia 898 49.0 24.0 9.2 1.0 Geologic timescale Europe Russia T- O 1 4.1 Igneous497 50 Carpathia 906 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 62.0 2.0 1 14.9 Igneous498 50 Carpathia 913 49.0 24.0 12.1 0.1 Geologic timescale Europe Russia T- O 69.0 34.0 1 15.4 Igneous499 50 Carpathia 949 49.0 24.0 13.0 0.8 Geologic timescale Europe Russia T- O 1 7.1 Igneous500 50 Carpathia 950 49.0 24.0 13.0 0.8 Geologic timescale Europe Russia T- O 1 7.9 Igneous501 50 Carpathia 997 49.0 24.0 13.8 1.0 Geologic timescale Europe Russia T- O 1 7.7 Igneous502 51 Akefuji13 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR T -22.0 266.0 0 11.7 2.9 Volcanic503 51 Akefuji14 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR T -68.0 291.0 0 15.8 2.4 Volcanic504 51 Akefuji16 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR N 55.0 18.0 0 27.5 5.0 Volcanic505 51 Fukazawa8 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR N 64.0 13.0 0 36.0 5.8 Volcanic506 51 Fukazawa9 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR N 61.0 19.0 0 33.8 5.7 Volcanic507 51 Funayama 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR N 63.0 355.0 0 16.6 2.7 Volcanic508 51 Hanareyama2 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -36.0 205.0 0 55.4 12.3 Volcanic509 51 Higashizawa6 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR T 14.0 281.0 0 7.4 2.5 34 1.9 Volcanic510 51 Hiraidezawa10 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR T -24.0 287.0 0 11.7 0.9 8 2.8 Volcanic511 51 IizunaA 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR N 45.0 355.0 0 71.6 14.6 Volcanic512 51 IizunaB 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR N 46.0 359.0 0 38.2 7.7 Volcanic513 51 Kamisoyama6 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -24.0 230.0 0 14.4 3.5 Volcanic514 51 Kawashimo11 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR T 27.0 283.0 0 6.8 1.6 Volcanic515 51 Kawashimo12 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR N 50.0 290.0 0 9.0 1.7 Volcanic516 51 Kuroiwa3 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -34.0 167.0 0 29.7 6.7 Volcanic517 51 KwI 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -30.0 200.0 0 28.8 6.7 Volcanic518 51 KwIIIa1 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -38.0 200.0 0 20.8 4.6 Volcanic519 51 KwIIIa2 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -35.0 200.0 0 28.9 6.5 Volcanic520 51 KwIIIb 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -42.0 168.0 0 32.7 6.9 Volcanic521 51 KwIV 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -27.0 141.0 0 12.7 3.0 Volcanic522 51 KwV 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -44.0 180.0 0 23.2 4.8 Volcanic523 51 Machi8 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR T -46.0 271.0 0 20.0 2.5 12 4.1 Volcanic524 51 MiI 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -19.0 168.0 0 33.8 8.4 Volcanic525 51 Miyanoshita5 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR T -52.0 286.0 0 8.3 3.8 46 1.6 Volcanic526 51 Muginagoro 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR N 63.0 350.0 0 30.6 5.0 Volcanic527 51 Nakanochi1 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -42.0 164.0 0 22.9 4.8 Volcanic528 51 Okkayo15 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR N 64.0 20.0 0 25.2 4.1 Volcanic529 51 Omine 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -60.0 180.0 0 49.5 8.5 Volcanic530 51 Oya7 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR T -22.0 296.0 0 7.4 0.7 9 1.8 Volcanic531 51 Sehayagawa3 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -45.0 207.0 0 28.8 5.9 Volcanic532 51 Sehayagawa4 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR T -63.0 258.0 0 18.0 0.4 2 3.0 Volcanic533 51 Seto02 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR T -10.0 157.0 0 19.4 4.9 Volcanic534 51 Seto04 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR T -16.0 158.0 0 18.0 4.5 Volcanic535 51 Seto05 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -60.0 137.0 0 31.5 5.4 Volcanic536 51 Seto19 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR N 68.0 23.0 0 29.2 4.5 Volcanic537 51 Setouchibashi22 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR N 76.0 348.0 0 22.5 3.2 Volcanic538 51 Tachinoki Seto 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR N 77.0 351.0 0 24.3 3.4 Volcanic



539 51 Takaosan 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR N 64.0 19.0 0 38.7 6.3 Volcanic540 51 Tsubone17 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR N 66.0 10.0 0 9.0 1.4 Volcanic541 51 UtIa 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -29.0 142.0 0 35.5 8.3 Volcanic542 51 UtIb 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -27.0 157.0 0 18.5 4.4 Volcanic543 51 WaIa 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -49.0 166.0 0 34.2 6.7 Volcanic544 51 WaIb 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -38.0 184.0 0 41.4 9.1 Volcanic545 51 WaII 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR T 53.0 209.0 0 5.1 0.9 Volcanic546 51 WaIII 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR T -2.0 180.0 0 9.8 2.5 Volcanic547 51 Warigatake 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR N 52.0 356.6 0 41.4 7.8 Volcanic548 51 Watado7 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR T -49.0 263.0 0 16.9 0.2 1 3.3 Volcanic549 51 WaV 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -41.0 185.0 0 38.7 8.2 Volcanic550 51 WaVII 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -62.0 196.0 0 22.5 3.8 Volcanic551 51 Yasuhara1 36.0 138.0 3.5 1.5 Stratigraphic Asia Japan ONR R -47.0 205.0 0 63.9 31.0 49 12.8 Volcanic552 52 Kanto basalt 35.0 139.0 1.0 1.0 Estimated age Asia Japan ONR O 11 32.0 5.5 Volcanic553 53 EM7 29.0 -117.5 42.0 5.0 Estimated age Pacific Ocean T- O 1 44.2 9.6 Volcanic Basalt554 53 EPDR-9 21.1 -119.4 5.0 5.0 Estimated age Pacific Ocean T- O 1 36.8 6.7 Volcanic Basalt555 53 WPDR-1 38.0 146.0 72.0 3.0 K/Ar Pacific Ocean T- O 1 59.8 13.6 Volcanic Basalt556 53 WPDR-5 28.4 148.2 72.0 3.0 Estimated age Pacific Ocean T- O 1 7.4 1.7 Volcanic Basalt557 53 WPDR-7 27.0 148.6 92.0 5.0 Estimated age Pacific Ocean T- O 1 34.0 7.8 Volcanic Basalt558 54 Baraga county R18 46.5 -88.5 1100.0 100.0 Geologic timescale North America U.S.A. T- R -50.2 1 75.0 14.5 Plutonic Dyke VDMc559 54 Baraga county R19 46.5 -88.5 1100.0 100.0 Geologic timescale North America U.S.A. T- R -45.7 1 44.0 8.9 Plutonic Dyke VDMc560 54 Clark Island N67 48.2 -88.7 1100.0 100.0 Geologic timescale North America U.S.A. T- N 79.6 1 25.0 3.4 Plutonic Dyke VDMc561 54 Copper Harbor NCG 47.4 -88.0 1100.0 100.0 Geologic timescale North America U.S.A. T- N 78.8 6 49.0 17.0 35 6.7 Volcanic Mixed Baked contact VDMc562 54 Fluor Island NOS 48.7 -88.0 1100.0 100.0 Geologic timescale North America U.S.A. T- N 77.0 2 77.0 23.0 30 10.7 Volcanic Lava Flow VDMc563 54 Fluor Island ROS 48.7 -88.0 1100.0 100.0 Geologic timescale North America U.S.A. T- R -63.3 2 104.0 35.0 34 17.0 Volcanic Lava Flow VDMc564 54 Loon Lake R43 48.6 -88.7 1100.0 100.0 Geologic timescale North America U.S.A. T- R -70.6 1 32.0 4.8 Baked contact VDMc565 54 Marquette county R02 46.5 -87.8 1100.0 100.0 Geologic timescale North America U.S.A. T- R -48.1 1 55.0 10.9 Plutonic Dyke VDMc566 54 Red Rock R46 48.9 -88.3 1100.0 100.0 Geologic timescale North America U.S.A. T- R -43.0 4 45.0 3.0 7 9.4 Baked contact VDMc567 54 Rossport N68 48.8 -87.6 1100.0 100.0 Geologic timescale North America U.S.A. T- N 79.3 1 58.0 7.9 Baked contact VDMc568 54 Rossport R40 48.8 -87.6 1100.0 100.0 Geologic timescale North America U.S.A. T- R -54.5 6 64.0 4.0 6 11.7 Plutonic Mixed VDMc569 54 Shangoina Island N66 48.1 -89.1 1100.0 100.0 Geologic timescale North America U.S.A. T- N 69.4 1 26.0 3.9 Plutonic Dyke VDMc570 54 Stewart Lake R44 48.8 -88.6 1100.0 100.0 Geologic timescale North America U.S.A. T- R -56.2 5 70.0 25.0 36 12.6 Baked contact VDMc571 54 Sybley peninsula N56 48.2 -88.8 1100.0 100.0 Geologic timescale North America U.S.A. T- N 84.0 2 44.0 5.8 Plutonic Dyke VDMc572 54 Sybley peninsula N58 48.2 -88.8 1100.0 100.0 Geologic timescale North America U.S.A. T- N 88.2 1 37.0 4.8 Plutonic Dyke VDMc573 54 Sybley peninsula N59 48.2 -88.8 1100.0 100.0 Geologic timescale North America U.S.A. T- N 84.9 4 50.0 5.0 10 6.5 Plutonic Mixed VDMc574 54 Sybley peninsula N65 48.2 -88.8 1100.0 100.0 Geologic timescale North America U.S.A. T- N 81.5 1 38.0 5.1 Plutonic Dyke VDMc575 54 Sybley peninsula R24 48.2 -88.8 1100.0 100.0 Geologic timescale North America U.S.A. T- R -59.4 1 51.0 8.8 Plutonic Dyke VDMc576 54 Sybley peninsula R28 48.2 -88.8 1100.0 100.0 Geologic timescale North America U.S.A. T- R -64.0 2 55.0 10.0 18 8.9 Plutonic Mixed VDMc577 54 Sybley peninsula R31 48.2 -88.8 1100.0 100.0 Geologic timescale North America U.S.A. T- R -54.2 4 74.5 16.3 22 13.7 Baked contact VDMc578 54 Sybley peninsula R41 48.2 -88.8 1100.0 100.0 Geologic timescale North America U.S.A. T- R -64.5 6 70.0 16.1 23 11.3 Plutonic Mixed VDMc579 55 Group I 36.9 -33.3 0.0 0.0 Fission track Atlantic Ocean T+ O 5 64.2 20.5 32 11.5 Volcanic Basalt Pillow VADM580 56 Adel 52 42.2 -119.9 15.5 0.3 K/Ar North America U.S.A. T+ R 8 -63.0 151.0 1.1 2 29.2 6.3 21 4.8 Volcanic Lava Flow581 56 Adel 53 42.2 -119.9 15.5 0.3 K/Ar North America U.S.A. T+ R 4 -68.5 157.4 2.3 1 22.3 3.4 Volcanic Lava Flow VDMc582 56 Adel 54 42.2 -119.9 15.5 0.3 K/Ar North America U.S.A. T+ R 4 -61.8 161.8 3.8 3 30.0 3.0 10 5.0 Volcanic Lava Flow583 56 Adel 55 42.2 -119.9 15.5 0.3 K/Ar North America U.S.A. T+ R 4 -58.5 155.7 4.7 1 22.5 3.9 Volcanic Lava Flow VDMc584 56 Steens Mountain 04 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ N 15 66.8 1.6 669 1.5 5 44.5 3.3 7 7.0 Volcanic Lava Flow585 56 Steens Mountain 05 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ N 6 65.0 337.5 353 2.0 3 52.8 1.2 2 8.5 Volcanic Lava Flow586 56 Steens Mountain 07 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ N 8 55.1 11.6 544 2.4 3 77.4 11.4 15 14.1 Volcanic Lava Flow587 56 Steens Mountain 08 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ N 8 52.7 358.0 693 2.1 1 61.4 11.6 Volcanic Lava Flow



588 56 Steens Mountain 10 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ N 20 58.0 347.5 214 2.2 4 24.3 4.1 15 4.3 Volcanic Lava Flow589 56 Steens Mountain 11-1 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ N 7 56.8 0.6 2.4 3 65.9 6.6 10 11.8 Volcanic Lava Flow590 56 Steens Mountain 11-2 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ N 5 57.2 2.2 2.3 2 21.7 0.7 3 3.9 Volcanic Lava Flow591 56 Steens Mountain 11-3 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ N 5 59.2 357.7 2.7 3 40.6 2.0 5 7.0 Volcanic Lava Flow592 56 Steens Mountain 12 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ N 5 59.7 353.8 416 3.8 3 31.6 1.9 6 5.4 Volcanic Lava Flow593 56 Steens Mountain 13-1 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ N 14 77.0 333.4 1.9 2 44.3 10.2 24 6.2 Volcanic Lava Flow594 56 Steens Mountain 13-2 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ N 24 77.4 325.6 1.4 7 83.2 6.1 8 11.5 Volcanic Lava Flow595 56 Steens Mountain 13-3 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ N 14 77.8 317.7 1.8 6 29.7 2.7 9 4.1 Volcanic Lava Flow596 56 Steens Mountain 14 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ N 7 63.7 23.3 175 4.6 1 30.2 4.9 Volcanic Lava Flow VDMc597 56 Steens Mountain 15 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 6 37.5 31.6 239 4.3 1 16.4 3.6 Volcanic Lava Flow VDMc598 56 Steens Mountain 16-1 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 6 15.9 40.4 3.1 3 10.0 0.9 8 2.5 Volcanic Lava Flow599 56 Steens Mountain 16-2 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 8 13.4 38.0 3.9 3 20.5 2.0 10 5.2 Volcanic Lava Flow600 56 Steens Mountain 18 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 5 -16.5 58.7 702 2.9 1 7.5 0.2 3 1.9 Volcanic Lava Flow601 56 Steens Mountain 19 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 13 -22.7 60.0 742 1.5 2 6.0 1.5 Volcanic Lava Flow VDMc602 56 Steens Mountain 20 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 7 -27.6 64.4 248 3.8 1 13.7 3.3 Volcanic Lava Flow VDMc603 56 Steens Mountain 21-1 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 8 36.6 140.0 4.1 2 13.5 0.7 5 3.0 Volcanic Lava Flow604 56 Steens Mountain 21-2 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 9 38.6 140.8 3.7 2 7.1 2.1 24 1.5 Volcanic Lava Flow605 56 Steens Mountain 21-3 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 3 36.0 137.0 2 4.5 0.2 5 1.0 Volcanic Lava Flow606 56 Steens Mountain 22 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 8 62.4 267.0 18 13.3 1 7.6 1.3 Volcanic Lava Flow VDMc607 56 Steens Mountain 23 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 8 52.6 270.5 39 8.9 3 6.8 0.6 9 1.3 Volcanic Lava Flow608 56 Steens Mountain 24-1 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 8 51.7 272.3 2.6 2 7.6 1.4 18 1.5 Volcanic Lava Flow609 56 Steens Mountain 24-2 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 8 47.4 273.8 2.8 2 10.7 2.1 21 2.1 Volcanic Lava Flow610 56 Steens Mountain 25 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 9 55.5 275.7 155 4.1 1 5.3 1.0 Volcanic Lava Flow VDMc611 56 Steens Mountain 26 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 16 58.7 281.5 230 2.4 4 6.3 0.9 12 1.1 Volcanic Lava Flow612 56 Steens Mountain 28-1 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 4 53.5 304.5 3.8 3 9.4 1.5 17 1.8 Volcanic Lava Flow613 56 Steens Mountain 28-2 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 20 51.5 302.2 2.1 6 13.4 1.6 11 2.6 Volcanic Lava Flow614 56 Steens Mountain 28-3 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 5 53.9 299.6 4.1 2 28.6 4.7 17 5.3 Volcanic Lava Flow615 56 Steens Mountain 29-1 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 6 58.2 341.4 3.7 2 28.6 5.5 21 5.0 Volcanic Lava Flow616 56 Steens Mountain 29-2 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 17 57.2 340.0 8.5 3 17.6 1.5 9 3.1 Volcanic Lava Flow617 56 Steens Mountain 31 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 7 29.1 142.4 117 4.4 2 5.5 1.9 33 1.3 Volcanic Lava Flow618 56 Steens Mountain 33 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 9 36.2 133.9 169 3.6 3 5.3 1.3 21 1.2 Volcanic Lava Flow619 56 Steens Mountain 35 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 6 11.3 135.5 194 3.6 4 18.1 3.1 15 4.6 Volcanic Lava Flow620 56 Steens Mountain 36 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 8 10.3 155.4 56 7.5 1 14.7 3.8 Volcanic Lava Flow VDMc621 56 Steens Mountain 39 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 10 -8.1 184.5 265 3.0 2 14.2 2.4 17 3.7 Volcanic Lava Flow622 56 Steens Mountain 40 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 7 -11.8 184.7 369 3.2 1 16.2 4.1 Volcanic Lava Flow VDMc623 56 Steens Mountain 41 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 6 -16.2 183.8 564 2.8 3 14.4 0.8 6 3.6 Volcanic Lava Flow624 56 Steens Mountain 43 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ T 39 -47.9 219.5 122 2.2 10 19.5 2.2 10 3.9 Volcanic Lava Flow625 56 Steens Mountain 45 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ R 17 -62.6 111.6 404 1.7 4 30.2 2.2 7 5.0 Volcanic Lava Flow626 56 Steens Mountain 46 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ R 50 -66.1 164.2 159 1.4 15 31.3 1.8 6 5.0 Volcanic Lava Flow627 56 Steens Mountain 47 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ R 6 -51.6 172.9 313 3.1 2 38.7 2.1 5 7.4 Volcanic Lava Flow628 56 Steens Mountain 48 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ R 7 -69.7 212.8 173 4.6 1 23.9 3.6 Volcanic Lava Flow VDMc629 56 Steens Mountain 49 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ R 31 -74.0 230.0 179 1.2 8 36.3 1.3 4 5.2 Volcanic Lava Flow630 56 Steens Mountain 51 42.6 -118.6 15.5 0.3 K/Ar North America U.S.A. T+ R 6 -44.3 190.3 306 3.8 3 50.1 0.8 2 10.4 Volcanic Lava Flow631 59 Chatal-Tepe 43.3 25.3 3.5 1.5 Estimated age Europe Bulgaria Z N 61.0 360.0 4 48.0 8.1 Volcanic Basalt632 59 Chervena 43.3 25.3 3.5 1.5 Estimated age Europe Bulgaria Z N 38.0 310.0 5 31.0 6.8 Volcanic Basalt633 59 Daygov 43.3 25.3 3.5 1.5 Estimated age Europe Bulgaria Z N 64.0 340.0 4 34.0 5.5 Volcanic Basalt634 59 Kosmatitsa 43.2 25.2 3.5 1.5 Estimated age Europe Bulgaria Z N 66.0 325.0 5 26.0 4.1 Volcanic Basalt635 59 Ovchi-Kholm 43.4 25.3 3.5 1.5 Estimated age Europe Bulgaria Z N 50.0 12.0 5 26.0 5.0 Volcanic Basalt636 59 Slomerska 43.3 25.3 3.5 1.5 Estimated age Europe Bulgaria Z N 59.0 328.0 5 30.0 5.2 Volcanic Basalt VDMc



637 59 Tashladzhika 43.4 25.3 3.5 1.5 Estimated age Europe Bulgaria Z N 37.0 358.0 5 27.0 6.0 Volcanic Basalt638 59 Varanska 43.3 25.3 3.5 1.5 Estimated age Europe Bulgaria Z R -63.0 180.0 6 35.0 5.8 Volcanic Basalt639 60 Decan 1 19.0 73.3 60.0 5.0 Stratigraphic Asia India W R 1 30.2 Plutonic Dyke640 60 Decan 2 22.5 78.4 58.8 1.6 K/Ar Asia India W N 1 21.0 Plutonic Dyke641 60 Decan 3 22.5 78.4 56.7 1.5 K/Ar Asia India W R 1 10.1 Plutonic Dyke642 60 Decan JI 16.0 74.1 60.0 5.0 Stratigraphic Asia India W N 1 12.6 Volcanic Lava Flow643 60 Decan MIX 17.9 73.6 62.5 2.5 K/Ar Asia India W R 1 22.7 Volcanic Lava Flow644 60 Decan MVII 17.9 73.6 62.5 2.5 K/Ar Asia India W R 1 40.7 Volcanic Lava Flow645 60 Decan MXIX 17.9 73.6 62.5 2.5 K/Ar Asia India W N 1 18.9 Volcanic Lava Flow646 60 Decan MXXII 17.9 73.6 62.5 2.5 K/Ar Asia India W N 1 21.8 Volcanic Lava Flow647 60 Decan NII 16.4 74.4 60.0 5.0 Stratigraphic Asia India W R 1 22.3 Volcanic Lava Flow648 60 Decan NIV 16.4 74.4 60.0 5.0 Stratigraphic Asia India W N 1 29.4 Volcanic Lava Flow649 60 Rajamahal DII 25.0 87.0 69.2 2.5 K/Ar Asia India W N 1 42.0 Plutonic Dyke650 60 Rajamahal DIV 25.0 87.0 70.0 10.0 Stratigraphic Asia India W N 1 60.9 Plutonic Dyke651 60 Rajamahal II 25.0 87.0 70.0 10.0 Stratigraphic Asia India W N 1 149.9 Volcanic Lava Flow652 60 Rajamahal IX 25.0 87.0 67.6 1.9 K/Ar Asia India W N 1 53.8 Volcanic Lava Flow653 60 Rajamahal V 25.0 87.0 70.0 10.0 Stratigraphic Asia India W N 1 91.1 Volcanic Lava Flow654 60 Rajamahal VIII 25.0 87.0 70.0 10.0 Stratigraphic Asia India W N 1 52.5 Volcanic Lava Flow655 60 Rajamahal X 25.0 87.0 70.0 10.0 Stratigraphic Asia India W N 1 84.0 Volcanic Lava Flow656 60 Rajamahal XI 25.0 87.0 70.0 10.0 Stratigraphic Asia India W N 1 51.2 Volcanic Lava Flow657 60 Rajamahal XIII 25.0 87.0 73.1 2.1 K/Ar Asia India W N 1 131.0 Volcanic Lava Flow658 60 Rajamahal XIV 25.0 87.0 70.0 10.0 Stratigraphic Asia India W N 1 32.3 Volcanic Lava Flow659 60 Rajamahal XV 25.0 87.0 70.0 10.0 Stratigraphic Asia India W N 1 32.3 Volcanic Lava Flow660 60 Rajamahal XVI 25.0 87.0 78.7 2.3 K/Ar Asia India W N 1 77.7 Volcanic Lava Flow661 61 Laschamp & olby 45.7 2.9 0.0 0.0 Thermoluminescence Europe France T+ T -68.2 231.9 7 7.7 1.6 21 1.2 Volcanic Mixed662 62 B007S 65.2 -13.7 12.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -53.5 49.6 1 16.9 0.5 3 3.1 Volcanic Lava Flow663 62 B010S 65.2 -13.7 12.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 73.9 90.6 1 8.7 0.2 2 1.2 Volcanic Lava Flow664 62 B010T 65.2 -13.7 12.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 20.7 327.3 1 10.9 0.1 1 2.7 Volcanic Lava Flow665 62 C008S 65.1 -13.8 12.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -32.1 138.3 2 6.2 1.2 19 1.4 Volcanic Lava Flow666 62 C013U 65.1 -13.8 12.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -18.3 112.4 1 9.9 0.1 1 2.5 Volcanic Lava Flow667 62 C023S 65.1 -13.8 12.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -40.7 240.3 1 7.3 1.6 Volcanic Lava Flow668 62 K005 64.7 -14.5 10.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -84.9 172.4 1 104.0 5.9 6 13.6 Volcanic Lava Flow669 62 K007 64.7 -14.5 10.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -68.7 247.8 1 43.9 1.1 3 6.7 Volcanic Lava Flow670 62 K008 64.7 -14.5 10.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -74.0 230.9 1 128.2 8.7 7 18.4 Volcanic Lava Flow671 62 K014 64.7 -14.5 10.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -73.4 245.2 1 42.4 2.6 6 6.1 Volcanic Lava Flow672 62 K033 64.7 -14.5 10.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 71.9 16.1 1 72.1 1.2 2 10.6 Volcanic Lava Flow673 62 K037 64.7 -14.5 10.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 64.6 337.0 1 33.0 5.0 15 5.3 Volcanic Lava Flow674 62 K039C 64.7 -14.5 10.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 79.9 348.9 1 50.7 3.5 7 6.9 Volcanic Lava Flow675 62 K039G 64.7 -14.5 10.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 68.9 7.6 1 36.3 4.7 13 5.5 Volcanic Lava Flow676 62 L001B 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 75.1 25.6 1 205.3 21.3 10 29.1 Volcanic Lava Flow677 62 L003 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 69.4 14.1 2 46.7 19.1 41 7.1 Volcanic Lava Flow678 62 L004S 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 36.2 5.9 1 4.3 1.0 Volcanic Lava Flow679 62 L005 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 21.9 11.7 1 38.5 1.7 4 9.4 Volcanic Lava Flow680 62 L005S 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 28.6 10.8 1 28.2 10.0 35 6.6 Volcanic Lava Flow681 62 L006 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 35.6 15.5 1 50.1 2.9 6 11.2 Volcanic Lava Flow682 62 L006S 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 27.2 9.7 4 59.7 14.2 24 14.2 Volcanic Lava Flow683 62 L007 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 69.0 51.0 1 69.0 3.8 6 10.5 Volcanic Lava Flow684 62 L007B 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 62.7 55.1 1 52.6 1.1 2 8.7 Volcanic Lava Flow685 62 L008 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 57.2 31.6 1 76.1 2.5 3 13.5 Volcanic Lava Flow



686 62 L008A 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 77.5 20.5 2 34.3 14.1 41 4.7 Volcanic Lava Flow687 62 L011 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 60.8 355.3 1 36.8 2.4 7 6.2 Volcanic Lava Flow688 62 L012 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 54.5 356.7 1 44.9 4.0 9 8.2 Volcanic Lava Flow689 62 L012B 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 57.1 347.8 1 12.8 0.2 2 2.3 Volcanic Lava Flow690 62 L019S 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 63.8 82.8 2 13.6 2.2 16 2.2 Volcanic Lava Flow691 62 L022 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -72.4 222.7 1 79.1 3.2 4 11.5 Volcanic Lava Flow692 62 L030 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -73.1 169.6 1 77.0 21.4 28 11.1 Volcanic Lava Flow693 62 L031 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -44.7 163.3 1 19.6 0.4 2 4.0 Volcanic Lava Flow694 62 L033B 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -68.9 206.1 1 38.8 2.1 5 5.9 Volcanic Lava Flow695 62 L033D 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -61.4 215.3 2 111.5 37.0 33 18.7 Volcanic Lava Flow696 62 L033E 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -70.1 206.2 2 45.6 1.8 4 6.8 Volcanic Lava Flow697 62 L033F 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -72.7 237.3 2 81.8 24.5 30 11.9 Volcanic Lava Flow698 62 L033G 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -70.7 236.3 1 41.1 2.0 5 6.1 Volcanic Lava Flow699 62 L033H 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -67.8 236.1 1 149.1 9.9 7 23.0 Volcanic Lava Flow700 62 L033I 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -75.5 193.0 1 109.6 5.8 5 15.4 Volcanic Lava Flow701 62 L043 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 9.2 239.4 1 14.7 0.2 1 3.8 Volcanic Lava Flow702 62 L045 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -54.2 267.2 1 15.9 0.3 2 2.9 Volcanic Lava Flow703 62 L052 64.7 -14.6 9.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -77.7 131.1 1 41.0 2.2 5 5.7 Volcanic Lava Flow704 62 M003 64.7 -14.7 8.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -47.7 302.0 1 26.7 5.0 19 5.3 Volcanic Lava Flow705 62 M004A 64.7 -14.7 8.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -85.2 10.0 1 17.9 0.6 3 2.3 Volcanic Lava Flow706 62 M004B 64.7 -14.7 8.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -74.4 228.2 1 26.7 5.8 22 3.8 Volcanic Lava Flow707 62 M013 64.7 -14.7 8.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 75.1 356.2 1 72.1 2.3 3 10.2 Volcanic Lava Flow708 62 M021 64.7 -14.7 8.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 85.4 52.7 1 12.4 0.2 2 1.6 Volcanic Lava Flow709 62 M023 64.7 -14.7 8.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 76.2 46.5 1 55.7 1.0 2 7.8 Volcanic Lava Flow710 62 M028 64.7 -14.7 8.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 74.0 335.7 1 50.0 2.1 4 7.2 Volcanic Lava Flow711 62 M030 64.7 -14.7 8.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 84.1 214.5 1 47.5 1.4 3 6.2 Volcanic Lava Flow712 62 M031 64.7 -14.7 8.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 76.4 135.8 1 47.4 0.8 2 6.6 Volcanic Lava Flow713 62 M058 64.7 -14.7 8.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 76.2 95.1 1 7.6 0.1 1 1.1 Volcanic Lava Flow714 62 M060 64.7 -14.7 8.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 41.2 16.4 1 47.2 1.4 3 10.0 Volcanic Lava Flow715 62 N006 64.6 -14.8 7.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 47.6 320.3 1 29.2 27.0 92 5.8 Volcanic Lava Flow716 62 N007A 64.6 -14.8 7.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 78.8 21.7 1 44.0 2.6 6 6.0 Volcanic Lava Flow717 62 N009 64.6 -14.8 7.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 82.6 111.1 1 7.9 0.1 1 1.0 Volcanic Lava Flow718 62 N009A 64.6 -14.8 7.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 87.8 59.6 1 8.3 0.1 1 1.1 Volcanic Lava Flow719 62 N010A 64.6 -14.8 7.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 73.7 41.7 1 28.3 28.4 100 4.1 Volcanic Lava Flow720 62 N019 64.6 -14.8 7.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 52.6 335.4 1 25.7 6.4 25 4.8 Volcanic Lava Flow721 62 N021 64.6 -14.8 7.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 81.3 332.1 1 16.9 0.6 4 2.3 Volcanic Lava Flow722 62 N022 64.6 -14.8 7.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 79.3 334.6 1 12.0 0.4 3 1.6 Volcanic Lava Flow723 62 N030 64.6 -14.8 7.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 44.8 24.1 1 37.1 2.0 5 7.6 Volcanic Lava Flow724 62 N034 64.6 -14.8 7.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 52.7 29.7 1 23.3 1.5 6 4.4 Volcanic Lava Flow725 62 P001 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 59.7 242.9 1 52.8 2.2 4 9.1 Volcanic Lava Flow726 62 P005 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 63.3 165.3 1 20.0 3.1 16 3.3 Volcanic Lava Flow727 62 P006 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 83.7 273.5 1 83.0 7.3 9 10.9 Volcanic Lava Flow728 62 P009 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 61.8 325.4 1 82.2 5.1 6 13.7 Volcanic Lava Flow729 62 P013 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -82.3 146.2 1 104.7 5.1 5 13.9 Volcanic Lava Flow730 62 P014 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -86.1 246.6 1 108.4 9.7 9 14.1 Volcanic Lava Flow731 62 P017 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -72.4 197.1 1 22.6 7.2 32 3.3 Volcanic Lava Flow732 62 P018 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -55.8 173.7 1 53.4 0.8 1 9.6 Volcanic Lava Flow733 62 P020 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -58.1 224.0 1 31.4 0.7 2 5.5 Volcanic Lava Flow734 62 P022 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -79.7 189.2 1 55.9 0.6 1 7.6 Volcanic Lava Flow



735 62 P024 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -76.0 169.8 1 38.3 0.8 2 5.4 Volcanic Lava Flow736 62 P025 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -85.6 325.6 1 35.4 1.2 3 4.6 Volcanic Lava Flow737 62 P026 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O 3.6 27.5 1 18.0 1.1 6 4.6 Volcanic Lava Flow738 62 P029 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -82.2 246.2 1 58.0 1.3 2 7.7 Volcanic Lava Flow739 62 P030 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -74.7 167.2 1 23.2 3.7 16 3.3 Volcanic Lava Flow740 62 P031 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -58.1 245.0 1 15.2 0.8 5 2.7 Volcanic Lava Flow741 62 P032 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -62.7 241.5 1 15.6 0.8 5 2.6 Volcanic Lava Flow742 62 P035 64.7 -15.0 6.0 1.0 Stratigraphic Atlantic Ocean Iceland S O -61.3 158.2 1 45.2 0.7 2 7.6 Volcanic Lava Flow743 62 Q004 65.1 -15.0 5.7 0.5 Stratigraphic Atlantic Ocean Iceland S O -84.6 182.1 1 42.3 1.1 3 5.5 Volcanic Lava Flow744 62 Q010 65.1 -15.0 5.7 0.5 Stratigraphic Atlantic Ocean Iceland S O -80.9 56.4 1 22.4 14.7 66 3.0 Volcanic Lava Flow745 62 Q011 65.1 -15.0 5.7 0.5 Stratigraphic Atlantic Ocean Iceland S O -80.7 51.7 1 25.8 2.3 9 3.5 Volcanic Lava Flow746 62 R001A 65.0 -15.0 4.5 0.5 Stratigraphic Atlantic Ocean Iceland S R -79.4 129.6 2 68.1 1.3 2 9.2 Volcanic Lava Flow747 62 R012 65.0 -15.0 4.5 0.5 Stratigraphic Atlantic Ocean Iceland S R -75.4 215.7 1 44.8 1.2 3 6.3 Volcanic Lava Flow748 62 R013 65.0 -15.0 4.5 0.5 Stratigraphic Atlantic Ocean Iceland S R -79.7 215.4 1 61.0 1.8 3 8.3 Volcanic Lava Flow749 62 R020 65.0 -15.0 4.5 0.5 Stratigraphic Atlantic Ocean Iceland S R -82.7 200.1 1 90.3 4.8 5 12.0 Volcanic Lava Flow750 62 R023 65.0 -15.0 4.5 0.5 Stratigraphic Atlantic Ocean Iceland S R -88.1 68.8 1 72.0 4.4 6 9.3 Volcanic Lava Flow751 62 R025 65.0 -15.0 4.5 0.5 Stratigraphic Atlantic Ocean Iceland S N 69.6 345.8 1 118.2 16.9 14 17.9 Volcanic Lava Flow752 62 R026 65.0 -15.0 4.5 0.5 Stratigraphic Atlantic Ocean Iceland S N 71.5 24.6 1 41.7 0.7 2 6.2 Volcanic Lava Flow753 62 R028 65.0 -15.0 4.5 0.5 Stratigraphic Atlantic Ocean Iceland S T 47.7 44.5 1 116.0 22.5 19 23.0 Volcanic Lava Flow754 62 R032 65.0 -15.0 4.5 0.5 Stratigraphic Atlantic Ocean Iceland S T 41.7 259.1 1 30.3 1.2 4 6.4 Volcanic Lava Flow755 62 R033B 65.0 -15.0 4.5 0.5 Stratigraphic Atlantic Ocean Iceland S T 78.8 177.1 1 61.6 3.3 5 8.4 Volcanic Lava Flow756 62 R033C 65.0 -15.0 4.5 0.5 Stratigraphic Atlantic Ocean Iceland S T 76.7 163.2 1 50.6 1.8 4 7.0 Volcanic Lava Flow757 62 R033D 65.0 -15.0 4.5 0.5 Stratigraphic Atlantic Ocean Iceland S T 75.2 173.3 1 29.7 2.8 9 4.2 Volcanic Lava Flow758 62 S017B 65.0 -15.1 4.1 0.5 Stratigraphic Atlantic Ocean Iceland S N 77.5 354.4 1 58.4 3.3 6 8.1 Volcanic Lava Flow759 62 S017D 65.0 -15.1 4.1 0.5 Stratigraphic Atlantic Ocean Iceland S N 78.6 4.3 1 56.0 2.9 5 7.7 Volcanic Lava Flow760 62 S024 65.0 -15.1 4.1 0.5 Stratigraphic Atlantic Ocean Iceland S T -63.3 251.4 1 35.5 2.7 8 5.8 Volcanic Lava Flow761 62 S033 65.0 -15.1 4.1 0.5 Stratigraphic Atlantic Ocean Iceland S R -87.4 17.5 1 154.8 2.8 2 20.1 Volcanic Lava Flow762 62 S037 65.0 -15.1 4.1 0.5 Stratigraphic Atlantic Ocean Iceland S R -70.5 208.9 1 14.0 0.4 3 2.1 Volcanic Lava Flow763 62 T009E 65.0 -15.2 3.5 0.5 Stratigraphic Atlantic Ocean Iceland S R -76.4 205.9 1 117.5 11.9 10 16.4 Volcanic Lava Flow764 62 T009F 65.0 -15.2 3.5 0.5 Stratigraphic Atlantic Ocean Iceland S R -75.6 197.9 1 114.4 12.7 11 16.1 Volcanic Lava Flow765 62 T009H 65.0 -15.2 3.5 0.5 Stratigraphic Atlantic Ocean Iceland S R -82.5 26.3 1 99.7 6.3 6 13.2 Volcanic Lava Flow766 62 T009J 65.0 -15.2 3.5 0.5 Stratigraphic Atlantic Ocean Iceland S R -70.9 140.2 1 74.7 3.0 4 11.1 Volcanic Lava Flow767 62 T018 65.0 -15.2 3.5 0.5 Stratigraphic Atlantic Ocean Iceland S R -58.8 161.6 1 37.1 3.9 11 6.4 Volcanic Lava Flow768 62 U002 64.9 -15.3 2.7 0.5 Stratigraphic Atlantic Ocean Iceland S N 73.8 26.4 1 42.3 1.2 3 6.1 Volcanic Lava Flow769 62 U009 64.9 -15.3 2.7 0.5 Stratigraphic Atlantic Ocean Iceland S N 83.1 349.0 1 54.9 2.1 4 7.3 Volcanic Lava Flow770 62 U012 64.9 -15.3 2.7 0.5 Stratigraphic Atlantic Ocean Iceland S N 80.2 334.4 1 91.2 8.0 9 12.3 Volcanic Lava Flow771 62 U013 64.9 -15.3 2.7 0.5 Stratigraphic Atlantic Ocean Iceland S N 76.0 344.3 1 110.0 20.3 18 15.4 Volcanic Lava Flow772 62 V002 64.9 -15.3 2.1 0.5 Stratigraphic Atlantic Ocean Iceland S N 79.3 273.3 1 27.4 14.0 51 3.7 Volcanic Lava Flow773 62 V009 64.9 -15.3 2.1 0.5 Stratigraphic Atlantic Ocean Iceland S T -43.1 66.2 1 14.1 1.0 7 2.9 Volcanic Lava Flow774 62 V010 64.9 -15.3 2.1 0.5 Stratigraphic Atlantic Ocean Iceland S N 77.1 34.4 1 198.7 24.6 12 27.5 Volcanic Lava Flow775 62 V015 64.9 -15.3 2.1 0.5 Stratigraphic Atlantic Ocean Iceland S R -83.5 233.2 1 46.9 1.6 3 6.2 Volcanic Lava Flow776 62 V016 64.9 -15.3 2.1 0.5 Stratigraphic Atlantic Ocean Iceland S R -56.7 213.6 1 30.6 11.0 36 5.5 Volcanic Lava Flow777 62 V019 64.9 -15.3 2.1 0.5 Stratigraphic Atlantic Ocean Iceland S N 83.7 88.0 1 55.4 4.5 8 7.3 Volcanic Lava Flow778 63 Derbyshire BW1 53.2 -1.5 347.0 5.0 Geologic timescale Europe United Kingdom S O 3 -20.8 223.4 143 4.2 3 30.9 1.7 6 7.8 Volcanic Lava Flow779 63 Derbyshire ML1 53.2 -1.5 347.0 5.0 Geologic timescale Europe United Kingdom S O 3 38.6 342.7 193 3.8 3 1.9 0.1 5 0.4 Volcanic Lava Flow780 63 Derbyshire PL1 53.2 -1.5 347.0 5.0 Geologic timescale Europe United Kingdom S O 2 41.8 189.0 56 12.4 2 25.0 0.9 4 5.3 Volcanic Lava Flow781 63 Derbyshire PL2 53.2 -1.5 347.0 5.0 Geologic timescale Europe United Kingdom S O 3 41.6 196.3 63 11.6 3 25.4 1.0 4 6.1 Volcanic Lava Flow VDMc = 5.4

782 63 Scottish CG02 56.0 -4.0 347.0 5.0 Geologic timescale Europe United Kingdom S O 3 0.4 183.7 75 5.2 3 2.0 0.1 5 0.4 Volcanic Lava Flow783 63 Scottish CG03 56.0 -4.0 347.0 5.0 Geologic timescale Europe United Kingdom S O 3 43.0 173.8 140 3.3 3 6.0 0.2 3 1.4 Volcanic Lava Flow



784 63 Scottish CG10 56.0 -4.0 347.0 5.0 Geologic timescale Europe United Kingdom S O 2 44.3 349.7 129 6.0 2 2.5 0.1 4 0.5 Volcanic Lava Flow785 63 Scottish CG12A 56.0 -4.0 347.0 5.0 Geologic timescale Europe United Kingdom S O 2 31.5 212.8 297 5.3 2 8.4 0.3 4 1.9 Volcanic Lava Flow786 63 Scottish CG30 56.0 -4.0 347.0 5.0 Geologic timescale Europe United Kingdom S O 3 34.0 179.0 136 10.6 3 4.9 0.7 14 1.1 Volcanic Lava Flow787 63 Scottish CG34 56.0 -4.0 347.0 5.0 Geologic timescale Europe United Kingdom S O 3 7.5 174.4 183 6.4 3 6.8 0.4 6 1.7 Volcanic Lava Flow788 63 Scottish CG36 56.0 -4.0 347.0 5.0 Geologic timescale Europe United Kingdom S O 3 59.8 91.1 133 6.4 3 4.9 0.1 2 0.8 Volcanic Lava Flow789 63 Scottish CO1 56.0 -4.0 347.0 5.0 Geologic timescale Europe United Kingdom S O 3 58.2 179.1 200 2.6 3 5.9 0.1 2 1.1 Volcanic Lava Flow790 63 Scottish QD1 56.0 -4.0 347.0 5.0 Geologic timescale Europe United Kingdom S O 3 -1.6 182.6 162 9.7 3 6.5 0.2 3 1.7 Volcanic Lava Flow791 64 Kuju region 03 33.1 131.2 9.8 4.7 Estimated age Asia Japan T- R -72.3 187.2 3 28.0 4.2 15 5.5 Volcanic Lava Flow VDMc = 4.1

792 64 Kuju region D4 33.1 131.2 0.8 0.8 Stratigraphic Asia Japan T- N 43.8 355.2 4 49.1 10.7 22 10.4 Volcanic Lava Flow VDMc = 10.2

793 64 Kuju region DH 33.1 131.2 1.0 1.0 Stratigraphic Asia Japan T- R -51.2 241.7 4 49.6 6.5 13 10.6 Volcanic Lava Flow VDMc = 9.5

794 64 Kuju region HL 33.1 131.2 3.5 1.5 Stratigraphic Asia Japan T- N 32.6 348.7 1 27.6 5.4 Volcanic Lava Flow VDMc = 6.3

795 64 Kuju region K4 33.1 131.2 1.0 1.0 Stratigraphic Asia Japan T- N 29.1 340.1 3 63.1 6.1 10 13.4 Volcanic Lava Flow VDMc = 14.8

796 64 Kuju region K7 33.1 131.2 1.0 1.0 Stratigraphic Asia Japan T- N 34.4 323.7 5 43.9 6.1 14 9.3 Volcanic Lava Flow VDMc = 9.9

797 64 Kuju region KP 33.1 131.2 1.0 1.0 Stratigraphic Asia Japan T- N 32.8 338.2 2 21.5 0.5 2 4.6 Volcanic Lava Flow VDMc = 4.9

798 64 Kuju region PL 33.1 131.2 3.5 1.5 Stratigraphic Asia Japan T- R -40.3 154.5 6 40.6 5.1 13 8.0 Volcanic Lava Flow VDMc = 8.7

799 64 Kuju region RL 33.1 131.2 3.5 1.5 Stratigraphic Asia Japan T- R -41.0 184.1 1 41.1 8.1 Volcanic Lava Flow VDMc = 8.7

800 64 Kuju region RW 33.1 131.2 3.5 1.5 Stratigraphic Asia Japan T- R -59.6 177.5 3 36.0 6.1 17 7.1 Volcanic Lava Flow VDMc = 6.2

801 64 Kuju region TP 33.1 131.2 3.5 1.5 Stratigraphic Asia Japan T- N 55.7 5.4 3 46.7 5.6 12 9.2 Volcanic Lava Flow VDMc = 8.4

802 65 003 46.0 -73.0 126.0 13.0 K/Ar North America Canada T- O 2 21.0 14.0 67 3.9 Plutonic Gabbro803 65 007 51.0 -68.0 225.0 30.0 K/Ar North America Canada T- O 1 52.5 7.0 13 10.6 Volcanic Andesite

804 65 008 56.0 -75.0 285.0 28.0 K/Ar North America Canada T- O 2 26.2 8.8 34 6.8 Igneous805 65 011 55.0 -59.0 570.0 35.0 K/Ar North America Canada T- O 1 21.0 7.0 33 4.0 Igneous806 65 013 68.0 -118.0 863.0 115.0 K/Ar North America Canada T- O 1 42.0 3.5 8 11.6 Igneous807 65 016 48.0 -71.0 1015.0 60.0 K/Ar North America Canada T- O 1 35.0 1.4 4 8.9 Igneous808 65 019 48.0 -79.0 1240.0 50.0 K/Ar North America Canada T- O 1 70.0 7.0 10 12.5 Igneous809 65 023 60.0 -109.0 1410.0 50.0 K/Ar North America Canada T- O 1 31.5 7.0 22 4.2 Igneous810 65 027 60.0 -109.0 1630.0 180.0 K/Ar North America Canada T- O 1 59.5 7.0 12 7.9 Igneous811 65 028 66.0 -114.0 1740.0 200.0 K/Ar North America Canada T- O 1 70.0 7.0 10 12.5 Igneous812 65 030 47.0 -80.0 2095.0 100.0 K/Ar North America Canada T- O 2 41.5 0.5 1 8.4 Igneous813 65 040 49.0 -86.0 2320.0 100.0 K/Ar North America Canada T- O 1 35.0 7.0 20 5.0 Igneous814 65 043 47.0 -81.0 1625.0 50.0 K/Ar North America Canada T- O 4 48.1 8.3 17 6.5 Igneous815 65 052 48.0 -78.0 1825.0 60.0 K/Ar North America Canada T- O 1 17.5 3.5 20 2.9 Igneous816 65 058 49.0 -82.0 2485.0 100.0 K/Ar North America Canada T- O 1 59.5 3.5 6 12.8 Igneous817 65 059 49.0 -80.0 1240.0 50.0 K/Ar North America Canada T- O 1 35.0 3.5 10 9.0 Igneous818 65 064 64.0 -97.0 899.0 90.0 K/Ar North America Canada T- O 1 21.0 3.5 17 5.3 Igneous819 65 074 46.0 -74.0 805.0 80.0 K/Ar North America Canada T- O 1 28.0 2.1 7 7.1 Igneous820 65 086 44.0 -65.0 366.0 16.0 K/Ar North America Canada T- O 1 8.1 1.8 22 1.9 Igneous821 65 088 73.0 -85.0 903.0 140.0 K/Ar North America Canada T- O 1 23.8 1.4 6 6.0 Igneous822 65 092 50.0 -63.0 138.0 28.0 K/Ar North America Canada T- O 1 10.5 3.5 33 1.8 Igneous823 65 093 66.0 -102.0 1800.0 60.0 K/Ar North America Canada T- O 1 28.0 3.5 12 4.6 Igneous824 65 095 57.0 -115.0 1095.0 60.0 K/Ar North America Canada T- O 1 17.5 3.5 20 4.1 Igneous825 65 097 67.0 -115.0 1200.0 60.0 K/Ar North America Canada T- O 1 24.5 3.5 14 5.9 Igneous826 65 098 54.0 -64.0 1400.0 50.0 K/Ar North America Canada T- O 1 28.0 3.5 12 4.2 Igneous827 65 105 46.0 -82.0 1395.0 50.0 K/Ar North America Canada T- O 1 42.0 1.8 4 10.1 Igneous828 65 110 56.0 -74.0 300.0 30.0 K/Ar North America Canada T- O 1 46.9 1.0 2 12.0 Igneous829 65 122 59.0 -73.0 2060.0 100.0 K/Ar North America Canada T- O 1 3.5 1.4 40 0.8 Igneous830 65 125 44.0 -76.0 434.0 75.0 K/Ar North America Canada T- O 1 5.2 2.5 48 1.1 Igneous831 65 129 44.0 -76.0 817.0 70.0 K/Ar North America Canada T- O 4 22.6 5.4 24 5.8 Igneous832 65 138 44.0 -76.0 751.0 75.0 K/Ar North America Canada T- O 1 17.5 3.5 20 4.5 Igneous



833 65 143 49.0 -86.0 1705.0 140.0 K/Ar North America Canada T- O 1 19.9 1.4 7 3.4 Igneous834 66 Sudbury 01 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 66.5 2 25.5 0.7 3 4.0 Plutonic Norite835 66 Sudbury 02 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 3 72.0 3 14.9 2.7 18 2.2 Plutonic Norite836 66 Sudbury 03 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 62.5 2 26.6 1.4 5 4.4 Plutonic Norite837 66 Sudbury 05 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 63.0 2 36.4 1.4 4 5.9 Plutonic Norite838 66 Sudbury 06 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 70.5 2 16.6 0.5 3 2.5 Plutonic Norite839 66 Sudbury 07 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 68.0 2 22.9 3.3 14 3.5 Plutonic Norite840 66 Sudbury 08 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 1 59.0 1 27.7 1.4 5 4.8 Plutonic Norite841 66 Sudbury 09 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 58.5 2 27.8 3.3 12 4.8 Plutonic Norite842 66 Sudbury 10 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 3 70.0 3 23.5 3.6 15 3.5 Plutonic Norite843 66 Sudbury 11 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 72.5 2 14.9 3.3 22 2.1 Plutonic Norite844 66 Sudbury 12 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 70.0 2 19.6 1.1 6 2.9 Plutonic Norite845 66 Sudbury 13 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 1 71.0 1 21.0 1.4 7 3.1 Plutonic Norite846 66 Sudbury 14 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 78.0 2 20.6 0.7 3 2.8 Plutonic Norite847 66 Sudbury 15 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 1 86.0 1 14.0 1.4 10 1.9 Plutonic Norite848 66 Sudbury 16 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 72.0 2 20.1 0.5 2 2.9 Plutonic Norite849 66 Sudbury 17 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 1 54.0 1 50.4 2.8 6 9.3 Plutonic Norite850 66 Sudbury 18 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 66.0 2 28.5 0.2 1 4.5 Plutonic Norite851 66 Sudbury 19 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 1 66.0 1 28.4 0.7 2 4.4 Plutonic Norite852 66 Sudbury 20 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 1 65.0 1 41.3 1.0 2 6.5 Plutonic Norite853 66 Sudbury 21 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 3 69.0 3 32.7 4.8 15 4.9 Plutonic Norite854 66 Sudbury 22 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 67.0 2 28.5 0.5 2 4.4 Plutonic Norite855 66 Sudbury 24 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 1 57.0 1 36.0 1.4 4 6.4 Plutonic Norite856 66 Sudbury 25 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 1 77.0 1 32.5 1.4 4 4.4 Plutonic Norite857 66 Sudbury 27 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 54.5 2 20.5 0.5 2 3.7 Plutonic Norite858 66 Sudbury 29 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 72.5 2 23.6 1.6 7 3.4 Plutonic Norite859 66 Sudbury 30 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 69.0 2 21.2 0.2 1 3.2 Plutonic Norite860 66 Sudbury 31 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 72.0 2 21.2 0.2 1 3.1 Plutonic Norite861 66 Sudbury 32 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 1 75.0 1 22.4 2.1 9 3.2 Plutonic Norite862 66 Sudbury 33 46.5 -81.0 1704.0 19.0 Rb/Sr North America Canada TZ O 2 59.0 2 17.3 4.0 23 3.0 Plutonic Norite863 67 Iceland EQ33 65.0 -15.0 4.4 0.5 Estimated age Atlantic Ocean Iceland ST N 70.6 2.8 2 92.0 1.5 2 13.7 Volcanic Lava Flow864 67 Iceland EQ36 65.0 -15.0 4.4 0.5 Estimated age Atlantic Ocean Iceland ST N 69.6 337.8 2 138.2 2.0 1 20.9 Volcanic Lava Flow865 67 Iceland EQ42 65.0 -15.0 4.4 0.5 Estimated age Atlantic Ocean Iceland ST T 73.0 189.8 3 18.1 0.3 2 2.6 Volcanic Lava Flow866 67 Iceland EQ46 65.0 -15.0 4.4 0.5 Estimated age Atlantic Ocean Iceland ST T -42.4 138.2 3 11.4 0.5 4 2.4 Volcanic Lava Flow867 67 Iceland GH14 65.2 -15.2 1.7 0.1 Estimated age Atlantic Ocean Iceland ST R -76.9 155.8 2 100.9 2.1 2 14.0 Volcanic Lava Flow868 67 Iceland GH15 65.2 -15.2 1.7 0.1 Estimated age Atlantic Ocean Iceland ST N 83.1 343.7 2 47.4 0.8 2 6.3 Volcanic Lava Flow869 67 Iceland NP176 66.2 -15.8 3.0 1.0 Estimated age Atlantic Ocean Iceland ST R -46.5 156.0 3 27.1 0.3 1 5.5 Volcanic Lava Flow870 67 Iceland NP206 66.2 -15.8 3.0 1.0 Estimated age Atlantic Ocean Iceland ST T 20.2 27.5 2 18.1 0.2 1 4.5 Volcanic Lava Flow871 67 Iceland NT004 66.2 -15.8 3.0 1.0 Estimated age Atlantic Ocean Iceland ST R -76.5 266.3 2 57.6 2.4 4 8.0 Volcanic Lava Flow872 67 Iceland NT011 66.2 -15.8 3.0 1.0 Estimated age Atlantic Ocean Iceland ST T 70.0 104.3 2 36.9 1.2 3 5.5 Volcanic Lava Flow873 67 Iceland NT111 66.2 -15.8 3.0 1.0 Estimated age Atlantic Ocean Iceland ST T -36.1 207.8 1 16.0 3.6 Volcanic Lava Flow874 67 Mauritius 01 -20.2 57.3 1.9 1.6 Estimated age Indian Ocean Mauritius Island ST N -40.0 14.1 4 28.3 1.3 5 6.1 Volcanic875 67 Mauritius 02 -20.2 57.3 1.9 1.6 Estimated age Indian Ocean Mauritius Island ST T -65.1 277.1 2 16.4 0.9 5 2.6 Volcanic876 67 Mauritius 03 -20.2 57.3 1.9 1.6 Estimated age Indian Ocean Mauritius Island ST N -46.2 354.3 2 34.2 1.7 5 6.9 Volcanic877 67 Mauritius 04 -20.2 57.3 1.9 1.6 Estimated age Indian Ocean Mauritius Island ST N -44.1 350.3 3 19.7 0.9 5 4.1 Volcanic878 67 Mauritius 05 -20.2 57.3 1.9 1.6 Estimated age Indian Ocean Mauritius Island ST R 36.0 169.1 2 23.6 1.3 6 5.3 Volcanic879 67 Norfolk 05 -29.0 167.8 2.7 0.4 Estimated age Pacific Ocean Norfolk Island ST N -36.1 8.8 2 42.9 0.1 0 9.5 Volcanic880 67 Norfolk 06 -29.0 167.8 2.7 0.4 Estimated age Pacific Ocean Norfolk Island ST N -38.9 6.2 4 41.4 2.5 6 9.0 Volcanic881 67 Norfolk 07 -29.0 167.8 2.7 0.4 Estimated age Pacific Ocean Norfolk Island ST N -38.6 10.6 6 33.9 2.6 8 7.4 Volcanic



882 67 Norfolk 09 -29.0 167.8 2.7 0.4 Estimated age Pacific Ocean Norfolk Island ST R 41.5 190.2 3 24.2 1.5 6 5.1 Volcanic883 67 Norfolk 10 -29.0 167.8 2.7 0.4 Estimated age Pacific Ocean Norfolk Island ST R 42.5 198.1 5 26.3 6.7 25 5.5 Volcanic884 67 Norfolk 14 -29.0 167.8 2.7 0.4 Estimated age Pacific Ocean Norfolk Island ST R 42.2 193.7 4 53.6 1.7 3 11.3 Volcanic885 67 Norfolk 16 -29.0 167.8 2.7 0.4 Estimated age Pacific Ocean Norfolk Island ST N -38.1 4.3 2 56.8 1.5 3 12.4 Volcanic886 67 Norfolk 17 -29.0 167.8 2.7 0.4 Estimated age Pacific Ocean Norfolk Island ST N -43.5 9.2 2 38.3 4.0 10 8.0 Volcanic887 67 Norfolk 30 -29.0 167.8 2.7 0.4 Estimated age Pacific Ocean Norfolk Island ST N -45.3 10.9 2 60.9 0.9 1 12.4 Volcanic888 67 Norfolk 34 -29.0 167.8 2.7 0.4 Estimated age Pacific Ocean Norfolk Island ST N -36.4 12.7 4 35.1 0.7 2 7.8 Volcanic889 67 Reunion 01 -21.0 55.5 1.3 0.7 Stratigraphic Indian Ocean La Reunion ST N -21.3 11.0 1 36.3 8.9 Volcanic Lava Flow890 67 Reunion 02 -21.0 55.5 1.3 0.7 Estimated age Indian Ocean La Reunion ST N -18.8 1.3 3 40.2 2.6 6 10.0 Volcanic Lava Flow891 67 Reunion 03 -21.0 55.5 1.3 0.7 Estimated age Indian Ocean La Reunion ST N -13.9 0.0 2 23.7 0.6 3 6.0 Volcanic Lava Flow892 67 Reunion 04 -21.0 55.5 1.3 0.7 Estimated age Indian Ocean La Reunion ST R 46.3 181.8 1 29.6 6.0 Volcanic Lava Flow893 67 Reunion 05 -21.0 55.5 1.3 0.7 Estimated age Indian Ocean La Reunion ST R 27.0 186.8 2 19.4 1.5 8 4.6 Volcanic Lava Flow894 67 Reunion 06 -21.0 55.5 1.3 0.7 Estimated age Indian Ocean La Reunion ST N -15.5 355.6 2 20.2 1.3 6 5.1 Volcanic Lava Flow895 67 Reunion 07 -21.0 55.5 1.3 0.7 Estimated age Indian Ocean La Reunion ST N -22.6 7.6 2 21.2 1.9 9 5.2 Volcanic Lava Flow896 67 Reunion 08 -21.0 55.5 1.3 0.7 Estimated age Indian Ocean La Reunion ST R 52.5 189.3 3 20.4 1.3 6 3.8 Volcanic Lava Flow897 67 Society B11 -16.5 -151.7 3.3 0.2 Estimated age Pacific Ocean Society Islands ST N -35.7 6.7 4 33.8 1.6 5 7.5 Volcanic898 67 Society B4 -16.5 -151.7 3.3 0.2 Estimated age Pacific Ocean Society Islands ST R 39.6 166.0 3 45.3 2.2 5 9.8 Volcanic899 67 Society B7 -16.5 -151.7 3.3 0.2 Estimated age Pacific Ocean Society Islands ST R 32.7 164.3 8 47.3 3.0 6 10.8 Volcanic900 67 Society R11 -16.8 -151.4 2.4 0.1 Estimated age Pacific Ocean Society Islands ST N -29.8 7.7 6 57.5 1.3 2 13.4 Volcanic901 67 Society T22 -17.7 -149.8 0.9 0.4 Estimated age Pacific Ocean Society Islands ST R 35.9 186.5 3 37.1 2.9 8 8.3 Volcanic902 67 Society T6 -17.7 -149.8 0.9 0.4 Estimated age Pacific Ocean Society Islands ST N -28.6 358.9 6 21.9 3.1 14 5.2 Volcanic903 67 Victoria 03 -37.8 144.8 2.3 2.3 Estimated age Australia Australia ST N -59.2 6.2 4 62.7 1.5 2 10.8 Volcanic904 67 Victoria 06 -37.8 144.8 2.3 2.3 Estimated age Australia Australia ST R 58.5 183.7 3 65.9 2.3 3 11.5 Volcanic905 67 Victoria 32 -37.8 142.1 2.3 2.3 Estimated age Australia Australia ST R 36.4 190.5 4 57.7 0.2 0 12.8 Volcanic906 67 Victoria 37 -37.6 143.9 2.3 2.3 Estimated age Australia Australia ST N -53.1 1.3 2 57.5 2.2 4 10.7 Volcanic907 67 Victoria 38 -37.6 143.9 2.3 2.3 Estimated age Australia Australia ST N 56.1 178.5 2 69.3 6.4 9 12.5 Volcanic908 68 D1 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 4 26.6 0.7 3 6.4 Volcanic Basalt909 68 D3 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 2 18.1 1.8 10 4.3 Volcanic Basalt910 68 D4 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 2 16.5 2.2 13 4.0 Volcanic Basalt911 68 D5 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 4 18.7 1.0 5 4.5 Volcanic Basalt912 68 H1 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 2 18.6 0.7 4 4.5 Volcanic Basalt913 68 H2 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 4 20.2 0.5 2 4.8 Volcanic Basalt914 68 H3 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 1 19.8 2.1 11 4.8 Volcanic Basalt915 68 H4 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 2 18.4 0.2 1 4.4 Volcanic Basalt916 68 K1 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 2 29.1 0.9 3 7.0 Volcanic Basalt917 68 K2 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 2 28.2 1.2 4 6.8 Volcanic Basalt918 68 K3 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 2 32.3 3.1 10 7.8 Volcanic Basalt919 68 K4 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 4 47.5 1.1 2 11.4 Volcanic Basalt920 68 K5 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 4 33.3 2.8 8 8.0 Volcanic Basalt921 68 K6 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 4 37.2 1.2 3 9.0 Volcanic Basalt922 68 N1 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 1 12.9 1.1 9 3.1 Volcanic Basalt923 68 N3 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 2 10.2 0.6 6 2.5 Volcanic Basalt924 68 N4 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 1 7.1 0.6 8 1.7 Volcanic Basalt925 68 P1 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 2 24.3 0.4 2 5.9 Volcanic Basalt926 68 P2 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 1 32.4 3.3 10 7.8 Volcanic Basalt927 68 P3 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 2 37.8 0.8 2 9.1 Volcanic Basalt928 68 P4 50.7 -3.3 279.0 6.0 K/Ar Europe United Kingdom S O -25.0 198.0 2 44.2 0.7 2 10.6 Volcanic Basalt929 68 ZEL026 43.4 6.7 253.0 5.0 Estimated age Europe France S O -19.5 1 6.7 0.2 3 1.7 Volcanic Basalt930 68 ZEL089 43.4 6.7 253.0 5.0 Estimated age Europe France S O -25.0 2 16.3 3.1 19 3.9 Volcanic Basalt



931 68 ZEL097 43.4 6.7 253.0 5.0 Estimated age Europe France S O -21.5 4 15.7 2.4 15 3.9 Volcanic Basalt932 68 ZEL106 43.4 6.7 253.0 5.0 Estimated age Europe France S O -29.5 4 26.8 3.1 12 6.3 Volcanic Basalt933 68 ZEL107 43.4 6.7 253.0 5.0 Estimated age Europe France S O -29.5 4 18.9 1.0 5 4.4 Volcanic Basalt934 69 Hvalfjordur 01 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S N 69.6 44.9 2 53.7 7.1 13 8.1 Volcanic Lava Flow935 69 Hvalfjordur 02 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -32.8 54.7 2 20.8 1.1 5 4.8 Volcanic Lava Flow936 69 Hvalfjordur 03 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -21.2 53.1 2 20.4 0.8 4 5.0 Volcanic Lava Flow937 69 Hvalfjordur 04 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -52.6 43.2 2 15.5 5.3 34 2.9 Volcanic Lava Flow938 69 Hvalfjordur 05 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T 48.0 155.9 2 7.6 1.2 16 1.5 Volcanic Lava Flow939 69 Hvalfjordur 06 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -25.9 45.4 2 5.4 0.3 6 1.3 Volcanic Lava Flow940 69 Hvalfjordur 07 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -33.6 43.7 2 9.5 0.3 3 2.1 Volcanic Lava Flow941 69 Hvalfjordur 08 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S R -58.5 198.1 2 77.7 6.6 8 13.6 Volcanic Lava Flow942 69 Hvalfjordur 09 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -20.1 51.8 2 9.5 0.2 2 2.3 Volcanic Lava Flow943 69 Hvalfjordur 10 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -25.1 52.9 2 24.6 0.3 1 6.0 Volcanic Lava Flow944 69 Hvalfjordur 11 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S R -73.4 196.1 2 50.1 9.7 19 7.2 Volcanic Lava Flow945 69 Hvalfjordur 12 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S N 86.5 2.7 2 17.5 0.5 3 2.3 Volcanic Lava Flow946 69 Hvalfjordur 13 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -39.2 48.4 2 10.5 1.2 11 2.3 Volcanic Lava Flow947 69 Hvalfjordur 14 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -45.4 50.3 2 6.1 2.5 41 1.3 Volcanic Lava Flow948 69 Hvalfjordur 15 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S R -73.0 195.1 2 49.7 22.2 45 7.2 Volcanic Lava Flow949 69 Hvalfjordur 16 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -62.1 35.7 2 20.2 0.6 3 3.4 Volcanic Lava Flow950 69 Hvalfjordur 17 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -49.9 48.3 2 1.8 0.5 28 0.4 Volcanic Lava Flow951 69 Hvalfjordur 18 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -20.8 50.8 2 6.2 0.2 3 1.5 Volcanic Lava Flow952 69 Hvalfjordur 19 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -16.7 51.1 2 38.6 1.3 3 9.7 Volcanic Lava Flow953 69 Hvalfjordur 20 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -28.3 53.6 2 8.3 1.9 23 1.8 Volcanic Lava Flow954 69 Hvalfjordur 21 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S R -69.5 200.5 2 30.3 0.5 2 4.6 Volcanic Lava Flow955 69 Hvalfjordur 22 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -35.9 52.1 2 7.5 0.9 12 1.7 Volcanic Lava Flow956 69 Hvalfjordur 23 64.0 -22.0 4.0 2.0 Estimated age Atlantic Ocean Iceland S T -29.6 48.4 2 9.9 1.5 15 2.3 Volcanic Lava Flow957 71 Akaroa -44.0 173.0 8.5 0.5 Radiometric age Pacific Ocean New Zealand S T 4 21.3 8.9 42 Volcanic Lava Flow958 71 Akaroa -44.0 173.0 8.5 0.5 Radiometric age Pacific Ocean New Zealand S N 11 12.9 2.0 16 Volcanic Lava Flow959 71 Akaroa -44.0 173.0 8.5 0.5 Radiometric age Pacific Ocean New Zealand S R 40 16.6 2.5 15 Volcanic Lava Flow960 71 Diamond Harbour -44.0 173.0 6.9 1.1 Radiometric age Pacific Ocean New Zealand S T 6 5.2 0.9 17 Volcanic Lava Flow961 71 Diamond Harbour -44.0 173.0 6.9 1.1 Radiometric age Pacific Ocean New Zealand S R 9 6.9 1.0 14 Volcanic Lava Flow962 71 Diamond Harbour -44.0 173.0 6.9 1.1 Radiometric age Pacific Ocean New Zealand S N 2 27.6 2.4 9 Volcanic Lava Flow963 71 Dunedin -46.0 170.0 11.5 1.5 K/Ar Pacific Ocean New Zealand S N 10 6.7 0.9 13 Volcanic Lava Flow964 71 Dunedin -46.0 170.0 11.5 1.5 K/Ar Pacific Ocean New Zealand S R 4 12.9 3.8 29 Volcanic Lava Flow965 71 Dunedin -46.0 170.0 11.5 1.5 K/Ar Pacific Ocean New Zealand S T 5 12.3 5.6 46 Volcanic Lava Flow966 71 Lyttelton -44.0 173.0 11.0 1.0 Radiometric age Pacific Ocean New Zealand S N 4 7.3 1.8 25 Volcanic Lava Flow967 71 Lyttelton -44.0 173.0 11.0 1.0 Radiometric age Pacific Ocean New Zealand S R 21 10.3 1.7 17 Volcanic Lava Flow968 71 Lyttelton -44.0 173.0 11.0 1.0 Radiometric age Pacific Ocean New Zealand S T 5 6.4 0.5 8 Volcanic Lava Flow969 72 Ice baked C09 65.0 -15.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ R -67.2 197.8 2 33.0 3.5 11 5.2 Baked contact

970 72 Ice baked C10 65.0 -15.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ R -67.2 197.8 1 12.0 1.9 Baked contact

971 72 Ice baked C11 65.0 -15.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ R -67.2 197.8 2 34.0 5.3 Baked contact

972 72 Ice baked C12 65.0 -15.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ R -67.2 197.8 2 37.0 0.7 2 5.8 Baked contact

973 72 Ice baked WA08 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ N 67.2 17.8 2 20.0 6.4 32 3.1 Baked contact

974 72 Ice baked WA14 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ R -67.2 197.8 2 22.0 1.4 6 3.4 Baked contact

975 72 Ice baked WB3 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ N 67.2 17.8 2 64.0 10.6 17 10.0 Baked contact

976 72 Ice baked WB6 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ R -67.2 197.8 3 7.2 0.5 7 1.1 Baked contact

977 72 Ice baked WC54 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ N 67.2 17.8 2 13.0 1.4 11 2.0 Baked contact

978 72 Ice baked WC64 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ N 67.2 17.8 2 25.0 2.1 8 3.9 Baked contact

979 72 Ice baked WC75 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ R -67.2 197.8 3 27.0 3.2 12 4.2 Baked contact



980 72 Ice baked WC76 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ R -67.2 197.8 2 87.0 10.0 11 13.6 Baked contact

981 72 Ice baked WK17 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ R -67.2 197.8 2 43.0 1.4 3 6.7 Baked contact

982 72 Ice lava F50 65.0 -15.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ N 64.7 353.9 1 44.0 0.8 2 7.1 Volcanic Lava Flow983 72 Ice lava F55 65.0 -15.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ N 64.7 353.9 1 51.0 3.9 8 8.2 Volcanic Lava Flow984 72 Ice lava K31 65.0 -15.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ R -64.7 173.9 1 34.0 2.5 7 5.6 Volcanic Lava Flow985 72 Ice lava K35 65.0 -15.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ R -64.7 173.9 1 25.0 0.6 2 4.0 Volcanic Lava Flow986 72 Ice lava M30 65.0 -15.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ N 64.7 353.9 1 21.0 0.8 4 3.4 Volcanic Lava Flow987 72 Ice lava N7A 65.0 -15.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ N 64.7 353.9 1 44.0 1.3 3 7.1 Volcanic Lava Flow988 72 Ice lava WA04 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ N 64.7 353.9 1 20.0 1.3 6 3.2 Volcanic Lava Flow989 72 Ice lava WA16 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ N 64.7 353.9 1 42.0 1.0 2 6.7 Volcanic Lava Flow990 72 Ice lava WB03 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ N 64.7 353.9 1 37.0 1.0 3 5.9 Volcanic Lava Flow991 72 Ice lava WB10 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ N 64.7 353.9 1 37.0 2.6 7 5.9 Volcanic Lava Flow992 72 Ice lava WC54 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ N 64.7 353.9 1 22.0 3.5 Volcanic Lava Flow993 72 Ice lava WC75 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ R -64.7 173.9 1 30.0 0.8 3 4.8 Volcanic Lava Flow994 72 Ice lava WG10 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ N 64.7 353.0 1 43.0 2.4 6 6.9 Volcanic Lava Flow995 72 Ice lava WG11 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ R -64.7 173.9 1 45.0 2.5 6 7.2 Volcanic Lava Flow996 72 Ice lava WG12 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ R -64.7 173.9 1 40.0 1.3 3 6.4 Volcanic Lava Flow997 72 Ice lava WG13 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ R -64.7 173.9 1 37.0 0.6 2 5.9 Volcanic Lava Flow998 72 Ice lava WK4 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ T -64.7 173.9 1 11.0 0.8 7 1.8 Volcanic Lava Flow999 72 Ice lava WL3 65.0 -20.0 13.3 11.3 Estimated age Atlantic Ocean Iceland WZ T -64.7 173.9 1 36.0 3.3 9 5.8 Volcanic Lava Flow1000 72 Scottish A 56.0 -5.0 44.8 20.2 K/Ar Europe United Kingdom WZ R -59.3 172.0 1 19.0 3.3 Baked contact

1001 72 Scottish C 56.0 -5.0 44.3 3.4 K/Ar Europe United Kingdom WZ R -59.3 172.0 2 28.0 3.5 12 4.9 Baked contact

1002 72 Scottish D 56.0 -5.0 51.4 3.5 K/Ar Europe United Kingdom WZ R -59.3 172.0 1 17.0 3.0 Baked contact

1003 72 Scottish E 56.0 -5.0 44.8 20.2 K/Ar Europe United Kingdom WZ R -59.3 172.0 1 35.0 6.2 Baked contact

1004 72 Scottish F 56.0 -5.0 44.8 20.2 K/Ar Europe United Kingdom WZ R -59.3 172.0 2 27.0 1.4 5 4.8 Baked contact

1005 72 Scottish G 56.0 -5.0 44.8 20.2 K/Ar Europe United Kingdom WZ R -59.3 172.0 2 51.0 8.5 17 9.0 Baked contact

1006 72 Scottish K 56.0 -5.0 53.3 1.7 K/Ar Europe United Kingdom WZ R -59.3 172.0 1 25.0 4.4 Baked contact

1007 72 Scottish L 56.0 -5.0 44.8 20.2 K/Ar Europe United Kingdom WZ R -59.3 172.0 1 20.0 3.5 Baked contact

1008 72 Scottish M 56.0 -5.0 44.8 20.2 K/Ar Europe United Kingdom WZ R -59.3 172.0 1 27.0 4.8 Baked contact

1009 72 Scottish N 56.0 -5.0 51.0 6.2 K/Ar Europe United Kingdom WZ N 59.3 352.0 2 25.0 3.0 12 4.4 Baked contact

1010 72 Scottish P 56.0 -5.0 44.8 20.2 K/Ar Europe United Kingdom WZ R -59.3 172.0 2 25.0 3.5 14 4.4 Baked contact

1011 72 Scottish Q 56.0 -5.0 44.8 20.2 K/Ar Europe United Kingdom WZ R -59.3 172.0 2 64.0 4.2 7 11.3 Baked contact

1012 72 Scottish S 56.0 -5.0 40.9 2.6 K/Ar Europe United Kingdom WZ R -59.3 172.0 2 52.0 2.1 4 9.1 Baked contact

1013 72 Scottish U 56.0 -5.0 42.4 4.1 K/Ar Europe United Kingdom WZ R -59.3 172.0 3 20.0 2.3 12 3.5 Baked contact

1014 72 Scottish V 56.0 -5.0 33.9 1.2 K/Ar Europe United Kingdom WZ R -59.3 172.0 2 45.0 4.2 9 7.9 Baked contact

1015 72 Scottish W 56.0 -5.0 44.8 20.2 K/Ar Europe United Kingdom WZ R -59.3 172.0 1 19.0 3.3 Baked contact

1016 72 Scottish Y 56.0 -5.0 57.1 1.1 K/Ar Europe United Kingdom WZ R -59.3 172.0 2 2.7 0.8 30 1.4 Baked contact VDMC = 0.5

1017 72 Scottish Z 56.0 -5.0 44.8 20.2 K/Ar Europe United Kingdom WZ R -59.3 172.0 1 5.0 0.6 12 1.0 Baked contact

1018 73 Ochil Hills CA2-1 56.2 -3.6 398.0 13.0 Geologic timescale Europe United Kingdom Z O -2.0 207.0 1 2.9 0.1 3 0.8 Volcanic Lava Flow1019 73 Ochil Hills CA3-1 56.2 -3.6 397.5 10.5 Geologic timescale Europe United Kingdom Z O -6.0 201.0 1 1.4 0.1 7 0.3 Volcanic Lava Flow1020 73 Ochil Hills CA3-3 56.2 -3.6 397.5 10.5 Geologic timescale Europe United Kingdom Z O 3.0 201.5 1 1.2 0.1 8 0.3 Volcanic Lava Flow1021 74 HS 64.7 -14.3 10.0 10.0 Geologic timescale Atlantic Ocean Iceland Z O -70.6 243.3 4 12.1 1.3 11 1.8 Volcanic Lava Flow1022 75 Gravnoi 45.5 3.0 1.0 1.0 Estimated age Europe France T- N 58.5 347.5 4 18.0 3.1 Sediment Baked contact

1023 76 BC 32 36 13.9 107.9 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 36.0 2.0 6 Volcanic Basalt1024 76 BL 56 59 11.6 107.8 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 33.0 2.0 6 Volcanic Basalt1025 76 DM 37 13.9 107.9 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 34.5 1.5 4 Volcanic Basalt1026 76 KS 23 25 16.6 106.7 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 49.5 2.5 5 Volcanic Basalt1027 76 LK 01 07 13.9 107.9 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 51.0 4.0 8 Volcanic Basalt1028 76 LK 08 10 13.9 107.9 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 35.0 2.0 6 Volcanic Basalt



1029 76 LK 11 14 13.9 107.9 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 39.5 4.5 11 Volcanic Basalt1030 76 LK 16 18 13.9 107.9 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 37.5 0.5 1 Volcanic Basalt1031 76 LK 19 13.9 107.9 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 40.0 2.0 5 Volcanic Basalt1032 76 LK 20 13.9 107.9 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 44.0 4.0 9 Volcanic Basalt1033 76 LK 21 13.9 107.9 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 45.0 3.0 7 Volcanic Basalt1034 76 LK 22 26 13.9 107.9 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 37.0 4.0 11 Volcanic Basalt1035 76 LK 24 30 13.9 107.9 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 60.5 4.5 7 Volcanic Basalt1036 76 LK 47 11.0 107.2 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 44.5 1.5 3 Volcanic Basalt1037 76 PL 38 13.9 107.9 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 40.5 1.5 4 Volcanic Basalt1038 76 SC 30 37 41 13.5 109.2 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 41.0 3.0 7 Volcanic Basalt1039 76 XL 42 43 10.9 107.2 0.7 0.3 Estimated age Asia Vietnam HeZ O 2 37.0 4.0 11 Volcanic Basalt1040 77 1234-37 50.0 18.0 110.0 10.0 Geologic timescale Europe Slovakia TZ O 5 28.7 2.3 8 Baked contact

1041 77 252-260 49.0 20.0 427.5 2.5 Geologic timescale Europe Slovakia TZ O 6 23.5 4.7 20 Volcanic Rhyolite

1042 77 330 48.0 19.0 3.0 3.0 Geologic timescale Europe Slovakia T- O 2 37.6 4.2 11 Volcanic Basalt1043 77 332 48.0 19.0 0.5 0.2 K/Ar Europe Slovakia T- O 2 27.3 2.4 9 Volcanic1044 77 338 48.0 19.0 3.0 3.0 Geologic timescale Europe Slovakia T- O 2 11.3 3.3 29 Volcanic1045 77 340 48.0 19.0 3.0 3.0 Geologic timescale Europe Slovakia T- O 2 13.2 3.8 29 Volcanic1046 77 342 48.0 19.0 3.0 3.0 Geologic timescale Europe Slovakia T- O 2 62.5 5.6 9 Volcanic1047 77 351 48.0 19.0 6.2 4.5 K/Ar Europe Slovakia T- O 2 14.6 2.8 19 Volcanic1048 77 352 48.0 19.0 1.5 0.3 K/Ar Europe Slovakia T- O 2 16.4 6.1 37 Volcanic1049 77 355 48.0 19.0 1.7 0.3 K/Ar Europe Slovakia T- O 2 99.2 10.3 10 Volcanic1050 77 356 48.0 19.0 3.0 3.0 Geologic timescale Europe Slovakia T- O 2 13.2 0.9 7 Volcanic1051 77 357 48.0 19.0 2.8 0.4 K/Ar Europe Slovakia T- O 2 36.7 5.2 14 Volcanic1052 77 358 48.0 19.0 3.0 3.0 Geologic timescale Europe Slovakia T- O 2 53.6 4.2 8 Volcanic1053 77 359 48.0 19.0 1.4 0.3 K/Ar Europe Slovakia T- O 2 37.6 10.3 27 Volcanic1054 77 361 48.0 19.0 3.0 3.0 Geologic timescale Europe Slovakia T- O 2 9.9 3.3 33 Volcanic1055 78 1 20.7 -102.2 13.0 2.0 K/Ar North America Mexico S O 7 36.2 317.7 33 2 56.8 0.4 1 13.0 Volcanic1056 78 2 20.7 -102.2 30.0 20.0 Geologic timescale North America Mexico S O 8 47.0 352.2 26 1 58.5 11.7 Volcanic1057 78 3 20.7 -102.2 30.0 20.0 Geologic timescale North America Mexico S O 8 39.4 339.7 107 2 52.6 1.7 3 11.4 Volcanic1058 78 4 20.6 -102.2 52.0 10.0 K/Ar North America Mexico S O 7 40.9 323.4 8 2 8.4 0.2 2 1.9 Volcanic1059 78 7 20.7 -102.5 14.0 2.0 K/Ar North America Mexico S O 6 -28.5 154.7 6 1 20.5 4.8 Volcanic1060 78 8 20.8 -102.4 12.0 2.0 K/Ar North America Mexico S O 9 -33.6 4.5 12 2 28.6 11.5 40 6.5 Volcanic1061 79 Maseru trans -29.5 28.0 196.0 52.0 Geologic timescale Africa Lesotho Z T 22 3.9 0.5 13 Volcanic Lava Flow1062 79 Sani Pass & Maseru -29.5 28.0 196.0 52.0 Geologic timescale Africa South Africa Z N 54 -52.0 329.0 19.0 0.2 1 3.6 Volcanic Lava Flow1063 80 baked laterite 55.1 -6.4 33.5 31.5 Geologic timescale Europe Ireland W O -41.0 178.0 8.0 2 42.0 3.0 7 8.9 Baked contact

1064 81 Deccan-BO3 19.3 74.0 67.0 1.0 Ar/Ar Asia India S O 69.0 157.0 2 25.5 4.0 16 3.9 Volcanic Lava Flow1065 81 Deccan-IG01 19.7 73.4 67.0 1.0 Ar/Ar Asia India S O -81.0 297.0 2 16.0 0.7 4 2.2 Volcanic Lava Flow1066 81 Deccan-IG05 19.7 73.5 67.0 1.0 Ar/Ar Asia India S O -33.0 43.0 1 16.6 3.8 Volcanic Lava Flow1067 81 Deccan-IG09 19.7 73.5 67.0 1.0 Ar/Ar Asia India S O 27.0 155.0 1 17.8 4.2 Volcanic Lava Flow1068 81 Deccan-IG11 19.7 73.5 67.0 1.0 Ar/Ar Asia India S O 38.0 160.0 1 15.1 3.4 Volcanic Lava Flow1069 81 Deccan-IG24 19.8 73.6 67.0 1.0 Ar/Ar Asia India S O 71.0 149.0 2 55.6 12.8 23 8.2 Volcanic Lava Flow1070 81 Deccan-KH1 18.8 73.4 67.0 1.0 Ar/Ar Asia India S O 39.0 164.0 2 24.1 4.2 17 5.2 Volcanic Lava Flow1071 81 Deccan-MD45 19.3 73.9 67.0 1.0 Ar/Ar Asia India S O 62.0 148.0 2 12.1 1.0 8 2.0 Volcanic Lava Flow1072 81 Deccan-PUNE1 18.5 73.9 67.0 1.0 Ar/Ar Asia India S O 62.0 119.0 2 21.3 1.5 7 3.6 Volcanic Lava Flow1073 81 Deccan-PUNE2 18.5 73.9 67.0 1.0 Ar/Ar Asia India S O 9.0 142.0 2 9.2 1.7 18 2.4 Volcanic Lava Flow1074 81 Deccan-RN01 22.5 75.8 67.0 1.0 Ar/Ar Asia India S O 56.0 135.0 2 18.7 3.0 16 3.4 Volcanic Lava Flow1075 81 Deccan-RN03 22.4 75.6 67.0 1.0 Ar/Ar Asia India S O 36.0 149.0 1 31.9 7.1 Volcanic Lava Flow1076 81 Deccan-RN04 22.3 75.5 67.0 1.0 Ar/Ar Asia India S O -55.0 16.0 2 15.1 4.0 26 2.8 Volcanic Lava Flow1077 81 Deccan-RN08 22.6 74.1 67.0 1.0 Ar/Ar Asia India S O 32.0 172.0 2 21.2 2.1 10 4.9 Volcanic Lava Flow



1078 81 Deccan-RN09 22.6 74.1 67.0 1.0 Ar/Ar Asia India S O 77.0 208.0 2 25.4 0.1 0 3.5 Volcanic Lava Flow1079 81 Deccan-RN10 22.6 74.1 67.0 1.0 Ar/Ar Asia India S O 75.0 231.0 2 21.6 3.3 15 3.1 Volcanic Lava Flow1080 81 Deccan-RN16 22.2 75.6 67.0 1.0 Ar/Ar Asia India S O 7.0 166.0 1 45.5 11.7 Volcanic Lava Flow1081 81 Deccan-RN17 22.2 75.6 67.0 1.0 Ar/Ar Asia India S O 6.0 154.0 2 13.7 0.2 1 3.5 Volcanic Lava Flow1082 81 Deccan-RN18 22.1 74.9 67.0 1.0 Ar/Ar Asia India S O 72.0 164.0 2 45.5 4.4 10 6.7 Volcanic Lava Flow1083 81 Deccan-TRM11 19.9 73.5 67.0 1.0 Ar/Ar Asia India S O 14.0 152.0 1 25.7 6.5 Volcanic Lava Flow1084 81 Disco-2-09 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -76.0 145.0 3 21.4 3.0 14 3.0 Volcanic Lava Flow1085 81 Disco-2-10 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -72.0 172.0 8 63.4 3.8 6 9.3 Volcanic Lava Flow1086 81 Disco-2-11 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -59.0 144.5 2 15.6 1.3 8 2.7 Volcanic Lava Flow1087 81 Disco-2-12 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -59.0 144.5 1 29.8 5.2 Volcanic Lava Flow1088 81 Disco-2-13 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -75.5 205.0 5 36.3 6.4 18 5.1 Volcanic Lava Flow1089 81 Disco-2-14 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -62.0 131.0 5 20.2 1.8 9 3.4 Volcanic Lava Flow1090 81 Disco-2-15 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -49.0 143.0 6 10.2 1.1 11 2.0 Volcanic Lava Flow1091 81 Disco-2-16 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -72.5 113.5 7 17.8 2.1 12 2.6 Volcanic Lava Flow1092 81 Disco-2-17 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -69.0 173.0 8 70.6 6.2 9 10.7 Volcanic Lava Flow1093 81 Disco-2-18 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -71.5 146.0 7 40.6 6.2 15 6.0 Volcanic Lava Flow1094 81 Disco-2-19 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -68.0 143.5 7 24.3 4.5 19 3.7 Volcanic Lava Flow1095 81 Disco-2-20 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -72.5 172.0 5 21.7 4.3 20 3.2 Volcanic Lava Flow1096 81 Disco-3-21 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -72.5 158.0 8 36.8 5.0 14 5.4 Volcanic Lava Flow1097 81 Disco-3-22 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -80.5 251.0 4 59.8 5.1 9 8.0 Volcanic Lava Flow1098 81 Disco-3-23 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -76.5 175.0 2 24.0 6.6 28 3.3 Volcanic Lava Flow1099 81 Disco-3-24 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -62.5 170.5 2 26.0 6.0 23 4.3 Volcanic Lava Flow1100 81 Disco-3-25 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -63.5 128.5 1 36.0 5.9 Volcanic Lava Flow1101 81 Disco-3-26 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -67.0 143.5 2 25.1 2.9 12 3.9 Volcanic Lava Flow1102 81 Disco-3-27 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -78.5 196.0 2 51.8 3.0 6 7.1 Volcanic Lava Flow1103 81 Disco-3-28 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -47.0 81.0 4 74.6 4.4 6 14.9 Volcanic Lava Flow1104 81 Disco-3-29 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -74.0 159.0 1 35.5 5.1 Volcanic Lava Flow1105 81 Disco-3-32 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -79.0 233.0 3 22.6 3.6 16 3.1 Volcanic Lava Flow1106 81 Disco-3-33 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -82.5 231.0 3 25.4 0.9 4 3.4 Volcanic Lava Flow1107 81 Disco-3-34 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -69.5 247.0 2 78.2 9.0 12 11.8 Volcanic Lava Flow1108 81 Disco-3-35 70.2 -53.4 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -68.5 187.5 1 36.8 5.6 Volcanic Lava Flow1109 81 Disco-5-39 70.2 -53.5 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -76.0 150.0 11 51.1 3.0 6 7.2 Volcanic Lava Flow1110 81 Disco-5-40 70.2 -53.5 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -81.5 143.0 5 76.6 34.2 45 10.2 Volcanic Lava Flow1111 81 Disco-5-41 70.2 -53.5 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -62.0 109.5 7 76.1 5.2 7 12.7 Volcanic Lava Flow1112 81 Disco-5-42 70.2 -53.5 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -65.0 153.0 4 57.6 17.9 31 9.2 Volcanic Lava Flow1113 81 Disco-5-43 70.2 -53.5 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -63.5 141.0 8 19.8 2.0 10 3.2 Volcanic Lava Flow1114 81 Disco-5-44 70.2 -53.5 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -74.0 92.0 9 29.8 6.2 21 4.3 Volcanic Lava Flow1115 81 Disco-5-45 70.2 -53.5 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -85.0 107.0 6 19.8 1.6 8 2.6 Volcanic Lava Flow1116 81 Disco-5-46 70.2 -53.5 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -61.0 126.5 6 24.7 1.8 7 4.2 Volcanic Lava Flow1117 81 Disco-5-49 70.2 -53.5 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -75.5 91.5 1 12.8 1.8 Volcanic Lava Flow1118 81 Disco-5-52 70.2 -53.5 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -76.0 96.0 1 53.5 7.5 Volcanic Lava Flow1119 81 Disco-5-53 70.2 -53.5 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -69.0 154.0 1 93.7 14.3 Volcanic Lava Flow1120 81 Disco-5-54 70.2 -53.5 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O -80.5 174.0 3 22.0 4.7 21 3.0 Volcanic Lava Flow1121 81 Disco-6-60 70.3 -53.9 64.7 1.4 Ar/Ar Atlantic Ocean Greenland S O 62.0 355.0 1 14.6 2.4 Volcanic Lava Flow1122 81 North Narmada-01 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 47.0 146.0 2 4.3 0.4 9 0.9 Volcanic Lava Flow1123 81 North Narmada-03 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O -65.0 333.0 2 8.4 0.4 5 1.4 Volcanic Lava Flow1124 81 North Narmada-04 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O -56.0 331.0 2 13.3 5.0 38 2.4 Volcanic Lava Flow1125 81 North Narmada-06 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O -53.0 334.0 1 14.8 2.8 Volcanic Lava Flow1126 81 North Narmada-08 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 30.0 147.0 2 11.1 5.0 45 2.6 Volcanic Lava Flow



1127 81 North Narmada-09 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 33.0 193.0 2 19.4 0.4 2 4.4 Volcanic Lava Flow1128 81 North Narmada-10 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 56.0 154.0 1 8.5 1.5 Volcanic Lava Flow1129 81 North Narmada-12 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 37.0 137.0 1 14.2 3.1 Volcanic Lava Flow1130 81 North Narmada-13 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 35.0 168.0 2 8.1 2.1 26 1.8 Volcanic Lava Flow1131 81 North Narmada-16 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 37.0 146.0 2 10.0 2.5 25 2.6 Volcanic Lava Flow1132 81 North Narmada-17 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O -9.0 148.0 1 11.8 3.0 Volcanic Lava Flow1133 81 North Narmada-20 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 52.0 335.0 1 27.9 5.3 Volcanic Lava Flow1134 81 South Narmada-01 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 70.0 129.0 2 31.9 13.4 42 4.8 Volcanic Lava Flow1135 81 South Narmada-02 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O -63.0 354.0 2 28.3 23.1 82 4.7 Volcanic Lava Flow1136 81 South Narmada-04 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 60.0 143.0 1 39.5 6.7 Volcanic Lava Flow1137 81 South Narmada-06 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 70.0 107.0 1 21.0 3.2 Volcanic Lava Flow1138 81 South Narmada-09 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 30.0 154.0 2 18.4 8.1 44 4.3 Volcanic Lava Flow1139 81 South Narmada-15 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 46.0 115.0 2 28.4 5.5 19 5.7 Volcanic Lava Flow1140 81 South Narmada-16 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 52.0 157.0 1 12.8 2.4 Volcanic Lava Flow1141 81 South Narmada-17 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 55.0 137.0 1 13.9 2.5 Volcanic Lava Flow1142 81 South Narmada-18 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 64.0 160.0 1 12.7 2.1 Volcanic Lava Flow1143 81 South Narmada-19 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 33.0 116.0 1 29.3 6.7 Volcanic Lava Flow1144 81 South Narmada-20 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 34.0 133.0 1 42.8 9.7 Volcanic Lava Flow1145 81 South Narmada-21 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 3.0 136.0 2 30.4 0.8 3 7.8 Volcanic Lava Flow1146 81 South Narmada-25 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O 35.0 176.0 2 22.7 4.9 22 5.1 Volcanic Lava Flow1147 81 South Narmada-26 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O -47.0 40.0 1 30.0 6.0 Volcanic Lava Flow1148 81 South Narmada-27 22.0 75.0 67.2 1.0 Ar/Ar Asia India S O -54.0 342.0 2 11.3 3.0 27 2.1 Volcanic Lava Flow1149 82 Kerforne-NB 48.4 -4.8 201.0 3.0 Ar/Ar Europe France T+ N 24 67.0 47.1 79 3.3 14 18.9 2.4 13 3.0 Plutonic Dyke1150 82 Kerforne-SB 48.4 -4.8 201.0 3.0 Ar/Ar Europe France T+ N 18 64.1 26.2 457 1.6 20 20.3 5.0 25 3.3 Plutonic Dyke1151 82 Messejana-O1 37.6 -8.7 201.0 3.0 Ar/Ar Europe Portugal T+ N 5 42.6 328.7 588 3.2 5 20.4 2.3 11 4.3 Plutonic Dyke1152 82 Messejana-O2 37.6 -8.6 201.0 3.0 Ar/Ar Europe Portugal T+ N 13 43.4 355.8 368 2.2 13 16.5 2.5 15 3.4 Plutonic Dyke1153 82 Messejana-P1 39.9 -6.3 201.0 3.0 Ar/Ar Europe Spain T+ N 14 56.0 334.8 373 2.1 4 22.9 4.9 21 4.1 Plutonic Dyke1154 82 Messejana-P2 40.0 -6.1 201.0 3.0 Ar/Ar Europe Spain T+ N 5 36.5 348.1 198 5.4 3 17.5 2.0 11 3.9 Plutonic Dyke1155 83 Hart dolerite -17.5 127.1 1726.0 25.0 Geologic timescale Australia Australia ONR O 2.0 121.0 30 4.8 1.2 Volcanic Dolerite

1156 84 Tagmyr 01 69.5 91.0 245.0 5.0 Geologic timescale Asia Russia T- O 20 -77.0 288.0 2.0 21 26.0 1.0 4 3.6 Volcanic Basalt Baked contactlavas and baked contacts with hematite or magnetit Replace Ref 12 to 14

1157 84 Tagmyr 02 69.5 91.0 245.0 5.0 Geologic timescale Asia Russia T- O 20 -76.0 293.0 3.0 13 25.0 1.0 4 3.5 Plutonic Dykelavas and baked contacts with hematite or magnetit Replace Ref 12 to 14

1158 84 Tagmyr 03 69.5 91.0 245.0 5.0 Geologic timescale Asia Russia T- O 18 73.0 138.0 4.0 17 24.0 1.0 4 3.5 Volcanic Basalt Baked contactlavas and baked contacts with hematite or magnetit Replace Ref 12 to 14

1159 84 Tagmyr 04 69.5 91.0 245.0 5.0 Geologic timescale Asia Russia T- O 13 17.0 149.0 6.0 15 23.0 2.0 9 5.8 Plutonic Dykelavas and baked contacts with hematite or magnetit Replace Ref 12 to 14







1166 84 Tagmyr 11 69.5 91.0 245.0 5.0 Geologic timescale Asia Russia T- O 50 76.0 100.0 1.0 50 35.0 1.0 3 4.9 Sediment Argilite Baked contactlavas and baked contacts with hematite or magnetit Replace Ref 12 to 14

1167 84 Tagmyr 12 69.5 91.0 245.0 5.0 Geologic timescale Asia Russia T- O 72 70.5 85.0 1.0 75 30.0 1.0 3 4.5 Volcanic Tuff Baked contactlavas and baked contacts with hematite or magnetit Replace Ref 12 to 14

1168 84 Tagmyr 13 69.5 91.0 245.0 5.0 Geologic timescale Asia Russia T- O 14 73.0 83.0 2.0 9 31.0 4.0 13 4.5 Volcanic Basalt Lava Flowlavas and baked contacts with hematite or magnetit Replace Ref 12 to 14



1171 84 Tagmyr 16 69.5 91.0 245.0 5.0 Geologic timescale Asia Russia T- O 24 77.0 108.0 1.0 25 29.0 1.0 3 4.0 Volcanic Ignimbrite Baked contactlavas and baked contacts with hematite or magnetit Replace Ref 12 to 14


1173 84 Tagmyr 18 69.5 91.0 245.0 5.0 Geologic timescale Asia Russia T- O 55 66.0 104.0 2.0 52 24.0 1.0 4 3.8 Sediment Argilite Baked contactlavas and baked contacts with hematite or magnetit Replace Ref 12 to 14








1179 84 Tagmyr 24 69.5 91.0 245.0 5.0 Geologic timescale Asia Russia T- O 10 73.0 116.0 5.0 10 23.0 1.0 4 3.3 Volcanic Ignimbrite Baked contactlavas and baked contacts with hematite or magnetit Replace Ref 12 to 14



1182 84 Tagmyr 27 69.5 91.0 245.0 5.0 Geologic timescale Asia Russia T- O 16 60.0 102.0 3.0 14 23.0 1.0 4 3.9 Volcanic Scoria Baked contactlavas and baked contacts with hematite or magnetit Replace Ref 12 to 14

1183 84 Tagmyr 28 69.5 91.0 245.0 5.0 Geologic timescale Asia Russia T- O 17 75.0 83.0 2.0 10 22.0 1.0 5 3.1 Volcanic Baked contactlavas and baked contacts with hematite or magnetit Replace Ref 12 to 14


1185 85 North Caucasus 01l 43.0 41.0 276.5 18.5 Geologic timescale Europe Russia T- O 9 -28.0 230.0 6.0 9 36.0 3.0 8 8.5 Volcanic Porphyrite Baked contact Magnetitte and/or hematite Left bank of the Aksaut river

1186 85 North Caucasus 01r 43.0 41.0 276.5 18.5 Geologic timescale Europe Russia T- O 12 -37.0 254.0 7.0 4 53.0 3.0 6 11.7 Volcanic Tuff Baked contact Magnetitte and/or hematite Right bank of the Aksaut river


1188 85 North Caucasus 02r 43.0 41.0 276.5 18.5 Geologic timescale Europe Russia T- O 5 -32.0 254.0 10.0 5 51.0 2.0 4 11.7 Volcanic Tuff Baked contact Magnetitte and/or hematite Right bank of the Aksaut river


1190 85 North Caucasus 03r 43.0 41.0 276.5 18.5 Geologic timescale Europe Russia T- O 13 -32.0 248.0 6.0 10 50.0 3.0 6 11.5 Volcanic Porphyrite Baked contact Magnetitte and/or hematite Right bank of the Aksaut river

1191 85 North Caucasus 04l 43.0 41.0 276.5 18.5 Geologic timescale Europe Russia WB O 6 -12.0 241.0 8.0 6 43.0 3.0 7 10.9 Volcanic Porphyrite Baked contact Magnetitte and/or hematite Left bank of the Aksaut river

1192 85 North Caucasus 04r 43.0 41.0 276.5 18.5 Geologic timescale Europe Russia WB O 11 -20.0 260.0 8.0 8 52.0 3.0 6 12.8 Volcanic Porphyrite Baked contact Magnetitte and/or hematite Right bank of the Aksaut river





1197 85 North Caucasus 07l 43.0 41.0 276.5 18.5 Geologic timescale Europe Russia T- O 4 -28.0 224.0 10.0 8 36.0 3.0 8 8.5 Volcanic Tuff Baked contact Magnetitte and/or hematite Left bank of the Aksaut river



1200 85 North Caucasus 08r 43.0 41.0 276.5 18.5 Geologic timescale Europe Russia WB O 11 -26.0 242.0 9.0 16 54.0 2.0 4 12.9 Volcanic Porphyrite Lava Flow Magnetitte and/or hematite Right bank of the Aksaut river





1205 85 North Caucasus 11l 43.0 41.0 276.5 18.5 Geologic timescale Europe Russia WB O 6 -42.0 232.0 9.0 9 44.0 3.0 7 9.3 Volcanic Scoria Baked contact Magnetitte and/or hematite Left bank of the Aksaut river


1207 85 North Caucasus 12l 43.0 41.0 276.5 18.5 Geologic timescale Europe Russia WB O 8 -29.0 259.0 7.0 2 48.0 11.3 Volcanic Porphyrite Lava Flow Magnetitte and/or hematite Left bank of the Aksaut river


1209 85 North Caucasus 13l 43.0 41.0 276.5 18.5 Geologic timescale Europe Russia WB O 6 -20.0 248.0 9.0 4 48.0 2.0 4 11.9 Volcanic Scoria Baked contact Magnetitte and/or hematite Left bank of the Aksaut river


1211 85 North Caucasus 14l 43.0 41.0 276.5 18.5 Geologic timescale Europe Russia T- O 6 -16.0 227.0 6.0 6 31.0 2.0 6 7.8 Volcanic Porphyrite Lava Flow Magnetitte and/or hematite Left bank of the Aksaut river


1213 85 North Caucasus 15l 43.0 41.0 276.5 18.5 Geologic timescale Europe Russia T- O 8 -28.0 218.0 8.0 6 47.0 3.0 6 11.1 Volcanic Scoria Baked contact Magnetitte and/or hematite Left bank of the Aksaut river





























1240 86 Karzhantau 1 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 3 -24.0 132.0 2 48.0 11.6 Volcanic Porphyrite Baked contact Magnetitte and/or hematite Mean : 24 specimens kappa=42 and alpha95=10

1241 86 Karzhantau 2 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 3 -25.0 150.0 2 47.0 11.3 Volcanic Tuff Baked contact Magnetitte and/or hematite

1242 86 Karzhantau 3 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 2 -28.0 168.0 2 48.0 11.3 Volcanic Porphyrite Baked contact Magnetitte and/or hematite

1243 86 Karzhantau 4 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 7 -32.0 174.0 8 49.0 2.0 4 11.3 Volcanic Porphyrite Baked contact Magnetitte and/or hematite

1244 86 Karzhantau 5 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 4 -36.0 180.0 6 47.0 3.0 6 10.5 Volcanic Scoria Baked contact Magnetitte and/or hematite

1245 86 Karzhantau 6 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 5 -48.0 168.0 9 48.0 2.0 4 9.5 Volcanic Tuff Baked contact Magnetitte and/or hematite

1246 86 Kuramin 1-01 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 4 -40.0 125.0 12 48.0 1.0 2 10.3 Volcanic Baked contact Magnetitte and/or hematite

1247 86 Kuramin 1-02 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 7 -47.0 142.0 12 48.0 1.0 2 9.6 Volcanic Tuff Baked contact Magnetitte and/or hematite


1249 86 Kuramin 1-04 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 7 -35.0 183.0 8 48.0 2.0 4 10.8 Baked contact Magnetitte and/or hematite







1256 86 Kuramin 1-11 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 6 -37.0 160.0 6 49.0 2.0 4 10.8 Volcanic Scoria Baked contact Magnetitte and/or hematite

1257 86 Kuramin 1-13 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 8 -32.0 158.0 4 47.0 2.0 4 10.8 Volcanic Porphyrite Baked contact Magnetitte and/or hematite



1260 86 Kuramin 1-16 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 4 -40.0 140.0 3 40.0 3.0 8 8.6 Volcanic Lava Flow Magnetitte and/or hematite











1271 86 Kuramin 1-27 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 5 49.0 2.0 4 Baked contact Magnetitte and/or hematite













1282 86 Kuramin 1-38 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 6 -42.0 94.0 2 48.0 10.1 Baked contact Magnetitte and/or hematite


1284 86 Kuramin 1-40 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 6 -31.0 114.0 1 47.0 10.9 Baked contact Magnetitte and/or hematite

1285 86 Kuramin 2-01 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 10 -36.0 120.0 4 40.0 4.0 10 8.9 Volcanic Lava Flow Magnetitte and/or hematite Mean: 136 specimens kappa=25 and alpha95=8



1288 86 Kuramin 2-04 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 6 42.0 2.0 5 Volcanic Tuff Baked contact Magnetitte and/or hematite










1298 86 Tashkent Dome 41.0 70.0 325.0 20.0 Geologic timescale Asia Uzbekistan T- O 15 -31.0 116.0 111 4.0 19 43.0 1.0 2 9.9 Volcanic Ignimbrite Hematite1299 87 Dukent section 41.0 70.0 315.0 15.0 Geologic timescale Asia Uzbekistan T- O 103 -32.0 120.0 42 6.0 172 48.0 1.0 2 11.0 Baked contact Magnetite and/or hematite Mean results from 13 contacts and flows

1300 87 Karzhantau 01 41.0 70.0 310.0 15.0 Geologic timescale Asia Uzbekistan T- O 9 -45.0 87.0 85 6.0 12 46.0 1.0 2 9.4 Volcanic Lava Flow Magnetite and/or hematite

1301 87 Karzhantau 02 41.0 70.0 310.0 15.0 Geologic timescale Asia Uzbekistan T- O 9 -46.0 90.0 71 7.0 10 47.0 1.0 2 9.5 Volcanic Tuff Baked contact Magnetite and/or hematite

1302 87 Karzhantau 03 41.0 70.0 310.0 15.0 Geologic timescale Asia Uzbekistan T- O 13 -56.0 74.0 55 6.0 9 47.0 1.0 2 8.5 Volcanic Ignimbrite Magnetite and/or hematite



















1321 87 Karzhantau 22 41.0 70.0 310.0 15.0 Geologic timescale Asia Uzbekistan T- O 12 -56.0 79.0 170 3.0 12 49.0 1.0 2 8.8 Baked contact Magnetite and/or hematite







1326 87 Nishbash section 41.0 70.0 315.0 15.0 Geologic timescale Asia Uzbekistan T- O 256 -37.0 90.0 35 4.0 245 48.0 1.0 2 10.6 Baked contact Magnetite and/or hematite Mean results from 34 contacts and flows

1327 87 Tashkent 1 41.0 70.0 310.0 15.0 Geologic timescale Asia Uzbekistan T- O 11 -34.0 96.0 22 5.0 9 46.0 2.0 4 10.4 Baked contact Magnetite and/or hematite Contact with dyke

1328 87 Tashkent 2 41.0 70.0 310.0 15.0 Geologic timescale Asia Uzbekistan T- O 10 -34.0 118.0 11 12.0 4 46.0 2.0 4 10.4 Baked contact Magnetite and/or hematite Contact with dyke

1329 87 Tashkent 3 41.0 70.0 315.0 15.0 Geologic timescale Asia Uzbekistan T- O 7 -33.0 131.0 17 15.0 7 43.0 3.0 7 9.8 Volcanic Lava Flow Magnetite and/or hematite Two contacts with dyke

1330 87 Tashkent 4 41.0 70.0 315.0 15.0 Geologic timescale Asia Uzbekistan T- O 17 -47.0 140.0 48 5.0 25 47.0 2.0 4 9.4 Volcanic Magnetite and/or hematite Extrusive dome

1331 88 Hole 417D 20.8 -59.0 125.0 Estimated age Atlantic Ocean Caribbean T+ R 11 12.0 3.0 25 2.8 Volcanic Basalt Chilled margin VADM1332 88 Hole 418A 20.8 -59.0 125.0 Estimated age Atlantic Ocean Caribbean T+ R 11 15.5 8.8 57 3.5 Volcanic Basalt Chilled margin VADM1333 88 Hole 543A 15.5 -59.0 84.0 Geomagnetic polarity timescale Atlantic Ocean Lesser Antilles T+ N -21.0 10 7.9 2.2 28 2.0 Volcanic Basalt Chilled margin VADM1334 88 Hole 807C 3.0 -144.1 122.3 1.0 Ar/Ar Pacific Ocean T+ N 18 19.4 7.4 38 3.6 Volcanic Basalt Chilled margin VADM1335 89 Hawaii 01a,b,c 19.6 -155.1 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 12 41.3 5.5 630 1.7 4 52.6 5.3 10 10.9 Volcanic Lava Flow

Ti-rich+Ti-poor TiMa,Tc appr. 200°C, 530°C, Qn>46

1336 89 Hawaii 02 19.5 -155.3 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 12 36.6 7.6 1662 1.1 4 47.9 0.6 1 10.6 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 130°C, 500°C, Qn>107





1341 89 Hawaii 07+08 19.1 -115.6 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 12 14.7 11.2 439 2.1 4 48.1 12.3 24 12.1 Volcanic Lava FlowTi-poor TiMa,Tc appr. 530°C, Qn>3


1343 89 Hawaii 10 19.6 -155.0 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 11 25.7 357.7 370 2.3 5 51.7 11.6 22 12.4 Volcanic Lava FlowTi-poor TiMa,Tc appr. 180°C, 250°C, Qn>7











VDMc = 9.5



1356 91 Boissejour 46.0 3.0 0.1 Thermoluminescence Europe France T- N 62.0 4 20.0 1.0 5 3.3 Sediment Sandstone Baked contactMagnetite and TiMa with Tc around 250°C

1357 91 Royat 46.0 3.0 0.0 0.0 Thermoluminescence Europe France T- N 66.5 295.5 7 15.0 1.0 7 2.4 Sediment Baked contactMagnetite and TiMa with Tc around 250°C

1358 92 Daisen DS04 35.5 133.5 0.0 0.0 Carbon 14 Asia Japan T+ N 13 44.8 339.2 2.3 9 21.0 1.7 8 4.3 Volcanic Lava Flow1359 92 Daisen Volcano DS02 35.4 133.6 0.0 0.0 Stratigraphic Asia Japan T+ N 6 48.9 13.5 4.8 5 17.7 1.7 10 3.5 Volcanic Lava Flow1360 92 Eniwadake SK01 42.8 141.3 0.0 0.0 Carbon 14 Asia Japan T+ N 7 71.8 20.3 5.0 5 37.6 1.9 5 5.5 Volcanic Lava Flow1361 92 NZ09 Taupo -38.7 176.0 0.0 0.0 Carbon 14 Pacific Ocean New Zealand T+ N 9 -47.3 41.5 10.7 7 96.9 12.7 13 19.3 Volcanic Lava Flow1362 92 Pukenaka NZ02 -39.2 175.5 0.0 Stratigraphic Pacific Ocean New Zealand T+ N 11 -53.7 10.7 1.6 10 29.6 4.1 14 5.5 Volcanic Lava Flow1363 92 St Saturnin 46.0 3.0 0.0 0.0 Thermoluminescence Europe France T- N 7 79.0 14.0 18 12.8 Sediment Baked contact

1364 93 Zao 01 38.1 140.5 1.0 K/Ar Asia Japan T+ R 8 -75.7 210.6 9.1 2 33.9 3.9 12 4.7 Volcanic Lava Flow1365 93 Zao 02 38.1 140.5 1.0 K/Ar Asia Japan T+ R 8 -36.2 210.6 11.8 5 32.4 4.9 15 7.1 Volcanic Lava Flow1366 93 Zao 04 38.1 140.4 0.3 0.0 K/Ar Asia Japan T+ N 3 50.0 354.9 9.5 5 63.6 13.8 22 12.5 Volcanic Lava Flow1367 93 Zao 05 38.1 140.5 0.2 0.0 K/Ar Asia Japan T+ N 5 57.9 11.7 8.9 12 30.6 7.4 24 5.4 Volcanic Lava Flow1368 93 Zao 10 38.1 140.5 0.3 0.0 K/Ar Asia Japan T+ N 5 76.7 26.3 4.6 5 94.6 40.6 43 13.2 Volcanic Lava Flow1369 94 Hale Pohaku 19.7 -155.4 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 8 27.5 21.3 174 4.2 3 54.3 5.0 9 12.9 Volcanic Lava Flow1370 94 Hilina Pali I 19.3 -155.3 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 6 8.5 7.9 232 4.4 3 14.3 4.0 28 3.7 Volcanic Lava Flow1371 94 Hilina Pali II 19.3 -155.3 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 1 21.5 Volcanic Lava Flow



1372 94 Mamiania Pali I 19.0 -155.6 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 8 49.4 27.4 857 1.9 3 44.6 1.8 4 8.7 Volcanic Lava Flow1373 94 Mamiania Pali II 19.0 -155.6 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 7 1.1 353.2 59 8.0 3 29.4 3.5 12 7.6 Volcanic Lava Flow1374 94 Puu Loa Loa 19.7 -155.4 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 8 46.0 4.7 181 4.1 3 56.0 4.8 9 11.4 Volcanic Lava Flow1375 94 Visitor centre 19.4 -155.3 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 9 41.4 3.4 812 1.8 3 58.0 2.9 5 12.3 Volcanic Lava Flow1376 94 Waiohinu 19.1 -155.6 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 2 27.4 21.0 2 54.8 2.7 5 13.0 Volcanic Lava Flow1377 95 Barme 45.8 -3.0 0.0 0.0 Thermoluminescence Europe France T+ N 9 49.1 29.8 224 3.4 8 29.6 3.9 13 6.0 Volcanic Basalt Lava Flow1378 95 Come 45.8 -3.0 0.0 0.0 Thermoluminescence Europe France T+ N 9 65.1 350.0 211 3.6 5 29.6 3.5 12 4.8 Volcanic Basalt Lava Flow1379 95 Nugere 45.8 -3.0 0.0 0.0 Thermoluminescence Europe France T+ N 9 66.2 326.2 414 2.5 4 37.2 3.8 10 5.6 Volcanic Basalt Lava Flow1380 95 Pariou 45.8 -3.0 0.0 0.0 Thermoluminescence Europe France T+ N 13 69.7 351.6 221 2.8 5 45.5 2.6 6 6.9 Volcanic Basalt Lava Flow1381 95 Pontgibaud 45.8 -3.0 0.0 0.0 Thermoluminescence Europe France T+ N 9 60.8 351.2 796 1.8 7 32.7 2.4 7 5.6 Volcanic Basalt Lava Flow1382 95 S.Saturnin 45.8 -3.0 0.0 0.0 Carbon 14 Europe France T+ N 18 55.5 359.3 245 2.2 7 64.1 4.8 7 11.6 Volcanic Basalt Lava Flow1383 96 W3935 19.5 -155.5 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 30.0 5 9.9 1.7 17 2.4 Volcanic Basalt Lava Flow no information

1384 96 W4360 19.5 -155.5 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 22.0 5 29.2 3.6 12 7.2 Volcanic Basalt Lava Flow no information





1389 97 AH 50.2 6.9 0.5 0.0 Ar/Ar Europe Germany T+ T 25 74.0 98.0 2.0 20 23.2 2.0 9 3.3 VolcanicTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1390 97 AK 50.3 6.7 0.4 0.4 Estimated age Europe Germany T+ N 13 77.0 47.0 3.0 5 22.1 1.7 8 3.1 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 580°C,

1391 97 AV3 50.2 6.7 0.4 0.4 Estimated age Europe Germany T+ N 8 73.0 42.0 3.0 6 52.2 3.4 7 7.6 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1392 97 BY1 50.2 6.7 0.5 0.0 Ar/Ar Europe Germany T+ T 11 33.0 57.0 5.0 16 7.9 0.8 10 1.8 Plutonic DykeTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1393 97 DBK 50.3 6.8 0.5 0.0 Ar/Ar Europe Germany T+ T 38 78.0 90.0 1.0 26 22.7 1.9 8 3.1 Volcanic Ti-poor TiMa,Tc appr. 580°C,

1394 97 DLO 50.1 7.0 0.4 0.4 Estimated age Europe Germany T+ N 9 72.0 359.0 3.0 7 53.5 7.8 15 7.9 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 560°C,

1395 97 DO 50.2 6.8 0.4 0.4 Estimated age Europe Germany T+ N 22 39.0 65.0 3.0 5 49.7 4.3 9 8.0 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1396 97 EM1 50.2 6.8 0.4 0.4 Estimated age Europe Germany T+ N 13 73.0 353.0 6.0 5 40.8 2.6 6 5.9 VolcanicTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1397 97 EMU 50.2 6.8 0.4 0.4 Estimated age Europe Germany T+ N 30 65.0 8.0 2.0 7 39.5 2.9 7 6.3 VolcanicTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1398 97 FI 50.2 6.8 0.6 0.1 Ar/Ar Europe Germany T+ N 12 73.0 63.0 3.0 6 31.8 6.1 19 4.6 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 560°C,

1399 97 FLSO 50.2 6.7 0.4 0.4 Estimated age Europe Germany T+ N 13 61.0 33.0 7.0 5 26.4 1.0 4 4.4 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1400 97 FLY 50.1 7.0 0.4 0.4 Estimated age Europe Germany T+ N 8 64.0 5.0 2.0 6 62.0 2.7 4 10.1 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 560°C,

1401 97 FW 50.2 6.6 0.4 0.4 Estimated age Europe Germany T+ N 7 56.0 56.0 7.0 6 15.5 1.7 11 2.8 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1402 97 GI 50.3 6.7 0.4 0.4 Estimated age Europe Germany T+ N 28 61.0 350.0 4.0 5 23.6 3.9 17 4.0 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 560°C,

1403 97 GO 50.2 6.8 0.4 0.4 Estimated age Europe Germany T+ N 9 62.0 16.0 4.0 5 11.1 0.7 6 1.9 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1404 97 GOS 50.3 6.7 0.4 0.4 Estimated age Europe Germany T+ N 11 65.0 27.0 5.0 5 29.1 2.1 7 4.6 Volcanic Ti-poor TiMa,Tc appr. 560°C,

1405 97 HA 50.2 6.7 0.4 0.4 Estimated age Europe Germany T+ N 11 63.0 22.0 5.0 5 28.4 3.7 13 4.7 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1406 97 KAH 50.2 6.8 0.5 0.0 Ar/Ar Europe Germany T+ T 12 76.0 92.0 2.0 12 27.5 1.4 5 3.8 Plutonic Dyke Ti-poor TiMa,Tc appr. 560°C,

1407 97 KAS 50.3 6.7 0.5 0.0 Ar/Ar Europe Germany T+ T 16 69.0 91.0 5.0 7 23.5 1.7 7 3.6 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1408 97 KB 50.2 6.7 0.4 0.4 Estimated age Europe Germany T+ N 10 75.0 8.0 4.0 6 33.6 2.0 6 4.8 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 560°C,

1409 97 KH1 50.3 6.7 0.4 0.4 Estimated age Europe Germany T+ T 6 78.0 123.0 8.0 6 7.1 1.3 18 1.0 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 560°C,

1410 97 MO 50.1 6.8 0.4 0.4 Estimated age Europe Germany T+ N 26 66.0 332.0 2.0 11 44.1 3.9 9 7.0 VolcanicTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1411 97 MOW 50.1 6.8 0.4 0.4 Estimated age Europe Germany T+ N 21 69.0 328.0 2.0 6 55.6 5.3 10 8.5 Volcanic Ti-poor TiMa,Tc appr. 560°C,

1412 97 NEK 50.2 6.8 0.5 0.0 Ar/Ar Europe Germany T+ T 32 79.0 103.0 2.0 17 26.7 6.4 24 3.8 VolcanicTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1413 97 RB 50.1 7.0 0.4 0.4 Estimated age Europe Germany T+ N 13 68.0 12.0 4.0 11 48.7 5.3 11 7.5 VolcanicTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1414 97 RI 50.2 6.8 0.6 0.0 Ar/Ar Europe Germany T+ N 16 56.0 35.0 3.0 5 43.6 3.1 7 7.8 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1415 97 RK 50.2 6.6 0.6 0.0 Ar/Ar Europe Germany T+ T 38 71.0 91.0 2.0 20 21.2 2.4 11 3.2 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1416 97 RO 50.3 6.6 0.6 0.4 Estimated age Europe Germany T+ N 12 79.0 15.0 7.0 5 33.6 1.4 4 4.6 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1417 97 SK 50.3 6.6 0.6 0.4 Estimated age Europe Germany T+ N 10 75.0 47.0 4.0 5 41.3 2.7 7 5.8 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1418 97 SM 50.1 6.9 0.6 0.4 Estimated age Europe Germany T+ N 10 65.0 6.0 2.0 6 34.5 3.5 10 5.5 VolcanicTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1419 97 SMA 50.1 6.9 0.6 0.4 Estimated age Europe Germany T+ N 8 57.0 0.0 5.0 7 49.3 7.9 16 8.8 Volcanic Ti-poor TiMa,Tc appr. 580°C,

1420 97 SR 50.3 6.7 0.5 0.0 Ar/Ar Europe Germany T+ N 14 76.0 47.0 4.0 5 26.9 3.0 11 3.8 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 580°C,



1421 97 ST 50.3 6.8 0.4 0.4 Estimated age Europe Germany T+ N 13 64.0 18.0 3.0 11 49.6 4.3 9 8.1 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 560°C,

1422 97 SW 50.2 6.7 0.4 0.4 Estimated age Europe Germany T+ T 18 78.0 238.0 2.0 6 17.9 1.6 9 2.5 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1423 97 U 50.2 6.8 0.5 0.0 Ar/Ar Europe Germany T+ N 15 67.0 340.0 3.0 6 30.4 2.6 9 4.8 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1424 97 WA 50.1 6.9 0.4 0.4 Estimated age Europe Germany T+ N 53 64.0 358.0 1.0 11 47.1 6.0 13 7.7 VolcanicTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1425 97 WO 50.3 6.7 0.4 0.4 Estimated age Europe Germany T+ N 17 67.0 15.0 4.0 5 54.4 2.9 5 8.6 Volcanic Lava Flow Ti-rich TiMa,Tc appr. 300°C

1426 98 EK 50.4 7.1 0.4 0.4 Estimated age Europe Germany T+ N 16 68.0 19.0 203 3.0 9 29.1 2.5 9 4.5 Volcanic Lava Flow Ti-poor TiMa

1427 98 KP 50.4 7.1 0.4 0.4 Estimated age Europe Germany T+ N 10 68.0 9.0 207 3.0 5 31.0 3.2 10 4.8 Volcanic Lava Flow Ti-poor TiMa

1428 99 01 37.8 14.9 0.1 0.0 K/Ar Europe Italy T+ N 4 50.5 13.3 26 8.7 Volcanic Basalt Lava FlowTi-rich+Ti-poor TiMa,low temp. oxidation, Qn<9.5

VADM1429 99 02 37.8 14.9 0.1 0.0 K/Ar Europe Italy T+ N 1 45.0 6.1 14 8.0 Volcanic Basalt Lava Flow

Ti-rich+Ti-poor TiMa,low temp. oxidation, Qn<9.5

VADM1430 99 04 37.8 14.9 0.1 0.0 K/Ar Europe Italy T+ N 3 15.2 1.7 11 2.7 Volcanic Basalt Lava Flow


VADM1431 99 05 37.8 14.9 0.1 0.0 K/Ar Europe Italy T+ N 27.3 339.4 10.0 3 43.6 14.6 33 10.3 Volcanic Basalt Lava Flow


1432 99 06 37.8 14.9 0.1 0.0 K/Ar Europe Italy T+ N 1 18.4 11.6 63 4.2 Volcanic Basalt Lava FlowTi-rich+Ti-poor TiMa,low temp. oxidation, Qn<9.5

VADM1433 99 07 37.8 14.9 0.1 0.0 K/Ar Europe Italy T+ N 53.2 17.6 4.0 4 31.0 33.0 106 5.8 Volcanic Basalt Lava Flow


1434 99 09 37.8 14.9 0.1 0.0 K/Ar Europe Italy T+ N 37.0 6.1 7.1 4 16.0 4.5 28 3.5 Volcanic Basalt Lava FlowTi-rich+Ti-poor TiMa,low temp. oxidation, Qn<9.5




1438 100 AS 66.0 -16.5 0.0 Stratigraphic Atlantic Ocean Iceland T- N 45 71.6 359.2 232 1.6 4 34.0 2.0 6 5.0 Volcanic Basalt Lava Flow TiMa,TiHae, Tc appr. 560°C VDMc1439 100 BF 65.6 -16.8 0.0 Stratigraphic Atlantic Ocean Iceland T- N 11 77.4 31.3 169 3.3 2 72.0 3.0 4 9.9 Volcanic Basalt Lava Flow TiMa,TiHae, Tc appr. 550°C VDMc1440 100 DF 65.8 -16.4 0.0 Stratigraphic Atlantic Ocean Iceland T- N 11 76.6 42.0 419 2.1 2 76.0 8.0 11 10.6 Volcanic Basalt Lava Flow

TiMa,TiHae, Tc appr. 200°C, 520°C

VDMc1441 100 EL 64.1 -22.0 0.0 Carbon 14 Atlantic Ocean Iceland T- N 12 72.5 332.9 266 2.5 2 66.0 9.0 14 9.6 Volcanic Basalt Lava Flow


VDMc1442 100 GA 66.0 -16.6 0.0 Stratigraphic Atlantic Ocean Iceland T- N 19 76.9 357.9 186 3.8 2 32.0 1.0 3 4.4 Volcanic Basalt Lava Flow TiMa,TiHae, Tc appr. 560°C VDMc1443 100 GO 65.7 -17.6 0.0 Stratigraphic Atlantic Ocean Iceland T- N 16 71.0 339.0 653 1.4 2 56.0 3.0 5 8.3 Volcanic Basalt Lava Flow


VDMc1444 100 HH 64.0 -21.3 0.0 Stratigraphic Atlantic Ocean Iceland T- N 28 76.2 8.6 252 2.8 2 63.0 1.0 2 8.8 Volcanic Basalt Lava Flow


VDMc1445 100 LA 63.8 -18.5 0.0 Historic Atlantic Ocean Iceland T- N 12 73.5 311.1 219 2.7 1 49.0 7.1 Volcanic Basalt Lava Flow


VDMc1446 100 LG 65.6 -17.0 0.0 Stratigraphic Atlantic Ocean Iceland T- N 8 72.6 334.4 183 3.7 2 52.0 4.0 8 7.6 Volcanic Basalt Lava Flow


VDMc1447 100 LW 65.8 -17.3 0.0 Stratigraphic Atlantic Ocean Iceland T- N 32 79.3 351.9 186 2.6 2 82.0 1.0 1 11.1 Volcanic Basalt Lava Flow


VDMc1448 100 ME 63.7 -20.6 0.0 Stratigraphic Atlantic Ocean Iceland T- N 15 77.0 348.0 32 6.5 1 61.0 8.5 Volcanic Basalt Lava Flow TiMa,TiHae, Tc appr. 300°C VDMc1449 100 PJ 63.9 -20.6 0.0 Carbon 14 Atlantic Ocean Iceland T- N 9 75.2 20.5 391 2.4 2 69.0 9.0 13 9.8 Volcanic Basalt Lava Flow


VDMc1450 100 TH1 64.2 -21.2 0.0 Carbon 14 Atlantic Ocean Iceland T- N 12 84.8 30.2 138 3.2 1 56.0 7.3 Volcanic Basalt Lava Flow


VDMc1451 101 Branany-Kankov 50.5 13.7 1.0 1.0 Estimated age Europe Czechia T- N 18 69.9 1.2 12 10.6 8 27.7 5.2 19 4.2 Sediment Porcellanite Fe- and Mn-Oxides

1452 101 Dobrcice 50.5 13.8 1.0 1.0 Estimated age Europe Czechia T- N 24 67.0 356.1 38 4.9 8 72.4 15.0 21 11.3 Sediment Porcellanite Fe- and Mn-Oxides

1453 101 Komorany 50.5 13.6 1.0 1.0 Estimated age Europe Czechia T- N 21 58.3 342.7 42 5.0 8 29.1 1.9 7 5.1 Sediment Porcellanite Fe- and Mn-Oxides

1454 101 Komorany 50.5 13.6 1.0 1.0 Estimated age Europe Czechia T- N 10 66.1 52.9 28 9.4 2 24.0 3.8 Sediment Porcellanite Fe- and Mn-Oxides



1457 101 Most-Lajsnik 50.5 13.7 1.0 1.0 Estimated age Europe Czechia T- R 16 -56.2 202.6 26 7.4 8 28.7 2.4 8 5.2 Sediment Porcellanite Fe- and Mn-Oxides

1458 101 Most-Lajsnik, new to 50.5 13.7 1.0 1.0 Estimated age Europe Czechia T- R 24 -58.3 219.6 27 5.8 7 31.5 3.3 10 5.5 Sediment Porcellanite Fe- and Mn-Oxides

1459 101 Nechranice 50.3 13.9 1.0 1.0 Estimated age Europe Czechia T- N 17 63.6 16.0 18 8.5 7 71.9 5.6 8 11.7 Sediment Porcellanite Fe- and Mn-Oxides

1460 101 Necichy-Vrsovice 50.4 13.8 1.0 1.0 Estimated age Europe Czechia T- N 21 66.9 12.2 18 7.7 8 33.4 7.1 21 5.2 Sediment Porcellanite Fe- and Mn-Oxides

1461 101 Svincice 50.5 13.7 1.0 1.0 Estimated age Europe Czechia T- N 12 75.1 345.6 15 11.6 7 39.0 9.4 24 5.5 Sediment Porcellanite Fe- and Mn-Oxides

1462 101 Tusimice 50.4 13.4 1.0 1.0 Estimated age Europe Czechia T- N 10 68.7 15.1 16 12.3 10 39.5 6.6 17 6.0 Sediment Porcellanite Fe- and Mn-Oxides

1463 101 Zelenky-Zabrusany 50.6 13.8 1.0 1.0 Estimated age Europe Czechia T- N 23 64.7 347.7 12 8.9 8 47.0 12.7 27 7.6 Sediment Porcellanite Fe- and Mn-Oxides

1464 102 0140 AD 19.2 -155.5 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 5 31.8 8.7 4.3 5 61.8 3.6 6 14.2 Volcanic Lava Flow no information VDMc1465 102 1120 AD 19.5 -155.3 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 5 40.2 11.1 0.8 5 49.6 4.6 9 10.6 Volcanic Lava Flow no information VDMc1466 102 1280 AD 19.2 -155.5 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 5 39.5 13.1 1.4 5 61.3 8.8 14 13.2 Volcanic Lava Flow no information VDMc1467 102 1690 AD 19.6 -155.0 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 5 45.2 8.9 4.8 4 58.8 2.1 4 12.0 Volcanic Lava Flow no information VDMc1468 102 1840 AD 19.6 -154.9 0.0 Historic Pacific Ocean Hawaii T+ N 5 28.1 6.0 2.6 5 35.0 2.0 6 8.3 Volcanic Lava Flow no information VDMc1469 102 1960 AD 19.1 -154.8 0.0 Historic Pacific Ocean Hawaii T+ N 35.6 17.9 2.8 4 37.0 3.9 11 8.3 Volcanic Lava Flow no information VDMc



1470 102 515 AD 19.2 -155.5 0.0 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 5 22.8 13.3 3.1 5 36.8 6.8 18 9.0 Volcanic Lava Flow no information VDMc1471 103 FJ1 35.5 138.7 0.0 0.0 Carbon 14 Asia Japan T+ N 4 51.7 344.0 8.5 5 52.8 3.9 7 10.0 Volcanic Lava Flow no information

1472 103 FJ2 35.3 138.6 0.0 0.0 Carbon 14 Asia Japan T+ N 8 44.2 359.0 8.4 5 63.1 6.4 10 13.0 Volcanic Lava Flow no information




1476 103 OS5 34.7 139.4 0.0 0.0 Carbon 14 Asia Japan T+ N 5 48.9 14.0 4.4 9 66.7 11.5 17 13.1 Volcanic Lava Flow no information

1477 104 BB 50.5 7.2 0.2 0.1 Ar/Ar Europe Germany T+ N 14 74.1 13.1 146 3.3 5 55.2 3.9 7 7.9 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 580°C,

1478 104 DB 50.5 7.2 0.2 0.1 Ar/Ar Europe Germany T+ N 15 62.0 10.3 470 1.8 7 61.6 4.8 8 10.3 Volcanic Scoria PyroclasticTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1479 104 ET, MY1,MY2,MY3 50.3 7.2 0.4 0.4 Geomagnetic polarity timescale Europe Germany T+ N 44 73.4 340.7 237 1.4 15 45.3 4.4 10 6.5 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 580°C,

1480 104 FK 50.5 7.3 0.4 0.0 Ar/Ar Europe Germany T+ N 18 66.4 346.3 103 3.4 6 29.4 1.3 4 4.6 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 580°C,

1481 104 HB 50.5 7.3 0.5 0.1 Ar/Ar Europe Germany T+ N 20 62.1 17.2 434 1.6 6 41.6 4.1 10 6.9 Plutonic DykeTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1482 104 HL 50.5 7.1 0.5 0.1 Ar/Ar Europe Germany T+ N 15 65.2 30.8 79 4.3 3 50.5 4.9 10 8.1 Volcanic DomeTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

VDMc1483 104 HS,TH1 50.4 7.3 0.3 0.1 Ar/Ar Europe Germany T+ N 22 64.2 2.1 254 2.0 6 51.1 1.8 4 8.3 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 580°C,

1484 104 KB 50.4 7.4 0.2 0.1 Ar/Ar Europe Germany T+ N 20 71.8 349.5 284 1.9 7 30.1 2.7 9 4.4 Volcanic Ti-poor TiMa,Tc appr. 580°C,

1485 104 KK 50.5 7.3 0.2 0.1 Stratigraphic Europe Germany T+ N 17 68.7 0.9 191 2.6 5 57.6 5.2 9 8.8 Volcanic Scoria PyroclasticTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1486 104 MK 50.4 7.2 0.4 0.0 Ar/Ar Europe Germany T+ N 13 66.3 3.0 222 2.8 7 43.4 3.2 7 6.8 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1487 104 ML 50.5 7.3 0.2 0.1 Stratigraphic Europe Germany T+ N 13 64.5 343.8 150 3.4 5 33.5 1.5 4 5.4 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 580°C,

1488 104 NM 50.4 7.3 0.1 0.0 Stratigraphic Europe Germany T+ N 19 64.7 20.2 15 9.1 6 50.4 3.8 8 8.1 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 580°C,

1489 104 NS 50.4 7.3 0.2 0.1 Stratigraphic Europe Germany T+ N 10 70.0 19.1 799 1.7 4 59.0 18.6 32 8.9 Volcanic Scoria PyroclasticTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

VDMc1490 104 PH 50.4 7.4 0.2 0.0 Ar/Ar Europe Germany T+ N 26 46.6 349.1 43 4.4 5 30.4 4.1 13 6.1 Volcanic Lava Flow

Ti-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1491 104 PL,EI1 50.4 7.4 0.2 0.0 Ar/Ar Europe Germany T+ N 38 70.4 346.3 140 2.0 7 35.6 3.4 10 5.3 VolcanicTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1492 104 RB,KR 50.4 7.3 0.2 0.1 Stratigraphic Europe Germany T+ N 30 79.8 7.8 216 1.8 10 48.5 6.3 13 6.6 Volcanic Lava Flow Ti-poor TiMa,Tc appr. 580°C,

1493 104 RO 50.4 7.3 0.2 0.1 Stratigraphic Europe Germany T+ N 20 75.9 7.1 209 2.3 8 52.0 6.6 13 7.3 Plutonic DykeTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1494 104 SA 50.4 7.3 0.2 0.1 Stratigraphic Europe Germany T+ N 17 67.3 5.4 153 2.9 5 46.0 4.6 10 7.2 Volcanic Scoria PyroclasticTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1495 104 SI 50.3 7.2 0.4 0.0 Ar/Ar Europe Germany T+ N 23 67.1 346.8 23 6.5 7 32.6 3.8 12 5.1 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1496 104 TB 50.4 7.4 0.2 0.0 Ar/Ar Europe Germany T+ N 8 73.6 1.5 299 1.5 6 52.2 5.2 10 7.5 Plutonic DykeTi-rich+Ti-poor TiMa,Tc appr. 300°C, 560°C,

1497 105 RK01 64.4 -21.5 2.6 0.2 Stratigraphic Atlantic Ocean Iceland T+ N 5 62.3 16.8 1.7 3 99.2 18.6 19 16.9 Volcanic Lava Flow1498 105 RK04 64.4 -21.5 2.6 0.2 Stratigraphic Atlantic Ocean Iceland T+ T 5 -24.0 76.0 4.6 5 16.6 6.9 42 4.1 Volcanic Lava Flow1499 105 RK09 64.4 -21.5 2.6 0.2 Stratigraphic Atlantic Ocean Iceland T+ R 4 -71.7 206.7 1.6 1 16.2 2.4 Volcanic Lava Flow1500 105 RK14 64.4 -21.5 2.6 0.2 Stratigraphic Atlantic Ocean Iceland T+ R 5 -79.9 173.5 2.9 4 22.3 6.6 30 3.1 Volcanic Lava Flow1501 105 RK16 64.4 -21.5 2.6 0.2 Stratigraphic Atlantic Ocean Iceland T+ R 5 -76.6 176.3 3.0 3 12.9 3.1 24 1.9 Volcanic Lava Flow1502 105 RK17 64.4 -21.5 2.6 0.2 Stratigraphic Atlantic Ocean Iceland T+ R 4 -82.6 141.9 2.8 2 19.4 5.4 28 2.6 Volcanic Lava Flow1503 105 RK18 64.4 -21.5 2.6 0.2 Stratigraphic Atlantic Ocean Iceland T+ R 4 -74.4 136.3 2.1 2 26.6 0.5 2 4.0 Volcanic Lava Flow1504 105 RK22 64.4 -21.5 2.6 0.2 Stratigraphic Atlantic Ocean Iceland T+ R 4 -81.4 186.8 4.5 2 42.2 10.5 25 5.8 Volcanic Lava Flow1505 105 RK23 64.4 -21.5 2.6 0.2 Stratigraphic Atlantic Ocean Iceland T+ R 5 -84.3 202.0 4.8 5 38.1 7.4 19 5.1 Volcanic Lava Flow1506 105 RK24 64.4 -21.5 2.6 0.2 Stratigraphic Atlantic Ocean Iceland T+ R 5 -81.0 139.3 4.5 4 32.1 3.8 12 4.5 Volcanic Lava Flow1507 107 rd12 22.2 -114.0 0.0 0.0 Ra/Th desequilibrium Pacific Ocean T+ O 4 23.7 3.5 15 Volcanic Basalt Chilled margin SD Magnetite VADM1508 107 rd32 20.7 -114.0 0.0 Ra/Th desequilibrium Pacific Ocean T+ O 4 33.0 3.6 11 Volcanic Basalt Chilled margin SD Magnetite VADM1509 107 rd35 22.2 -114.0 0.0 Ra/Th desequilibrium Pacific Ocean T+ O 3 17.5 1.1 6 Volcanic Basalt Chilled margin SD Magnetite VADM1510 107 rd36 20.5 -114.0 0.0 0.0 Ra/Th desequilibrium Pacific Ocean T+ O 3 52.5 4.9 9 Volcanic Basalt Chilled margin SD Magnetite VADM1511 107 rd37 20.5 -114.0 0.0 Ra/Th desequilibrium Pacific Ocean T+ O 2 42.4 0.5 1 Volcanic Basalt Chilled margin SD Magnetite VADM1512 107 rd40 20.2 -114.0 0.0 Ra/Th desequilibrium Pacific Ocean T+ O 4 35.7 4.5 13 Volcanic Basalt Chilled margin SD Magnetite VADM1513 107 rd41 19.9 -114.0 0.0 Ra/Th desequilibrium Pacific Ocean T+ O 3 38.7 10.9 28 Volcanic Basalt Chilled margin SD Magnetite VADM1514 107 rd83 15.7 -113.0 0.0 0.0 Ra/Th desequilibrium Pacific Ocean T+ O 3 42.8 6.3 15 Volcanic Basalt Chilled margin SD Magnetite VADM1515 107 v8 20.1 -114.0 0.0 0.0 Ra/Th desequilibrium Pacific Ocean T+ O 2 46.4 9.2 20 Volcanic Basalt Chilled margin SD Magnetite VADM1516 108 DG1 41.5 43.3 3.6 0.1 Ar/Ar Europe Georgia T- T 35 50.3 248.8 168 1.9 1 6.5 1.3 Volcanic Lava Flow

Ti-poor TiMa or Magnetite, Tc 550°C to 580°C

VDMc1517 108 DG2 41.5 43.3 3.6 0.1 Ar/Ar Europe Georgia T- T 54 50.6 260.8 209 1.3 1 7.8 1.5 Volcanic Lava Flow


VDMc1518 108 DG3 41.5 43.3 3.6 0.1 Ar/Ar Europe Georgia T- R 106 -30.2 152.0 214 0.9 3 31.6 14.0 44 7.4 Volcanic Lava Flow


VDMc



1519 108 DG4 41.5 43.3 3.6 0.1 Ar/Ar Europe Georgia T- R 91 -60.2 180.8 271 0.9 7 26.5 7.0 26 4.5 Volcanic Lava FlowTi-poor TiMa or Magnetite, Tc 550°C to 580°C

VDMc1520 109 RE02 -21.0 55.5 0.1 0.0 K/Ar Indian Ocean La Reunion T+ N 3 -42.0 8.7 15 33.6 2 16.4 1.6 10 3.7 Volcanic Lava Flow

Ti-rich+Ti-poor TiMa,Tc appr. 250°C , 580°C, PSD

1521 109 RE04 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 3 -38.4 -7.5 91 13.0 1 45.6 9.9 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 250°C , 580°C, PSD

1522 109 RE04bis -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 5 -36.4 -12.1 376 3.5 1 47.0 10.9 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 250°C , 580°C, PSD

VDMc = 10.4

1523 109 RE07 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 5 -44.4 -5.1 43 9.4 3 29.2 0.6 2 6.5 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 250°C , 580°C, PSD

VDMc = 61524 109 RE07bis -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 4 -50.4 2.4 38 11.0 4 33.6 10.3 31 6.9 Volcanic Lava Flow


1525 109 RE09bis -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 6 -47.6 -10.2 51 8.5 3 43.7 9.6 22 9.5 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 250°C , 580°C, PSD

VDMc = 8.7




VDMc = 11.2





1533 109 RE18 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 2 -46.5 -5.5 3 44.5 8.8 20 9.7 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 250°C , 580°C, PSD

VDMc = 91534 109 RE21 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 3 -52.9 -16.0 97 12.6 1 40.7 8.2 Volcanic Lava Flow


VDMc = 71535 109 RE23 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 5 -36.8 -10.8 79 8.6 3 50.3 9.1 18 10.3 Volcanic Lava Flow


VDMc = 11.1

1536 109 RE26 -21.0 55.5 0.1 0.0 K/Ar Indian Ocean La Reunion T+ N 7 -15.8 0.5 52 8.5 1 29.0 7.6 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 250°C , 580°C, PSD





1541 109 RE36 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 4 -39.6 14.4 124 8.3 1 48.0 11.0 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 250°C , 580°C, PSD

VDMc = 10.4




VDMc = 10.9

1545 109 RE44 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 4 -44.7 12.6 54 12.7 2 52.5 0.9 2 11.1 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 250°C , 580°C, PSD



VDMc = 11.4




VDMc = 11.6


1552 109 RE55 -21.0 55.5 0.1 0.0 K/Ar Indian Ocean La Reunion T+ T 5 -2.0 -0.1 114 7.2 1 14.3 3.7 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 250°C , 580°C, PSD



VDMc = 9.2


VDMc = 8.7

1556 109 RE60 -21.0 55.5 0.1 0.0 K/Ar Indian Ocean La Reunion T+ N 4 -50.7 9.0 189 6.7 1 54.0 10.5 Volcanic Lava FlowTi-rich+Ti-poor TiMa,Tc appr. 250°C , 580°C, PSD


VDMc = 71558 109 RE62 -21.0 55.5 0.1 Interpolated ages Indian Ocean La Reunion T+ N 2 -66.5 14.2 3 50.6 8.2 16 8.3 Volcanic Lava Flow



1560 111 1643-3-3 0.0 -85.0 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 562 2.0 1 53.2 13.8 Volcanic Basalt Chilled margin no information VADM1561 111 1654-6A-2 0.0 -85.0 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 2218 1.0 1 39.3 10.2 Volcanic Basalt Chilled margin no information VADM1562 111 1654-6A-3 0.0 -85.0 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 9999 0.4 1 40.4 10.5 Volcanic Basalt Chilled margin no information VADM1563 111 2352-2-1 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 3270 0.8 1 35.6 8.8 Volcanic Basalt Chilled margin no information VADM1564 111 2358-3-1 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 1227 1.3 1 43.7 10.9 Volcanic Basalt Chilled margin no information VADM1565 111 2432-1-1 45.0 -130.0 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 7846 0.6 1 56.0 9.7 Volcanic Basalt Chilled margin no information VADM1566 111 2488-4-1 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 7662 0.7 1 38.6 9.6 Volcanic Basalt Chilled margin no information VADM1567 111 2488-5A-1 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 4926 1.0 1 45.6 11.4 Volcanic Basalt Chilled margin no information VADM



1568 111 2488-6-1 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 1262 1.6 1 33.1 8.3 Volcanic Basalt Chilled margin no information VADM1569 111 2489-1 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 3241 0.8 3 17.0 0.9 6 4.2 Volcanic Basalt Chilled margin no information VADM1570 111 2489-12 9.6 -104.2 0.1 0.0 U-Pa desequilibrium Pacific Ocean T+ N 7160 0.7 4 8.5 0.2 2 2.1 Volcanic Basalt Chilled margin no information VADM1571 111 2489-3-2 9.6 -104.2 0.1 0.0 U-Pa desequilibrium Pacific Ocean T+ N 7692 0.6 1 15.6 3.9 Volcanic Basalt Chilled margin no information VADM1572 111 2489-4A 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 9999 0.4 2 13.7 0.4 3 3.4 Volcanic Basalt Chilled margin no information VADM1573 111 2489-7-1 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 1582 1.3 1 8.8 2.2 Volcanic Basalt Chilled margin no information VADM1574 111 2489-9 9.6 -104.2 0.1 0.0 U-Pa desequilibrium Pacific Ocean T+ N 370 2.4 2 12.5 0.4 3 3.1 Volcanic Basalt Chilled margin no information VADM1575 111 2490-06 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 9142 0.5 2 47.8 0.9 2 11.9 Volcanic Basalt Chilled margin no information VADM1576 111 2490-08-1 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 9115 0.6 1 48.2 12.0 Volcanic Basalt Chilled margin no information VADM1577 111 2490-12 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 4512 0.7 2 17.5 1.9 11 4.4 Volcanic Basalt Chilled margin no information VADM1578 111 2491-3-3 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 4854 0.6 1 40.4 10.0 Volcanic Basalt Chilled margin no information VADM1579 111 2503-11-1 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 8097 0.6 1 37.0 9.2 Volcanic Basalt Chilled margin no information VADM1580 111 2503-12-1 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 5962 0.9 1 36.9 9.2 Volcanic Basalt Chilled margin no information VADM1581 111 2503-13-1 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 5566 0.7 1 27.6 6.9 Volcanic Basalt Chilled margin no information VADM1582 111 2503-2 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 2452 0.9 4 49.0 8.7 18 12.2 Volcanic Basalt Chilled margin no information VADM1583 111 2503-8-1 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 1443 1.3 1 42.5 10.6 Volcanic Basalt Chilled margin no information VADM1584 111 2508-6-1 9.6 -104.2 0.0 0.0 U-Pa desequilibrium Pacific Ocean T+ N 9413 0.5 1 45.6 11.4 Volcanic Basalt Chilled margin no information VADM1585 112 Carmel 1 32.6 34.9 93.5 2.5 Geologic timescale Middle East Israel ST+ N 8 16.6 12.8 41 8.7 3 21.4 4.8 22 5.4 Volcanic Basalt1586 112 Carmel 2 32.6 34.9 93.5 2.5 Geologic timescale Middle East Israel ST+ N 9 10.1 8.1 164 4.0 4 10.1 4.2 42 2.6 Volcanic Basalt1587 112 Carmel 3 32.6 34.9 93.5 2.5 Geologic timescale Middle East Israel ST+ N 8 -4.9 15.0 139 4.7 3 16.5 4.8 29 4.3 Volcanic Basalt1588 112 Hermon 1 33.3 35.8 117.5 2.5 Estimated age Middle East Israel ST+ T 8 2.3 290.9 43 7.9 4 13.6 11.7 86 3.5 Volcanic Basalt1589 112 Hermon 3 33.3 35.8 117.5 2.5 Estimated age Middle East Israel ST+ T 8 24.5 284.3 74 6.5 3 11.5 1.9 17 2.8 Volcanic Basalt1590 112 Maktesh Ramon 01 30.5 34.8 117.5 2.5 Combined Middle East Israel T+ N 5 15.7 340.9 59 10.0 2 19.7 1.1 6 5.0 Volcanic Basalt1591 112 Maktesh Ramon 03 30.5 34.8 117.5 2.5 Combined Middle East Israel ST+ N 5 12.2 337.6 464 3.6 3 15.3 3.2 21 3.9 Volcanic Basalt1592 112 Maktesh Ramon 04 30.5 34.8 117.5 2.5 Combined Middle East Israel ST+ N 7 5.9 339.1 88 6.5 3 18.8 4.5 24 4.8 Volcanic Basalt1593 112 Maktesh Ramon 06 30.5 34.8 117.5 2.5 Combined Middle East Israel ST+ N 4 -1.3 5.0 53 12.8 3 36.8 11.9 32 9.5 Volcanic Basalt1594 112 Maktesh Ramon 07 30.5 34.8 117.5 2.5 Combined Middle East Israel ST+ N 4 4.3 340.5 207 6.4 4 23.2 12.3 53 6.0 Volcanic Basalt1595 112 Maktesh Ramon 08 30.5 34.8 117.5 2.5 Combined Middle East Israel ST+ N 6 -16.9 338.4 96 6.9 3 21.1 11.0 52 5.3 Volcanic Basalt1596 112 Maktesh Ramon 09 30.5 34.8 117.5 2.5 Combined Middle East Israel ST+ N 5 -8.1 339.3 33 13.6 3 17.9 11.2 63 4.6 Volcanic Basalt1597 112 Maktesh Ramon 11 30.5 34.8 117.5 2.5 Combined Middle East Israel ST+ N 5 22.7 14.6 19 17.8 3 21.7 9.2 42 5.3 Volcanic Basalt1598 112 Maktesh Ramon 12 30.5 34.8 117.5 2.5 Combined Middle East Israel S N 6 38.0 331.4 30 12.4 2 18.2 8.7 48 4.0 Volcanic Basalt1599 112 Maktesh Ramon 14 30.5 34.8 117.5 2.5 Combined Middle East Israel ST+ N 8 8.0 344.4 228 3.7 2 12.0 5.5 46 3.1 Volcanic Basalt1600 112 Maktesh Ramon 15 30.5 34.8 117.5 2.5 Combined Middle East Israel ST+ N 8 6.9 328.7 40 8.9 4 16.0 1.7 11 4.1 Volcanic Basalt1601 112 Maktesh Ramon 16 30.5 34.8 117.5 2.5 Combined Middle East Israel ST+ N 6 7.3 327.8 124 6.0 3 11.9 2.5 21 3.1 Volcanic Basalt1602 112 Maktesh Ramon 17 30.5 34.8 117.5 2.5 Combined Middle East Israel ST+ N 5 4.2 352.0 88 8.2 3 9.0 2.6 29 2.3 Volcanic Basalt1603 112 Maktesh Ramon 18 30.5 34.8 117.5 2.5 Combined Middle East Israel S N 8 -2.1 352.0 133 4.8 2 41.7 3.1 7 10.8 Volcanic Basalt1604 112 Rajmahal traps 01 25.0 87.5 117.0 Ar/Ar Asia India ST+ N 6 -56.0 298.6 107 6.5 4 19.6 6.4 33 3.5 Volcanic Basalt K-Ar ages between 100-107 Ma

1605 112 Rajmahal traps 02 25.0 87.5 117.0 Ar/Ar Asia India ST+ T 6 -57.6 93.3 62 8.6 3 23.6 2.2 9 4.2 Volcanic Basalt K-Ar ages between 100-107 Ma

1606 112 Rajmahal traps 03 25.0 87.5 117.0 Ar/Ar Asia India ST+ N 6 -63.2 312.3 288 4.0 3 33.3 2.5 8 5.5 Volcanic Basalt K-Ar ages between 100-107 Ma






1612 112 Rajmahal traps 10 25.0 87.5 117.0 Ar/Ar Asia India ST+ T 6 40.7 234.8 360 3.5 4 50.2 5.0 10 10.7 Volcanic Basalt K-Ar ages between 100-107 Ma









1619 112 Rajmahal traps 17 25.0 87.5 117.0 Ar/Ar Asia India S N 6 -63.7 309.8 56 9.0 2 29.4 6.5 22 4.8 Volcanic Basalt K-Ar ages between 100-107 Ma

1620 112 Rajmahal traps 18A 25.0 87.5 117.0 Ar/Ar Asia India ST+ N 6 -64.3 329.2 154 5.4 4 27.1 4.5 17 4.4 Volcanic Basalt K-Ar ages between 100-107 Ma

1621 112 Rajmahal traps 18B 25.0 87.5 117.0 Ar/Ar Asia India ST+ N 6 -72.3 299.8 52 9.4 4 31.1 10.9 35 4.5 Volcanic Basalt K-Ar ages between 100-107 Ma



1624 112 Rajmahal traps 21 25.0 87.5 117.0 Ar/Ar Asia India T+ N 6 -63.5 310.8 43 10.3 2 23.2 3.0 13 3.8 Volcanic Basalt K-Ar ages between 100-107 Ma



1627 112 Timna Valley 29.8 35.0 98.5 8.5 K/Ar Middle East Israel S N 6 19.7 323.5 385 3.4 2 12.2 0.4 3 3.0 Volcanic Basalt Chilled margin

1628 113 Nazareth 5 -29.4 27.8 180.0 2.0 Ar/Ar Africa Lesotho T+ R 6 68.3 171.4 859 2.3 5 30.7 3.7 12 4.7 Volcanic Basalt Lava Flow1629 113 Sani Pass 02 -29.6 29.3 180.0 2.0 Ar/Ar Africa Lesotho T+ R 3 59.3 151.1 1195 3.6 3 39.3 4.7 12 6.8 Volcanic Basalt Lava Flow1630 113 Sani Pass 13 -29.6 29.3 180.0 2.0 Ar/Ar Africa Lesotho T+ R 4 69.5 187.1 1024 2.9 4 13.9 1.3 9 2.1 Volcanic Basalt Lava Flow1631 113 Sani Pass 14 -29.6 29.3 180.0 2.0 Ar/Ar Africa Lesotho T+ R 4 54.7 164.3 2575 1.8 3 41.3 5.2 13 7.6 Volcanic Basalt Lava Flow1632 113 Sani Pass 15 -29.6 29.3 180.0 2.0 Ar/Ar Africa Lesotho T+ R 4 39.7 154.2 1923 2.1 5 35.3 2.8 8 7.6 Volcanic Basalt Lava Flow1633 113 Sani Pass 18 -29.6 29.3 180.0 2.0 Ar/Ar Africa Lesotho T+ R 4 41.0 140.0 9311 1.0 4 15.7 2.2 14 3.3 Volcanic Basalt Lava Flow1634 113 Sani Pass 19 -29.6 29.3 180.0 2.0 Ar/Ar Africa Lesotho T+ R 4 40.1 146.6 245 5.9 3 16.6 1.0 6 3.6 Volcanic Basalt Lava Flow1635 113 Sani Pass 20 -29.6 29.3 180.0 2.0 Ar/Ar Africa Lesotho T+ R 4 41.1 146.2 497 4.1 3 12.0 1.9 16 2.5 Volcanic Basalt Lava Flow1636 113 Sani Pass 21 -29.6 29.3 180.0 2.0 Ar/Ar Africa Lesotho T+ R 5 37.3 152.0 404 3.8 5 15.8 3.3 21 3.5 Volcanic Basalt Lava Flow1637 113 Sani Pass 22 -29.6 29.3 180.0 2.0 Ar/Ar Africa Lesotho T+ R 5 36.8 146.1 1188 2.2 5 21.4 1.7 8 4.7 Volcanic Basalt Lava Flow1638 114 Antonovskaya 47.5 37.5 377.5 2.5 Geologic timescale Europe Ukraine T- O 64 16.0 1.0 6 3.8 Volcanic1639 114 Khakassiya 1 53.0 90.0 382.5 2.5 Geologic timescale Asia Minusa T- N 63 37.0 148.0 86 2.0 45 21.0 1.0 5 4.6 Sediment Baked contact

1640 114 Khakassiya 2 53.0 90.0 382.5 2.5 Geologic timescale Asia Minusa T- N 31 37.0 149.0 88 3.0 23 19.0 2.0 11 4.2 Sediment Baked contact

1641 114 Khakassiya 3 53.0 90.0 382.5 2.5 Geologic timescale Asia Russia T- N 41 31.0 139.0 22 5.0 47 19.0 1.0 5 4.4 Sediment Baked contact

1642 114 Magnitogorsk 53.0 59.0 380.0 2.5 Geologic timescale Europe Russia T- O 9 16.0 1.0 6 4.0 Volcanic1643 114 Sukoksai-Tashkent 01 41.0 70.0 397.5 12.5 Geologic timescale Asia Uzbekistan T- R 4 -36.0 134.0 105 9.0 4 22.0 1.0 5 4.9 Volcanic Mixed Baked contact

1644 114 Sukoksai-Tashkent 02 41.0 70.0 397.5 12.5 Geologic timescale Asia Uzbekistan T- R 8 -36.0 144.0 49 8.0 7 23.0 2.0 9 5.1 Volcanic Porphyrite Baked contact

1645 114 Sukoksai-Tashkent 03 41.0 70.0 397.5 12.5 Geologic timescale Asia Uzbekistan WB R 10 21.0 1.0 5 3.8 Sediment Argillite Baked contact

1646 114 Sukoksai-Tashkent 04 41.0 70.0 397.5 12.5 Geologic timescale Asia Uzbekistan WB R 15 24.0 1.0 4 4.2 Volcanic Porphyrite Baked contact

1647 114 Sukoksai-Tashkent 05 41.0 70.0 397.5 12.5 Geologic timescale Asia Uzbekistan WB R 11 21.0 1.0 5 3.8 Volcanic Tuff Baked contact

1648 114 Sukoksai-Tashkent 06 41.0 70.0 397.5 12.5 Geologic timescale Asia Uzbekistan WB R 4 19.0 2.0 11 3.4 Volcanic Tuff Baked contact

1649 114 Sukoksai-Tashkent 07 41.0 70.0 397.5 12.5 Geologic timescale Asia Uzbekistan T- R 9 -58.0 102.0 55 7.0 8 25.0 1.0 4 4.4 Volcanic Porphyrite Baked contact

1650 114 Sukoksai-Tashkent 08 41.0 70.0 397.5 12.5 Geologic timescale Asia Uzbekistan T- R 7 -58.0 105.0 75 7.0 4 33.0 2.0 6 5.8 Sediment Argillite Baked contact

1651 114 Sukoksai-Tashkent 09 41.0 70.0 397.5 12.5 Geologic timescale Asia Uzbekistan T- N 9 66.0 273.0 55 7.0 11 17.0 1.0 6 2.7 Volcanic Porphyrite Baked contact

1652 114 Sukoksai-Tashkent 10 41.0 70.0 397.5 12.5 Geologic timescale Asia Uzbekistan T- N 11 64.0 260.0 60 6.0 12 17.0 1.0 6 2.8 Volcanic Tuff Baked contact


1654 114 Sukoksai-Tashkent 12 41.0 70.0 397.5 12.5 Geologic timescale Asia Uzbekistan WB N 3 19.0 3.0 16 3.1 Volcanic Porphyrite Baked contact




1658 114 Sukoksai-Tashkent 16 41.0 70.0 397.5 12.5 Geologic timescale Asia Uzbekistan WB N 9 22.0 1.0 5 3.7 Volcanic Tuff Baked contact





1663 114 Sukoksai-Tashkent 21 41.0 70.0 397.5 12.5 Geologic timescale Asia Uzbekistan T- N 12 45.0 276.0 53 6.0 14 21.0 2.0 10 4.3 Sediment Argillite Baked contact








1669 114 Sukoksai-Tashkent 27 41.0 70.0 397.5 12.5 Geologic timescale Asia Uzbekistan WB N 5 53.0 296.0 93 8.0 9 20.0 2.0 10 3.7 Sediment Sandstone Baked contact

1670 115 Great Whin BQ1 -2.0 55.0 301.0 6.0 K/Ar Europe United Kingdom T+ R 7 17.7 181.1 237 3.9 2 18.5 8.5 46 4.8 Plutonic Sill1671 115 Great Whin CQ1 -2.0 55.0 301.0 6.0 K/Ar Europe United Kingdom T+ R 5 22.4 179.7 422 3.7 4 28.4 6.4 23 7.2 Plutonic Sill1672 115 Great Whin CQ2 -2.0 55.0 301.0 6.0 K/Ar Europe United Kingdom T+ R 3 16.9 2.4 14 4.4 Plutonic Sill1673 115 Great Whin DQ1 -2.0 55.0 301.0 6.0 K/Ar Europe United Kingdom T+ R 8 -9.8 183.6 149 4.5 4 28.1 1.1 4 6.9 Plutonic Sill1674 115 Great Whin LB1 -2.0 55.0 301.0 6.0 K/Ar Europe United Kingdom T+ R 5 5.5 190.4 76 8.8 3 24.9 14.2 57 6.4 Plutonic Sill1675 115 Great Whin TB1 -2.0 55.0 301.0 6.0 K/Ar Europe United Kingdom T+ R 3 13.4 1.9 14 3.4 Plutonic Sill1676 115 Great Whin WQ1 -2.0 55.0 301.0 6.0 K/Ar Europe United Kingdom T+ R 6 -3.0 185.4 169 5.2 3 9.1 5.2 57 2.3 Plutonic Sill1677 115 Midland Valley BA1 -4.0 56.0 301.0 6.0 Estimated age Europe United Kingdom T+ R 4 -34.6 133.2 2 1.2 2 11.8 3.8 32 2.7 Plutonic Sill1678 115 Midland Valley BH1 -4.0 56.0 301.0 6.0 Estimated age Europe United Kingdom T+ R 4 -20.0 178.8 175 7.0 4 11.2 2.8 25 2.8 Plutonic Sill1679 115 Midland Valley CB1 -4.0 56.0 301.0 6.0 Estimated age Europe United Kingdom T+ R 4 -13.4 187.0 103 2.9 2 15.4 0.2 1 3.9 Plutonic Sill1680 115 Midland Valley CI1 -4.0 56.0 301.0 6.0 Estimated age Europe United Kingdom T+ R 1 11.3 1.9 17 2.9 Plutonic Sill1681 115 Midland Valley DM1 -4.0 56.0 301.0 6.0 Estimated age Europe United Kingdom T+ R 4 -12.3 181.9 376 4.1 4 13.5 1.0 7 3.4 Plutonic Sill1682 115 Midland Valley EL1 -4.0 56.0 301.0 6.0 Estimated age Europe United Kingdom T+ R 4 -12.0 185.4 233 6.0 4 16.6 7.7 46 4.2 Plutonic Sill1683 115 Midland Valley QF1 -4.0 56.0 301.0 6.0 Estimated age Europe United Kingdom T+ R 4 -12.7 188.0 615 1.2 4 10.1 1.1 11 2.6 Plutonic Sill1684 116 Mauchline 2 55.5 -4.6 290.0 Estimated age Europe United Kingdom T+ R 2 -22.4 200.4 25 2 10.5 2.6 25 2.6 Volcanic Neck VDMc1685 116 Mauchline 3 55.5 -4.6 290.0 Estimated age Europe United Kingdom T+ R 5 -5.3 203.5 28 15.0 4 12.2 4.2 34 3.1 Volcanic Neck VDMc1686 116 Mauchline 4 55.5 -4.6 290.0 Estimated age Europe United Kingdom T+ R 6 -34.4 191.4 14 19.0 2 28.3 10.2 36 6.4 Volcanic Neck VDMc1687 116 Mauchline 5 55.5 -4.6 290.0 Estimated age Europe United Kingdom T+ R 5 -12.5 179.7 29 14.0 1 17.8 1.1 6 4.5 Volcanic Neck VDMc1688 117 Nuuk region 64.2 -51.7 2752.0 63.0 K/Ar Atlantic Ocean Greenland T+ N 13 74.6 255.4 4.7 12 13.5 4.4 33 1.9 Volcanic Dolerite Dyke1689 118 15 37.7 -118.9 0.2 0.1 K/Ar North America U.S.A. T+ N 7 75.3 325.4 673 2.3 4 53.4 14.8 28 8.0 Volcanic Lava Flow

Ti-poor TiMa,Tc appr. 575°C, IRM, MD to PSD

1690 118 16 37.7 -118.9 0.2 0.0 K/Ar North America U.S.A. T+ N 8 84.2 2.1 66 6.9 3 59.4 17.3 29 7.7 Volcanic Lava FlowTi-poor TiMa,Tc appr. 570°C, IRM, MD to PSD


1692 118 22 37.7 -118.9 0.1 0.0 K/Ar North America U.S.A. T+ N 8 57.5 14.8 313 3.1 1 45.5 8.0 Volcanic Lava FlowTi-poor TiMa,Tc appr. 570°C, IRM, MD to PSD


1694 118 39 37.7 -118.9 0.1 0.0 K/Ar North America U.S.A. T+ N 5 58.5 358.9 411 3.8 1 28.5 5.2 Volcanic Lava FlowTi-poor TiMa,Tc appr. 510°C, 280°C, IRM, MD to PSD

1695 118 49 37.7 -118.9 0.1 K/Ar North America U.S.A. T+ N 8 56.3 6.3 515 2.5 3 53.8 2.5 5 9.8 Volcanic Lava FlowTi-poor TiMa,Tc appr. 555°C, IRM, MD to PSD

1696 118 53 37.7 -118.9 0.1 0.0 K/Ar North America U.S.A. T+ N 8 37.9 332.3 1604 1.4 1 20.6 4.5 Volcanic Lava FlowTi-poor TiMa,Tc appr. 565°C, IRM, MD to PSD

1697 119 LL102 -17.8 28.7 0.8 Interpolated ages Atlantic Ocean Canary Islands T+ T 7 8.9 46.8 28 11.7 1 7.7 2.0 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1698 119 LL103 -17.8 28.7 0.8 Interpolated ages Atlantic Ocean Canary Islands T+ T 5 5.5 61.8 57 10.2 1 7.0 1.8 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1699 119 LL105 -17.8 28.7 0.8 Interpolated ages Atlantic Ocean Canary Islands Tv T 6 -4.7 60.2 67 8.3 1 8.2 2.1 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1700 119 LL111 -17.8 28.7 0.8 Interpolated ages Atlantic Ocean Canary Islands T+ T 4 -17.6 68.9 432 4.4 1 13.4 3.3 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa


1702 119 LL121 -17.8 28.7 0.8 Interpolated ages Atlantic Ocean Canary Islands Tv N 4 37.7 359.5 106 9.0 1 46.0 10.1 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1703 119 LL128 -17.8 28.7 0.8 Interpolated ages Atlantic Ocean Canary Islands Tv N 8 49.3 4.5 88 5.9 1 41.2 8.0 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1704 119 LL129 -17.8 28.7 0.8 Interpolated ages Atlantic Ocean Canary Islands T+ R 8 -25.3 157.6 25 11.2 2 6.6 3.6 55 1.6 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1705 119 LL130/131 -17.8 28.7 0.8 Interpolated ages Atlantic Ocean Canary Islands T+ T 9 -12.0 157.7 382 2.6 3 11.9 1.5 13 3.0 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1706 119 LL132 -17.8 28.7 0.8 Interpolated ages Atlantic Ocean Canary Islands T+ T 5 -13.0 144.0 71 9.2 2 3.8 1.1 29 1.0 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa


1708 119 LL134 -17.8 28.7 0.8 Interpolated ages Atlantic Ocean Canary Islands T+ R 6 -31.7 167.3 21 15.1 2 5.8 2.0 34 1.3 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1709 119 LL135 -17.8 28.7 0.8 Interpolated ages Atlantic Ocean Canary Islands T+ R 5 -44.9 185.8 218 5.2 1 40.8 8.4 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1710 119 LL138 -17.8 28.7 0.8 Interpolated ages Atlantic Ocean Canary Islands Tv R 4 -30.9 205.8 81 10.3 1 22.5 5.2 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1711 119 LL139 -17.8 28.7 0.8 Interpolated ages Atlantic Ocean Canary Islands T+ R 4 -34.8 189.5 50 13.2 1 30.8 6.9 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1712 119 LS109 -17.8 28.7 0.7 0.1 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv N 5 61.3 5.9 125 6.9 1 28.4 4.8 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1713 119 LS110 -17.8 28.7 0.7 0.1 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ N 8 51.1 4.7 53 7.2 2 21.3 1.7 8 4.1 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1714 119 LS111 -17.8 28.7 0.7 0.1 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ N 5 40.9 2.8 253 4.8 1 19.3 4.1 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa



1715 119 LS112 -17.8 28.7 0.9 0.1 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv R 2 -56.4 143.6 1 5.5 1.0 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1716 119 LS113/114 -17.8 28.7 0.9 0.1 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 11 -70.8 152.0 55 6.2 4 5.1 1.0 20 0.8 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1717 119 LS118 -17.8 28.7 0.9 0.1 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv T 6 2.2 206.3 342 3.6 2 7.7 1.0 13 2.0 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1718 119 LS119 -17.8 28.7 0.9 0.1 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv R 5 -32.0 192.0 214 5.2 1 33.5 7.7 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1719 119 LS120 -17.8 28.7 0.9 0.1 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv R 5 -33.1 189.9 90 8.1 2 25.4 4.7 19 5.8 Volcanic Lava FlowTiMa + Ma, IRM, ARM, kappa

1720 120 M-01 19.5 -102.2 0.0 0.0 Carbon 14 North America Mexico ST N 6 37.8 10.7 238 4.4 5 49.2 12.7 26 10.8 Volcanic Lava FlowHT-oxidized TiMa, Tc appr. 490°C, LT kappa, PSD

1721 120 M-02 19.7 -102.0 0.0 0.0 Carbon 14 North America Mexico ST N 3 10.7 42.2 540 5.3 5 49.2 9.7 20 12.6 Volcanic Lava FlowHT-oxidized TiMa, Tc appr. 550°C, LT kappa, SD

1722 120 M-05 19.5 -102.1 0.0 0.0 Carbon 14 North America Mexico ST N 3 44.9 20.3 42 19.4 3 28.9 5.5 19 5.9 Volcanic Lava FlowHT-oxidized TiMa, Tc appr. 440°C, LT kappa, SD

1723 120 M-06 19.6 -102.9 0.0 0.0 Carbon 14 North America Mexico ST T 5 41.5 82.0 301 4.4 6 52.9 4.2 8 11.2 Volcanic Lava FlowHT-oxidized TiMa, Tc appr. 560°C, LT kappa, SD



1726 120 S-03 19.2 -99.2 0.0 0.0 Carbon 14 North America Mexico ST N 5 33.7 359.1 175 5.8 7 29.7 5.7 19 6.7 Volcanic Lava FlowHT-oxidized TiMa, Tc appr. 620°C, LT kappa, PSD

1727 120 S-05 19.2 -99.5 0.0 0.0 Carbon 14 North America Mexico ST N 7 64.4 353.3 318 3.4 3 19.4 5.3 27 3.1 Volcanic Lava FlowTiMa, Tc appr. 295°C, LT kappa, PSD

1728 120 S-06 10.1 -99.5 0.0 0.0 Carbon 14 North America Mexico ST N 6 55.9 337.4 463 3.1 4 44.5 17.2 39 8.0 Volcanic Lava FlowTiMa, Tc appr. 280°C, LT kappa, PSD

1729 120 S-07 19.2 -99.4 0.0 0.0 Carbon 14 North America Mexico ST N 6 16.6 342.6 255 4.2 6 24.7 6.4 26 6.2 Volcanic Lava Flow TiMa, LT kappa, PSD



1732 120 S-11 19.1 -99.2 0.0 0.0 Carbon 14 North America Mexico ST N 7 40.8 354.6 139 5.1 8 27.0 5.3 20 5.8 Volcanic Lava FlowHT-oxidized TiMa, Tc appr. 625°C, LT kappa, SD

1733 121 G10 38.4 15.3 0.1 0.0 Stratigraphic Europe Italy T+ N 4 48.0 352.0 3.0 1 36.9 7.3 Volcanic Lava Flowmostly Ti-poor TiMa,Tc 540-590°C, large PSD



1736 121 G39 38.4 15.3 0.1 0.0 Stratigraphic Europe Italy T+ N 4 46.0 45.0 4.0 4 17.8 1.7 10 3.6 Volcanic Lava Flowmostly Ti-poor TiMa,Tc 540-590°C, large PSD

1737 121 VU01 38.4 15.3 0.0 0.0 K/Ar Europe Italy T+ N 1 52.0 -3.0 1 29.5 5.6 Volcanic Lava Flow Ti-poor TiMa,Tc 540-590°C, PSD

1738 121 VU02 38.4 15.3 0.0 Interpolated ages Europe Italy T+ N 3 34.3 352.0 1093 3.7 3 31.0 6.4 21 7.0 Volcanic Lava Flow Ti-poor TiMa,Tc 540-590°C, PSD

1739 121 VU03 38.4 15.3 0.0 Interpolated ages Europe Italy T+ N 1 46.0 3.0 1 28.5 5.8 Volcanic Lava Flow Ti-poor TiMa,Tc 540-590°C, PSD

1740 121 VU04 38.4 15.3 0.0 Interpolated ages Europe Italy T+ N 4 46.8 353.3 229 6.1 4 37.5 6.7 18 7.5 Volcanic Lava Flow Ti-poor TiMa,Tc 540-590°C, PSD

1741 121 VU12 38.4 15.3 0.1 0.0 Stratigraphic Europe Italy T+ N 2 32.9 14.0 2 31.0 6.4 21 7.1 Volcanic Lava Flowmostly Ti-poor TiMa,Tc 540-590°C, PSD

1742 121 VU20 38.4 15.3 0.1 0.0 Stratigraphic Europe Italy T+ N 6 49.0 3.3 3.7 2 34.3 4.0 12 6.7 Volcanic Lava Flowmostly Ti-poor TiMa,Tc 540-590°C, PSD

1743 121 VU21 38.4 15.3 0.1 0.0 Stratigraphic Europe Italy T+ N 3 48.9 355.6 211 8.5 3 33.8 4.9 14 6.6 Volcanic Lava Flowmostly Ti-poor TiMa,Tc 540-590°C, PSD

1744 121 VU23 38.4 15.3 0.1 0.0 Stratigraphic Europe Italy T+ N 6 43.1 357.4 3.2 1 29.4 6.1 Volcanic Lava Flowmostly Ti-poor TiMa,Tc 540-590°C, PSD





1749 121 VU33 38.4 15.3 0.1 0.0 Stratigraphic Europe Italy T+ N 6 48.5 3.3 4.5 1 26.5 5.2 Volcanic Lava Flowmostly Ti-poor TiMa,Tc 540-590°C, PSD


1751 121 VU38 38.4 15.3 0.1 0.0 K/Ar Europe Italy T+ N 7 56.0 355.7 6.3 4 26.5 5.3 20 4.8 Volcanic Lava Flowmostly Ti-poor TiMa,Tc 540-590°C, PSD

1752 122 HW01 20.1 -155.8 0.2 0.0 K/Ar Pacific Ocean Hawaii T+ N 5 34.3 340.9 199 5.4 2 41.9 12.8 31 9.5 Volcanic Lava FlowTiMa, Tc appr.200 and/or 500°C, low VRM-index




1756 122 PM01 20.1 -155.8 0.1 0.0 K/Ar Pacific Ocean Hawaii T+ N 6 45.4 352.7 239 4.3 4 27.8 2.2 8 5.7 Volcanic Lava FlowTiMa, Tc appr.200 and/or 500°C, low VRM-index

1757 122 PO01 20.1 -155.8 0.2 0.0 K/Ar Pacific Ocean Hawaii T+ N 5 16.2 1.1 145 5.0 2 40.7 2.7 7 10.2 Volcanic Lava FlowTiMa, Tc appr.200 and/or 500°C, low VRM-index

1758 123 NR01 -39.3 175.6 0.0 0.0 K/Ar Pacific Ocean New Zealand ST N 5 -51.0 16.0 3.0 3 46.7 6.3 13 9.0 Volcanic Lava Flow no information





1763 123 NR15 -39.2 175.6 0.2 0.0 K/Ar Pacific Ocean New Zealand ST N 5 -56.0 18.0 6.0 1 19.9 3.6 Volcanic Lava Flow no information






1767 123 NR24 -39.2 175.6 0.2 0.0 K/Ar Pacific Ocean New Zealand ST N 5 72.0 30.0 11.0 6 46.2 6.7 15 6.8 Volcanic Lava Flow no information



1770 124 Xitle 19.3 -99.2 0.0 0.0 Carbon 14 North America Mexico T+ N 15 35.9 346.7 521 1.7 51 72.6 14.2 20 16.2 Volcanic Lava FlowHT-oxidized TiMa, Tc 500 to 580 °C, LT kappa, PSD

1771 125 F-04 51.2 121.5 12.5 2.5 K/Ar North America Canada Z R 1 42.0 Volcanic Lava Flow1772 125 F-09 51.3 121.2 12.5 2.5 K/Ar North America Canada Z R 1 5.6 Volcanic Lava Flow1773 125 F-15 51.6 121.3 12.5 2.5 K/Ar North America Canada Z N 1 13.6 Volcanic Lava Flow1774 125 F-16 52.0 120.1 12.5 2.5 K/Ar North America Canada Z N 1 7.0 Volcanic Lava Flow1775 125 F-17 51.8 120.0 12.5 2.5 K/Ar North America Canada Z N 1 20.6 Volcanic Lava Flow1776 125 F-18 51.8 120.0 12.5 2.5 K/Ar North America Canada Z N 1 3.2 Volcanic Lava Flow1777 125 F-19 51.7 120.0 12.5 2.5 K/Ar North America Canada Z N 1 21.0 Volcanic Lava Flow1778 125 F-21 51.5 120.7 12.5 2.5 K/Ar North America Canada Z R 1 14.4 Volcanic Lava Flow1779 125 F-22 51.5 120.8 12.5 2.5 K/Ar North America Canada Z R 1 25.9 Volcanic Lava Flow1780 125 F-27 51.6 122.3 12.5 2.5 K/Ar North America Canada Z N 1 8.4 Volcanic Lava Flow1781 125 F-33 51.9 122.8 12.5 2.5 K/Ar North America Canada Z N 1 24.5 Volcanic Lava Flow1782 125 F-39 52.1 123.4 12.5 2.5 K/Ar North America Canada Z R 1 43.0 Volcanic Lava Flow1783 125 F-41 51.9 123.0 12.5 2.5 K/Ar North America Canada Z R 1 47.3 Volcanic Lava Flow1784 125 F-42 51.9 123.0 12.5 2.5 K/Ar North America Canada Z R 1 24.9 Volcanic Lava Flow1785 125 F-43 51.9 123.0 12.5 2.5 K/Ar North America Canada Z R 1 36.0 Volcanic Lava Flow1786 125 F-47 51.9 123.0 12.5 2.5 K/Ar North America Canada Z R 1 31.5 Volcanic Lava Flow1787 125 F-49 52.5 125.8 12.5 2.5 K/Ar North America Canada Z N 1 6.7 Volcanic Lava Flow1788 125 I-05 51.5 121.4 12.5 2.5 K/Ar North America Canada Z R 1 29.4 Plutonic Intrusion1789 125 I-12 51.5 121.2 12.5 2.5 K/Ar North America Canada Z N 1 67.2 Plutonic Intrusion1790 125 I-14 51.5 121.2 12.5 2.5 K/Ar North America Canada Z N 1 87.5 Plutonic Intrusion1791 125 I-16 51.5 121.1 12.5 2.5 K/Ar North America Canada Z R 1 44.5 Plutonic Intrusion1792 125 I-20 51.5 121.1 12.5 2.5 K/Ar North America Canada Z R 1 27.3 Plutonic Intrusion1793 126 Skye Storr 11 57.5 -6.2 57.5 3.5 Ar/Ar Europe Scotland TZ R 32 -51.0 183.0 141 2.0 8 38.0 1.0 3 7.2 Volcanic Lava Flow HTox TiMa,Tc appr. 580°C, Age according to Dagley et al., GJI, 101,395, 1990

1794 127 A10-A11 45.6 120.2 8.0 3.0 Estimated age North America U.S.A. Z R 7 -45.1 202.4 1918 1.4 6 27.0 4.0 15 5.5 Volcanic Mixed Ma,Tc appr. 580°C, VDMc1795 127 A12 45.6 120.2 8.0 3.0 Estimated age North America U.S.A. Z R 5 -46.7 197.2 1170 2.2 1 31.0 6.2 Volcanic Mixed Ma,Tc appr. 580°C, VDMc1796 127 A14-A15 45.6 120.2 8.0 3.0 Estimated age North America U.S.A. Z R 6 -46.0 208.6 61 8.7 2 17.0 3.0 18 3.4 Volcanic Mixed Ma,Tc appr. 580°C, VDMc1797 127 A16 45.6 120.2 8.0 3.0 Estimated age North America U.S.A. Z R 7 -48.5 199.5 320 3.4 3 27.0 4.0 15 5.3 Volcanic Mixed Ma,Tc appr. 580°C, VDMc1798 127 A18 45.6 120.2 8.0 3.0 Estimated age North America U.S.A. Z R 5 -39.6 196.6 331 4.2 1 17.0 3.7 Volcanic Mixed Ma,Tc appr. 580°C, VDMc1799 128 LN01 49.9 11.8 277.5 2.5 Radiometric age Europe Germany T+ O 4 34.6 159.9 621 3.7 4 10.7 2.9 27 2.4 Plutonic Intrusion

(Ti)Ma + Hae, Tc 680 + 580°C, PSD, HT-oxidation

1800 128 SR01 49.9 12.0 277.5 2.5 Radiometric age Europe Germany T+ O 5 4.2 196.1 904 2.5 4 7.3 0.6 8 1.9 Plutonic Intrusion(Ti)Ma + Hae, Tc 680 + 580°C, PSD, HT-oxidation

1801 128 SR02 49.9 12.0 277.5 2.5 Radiometric age Europe Germany T+ O 5 -4.4 213.8 450 3.6 4 18.0 3.4 19 4.6 Plutonic Intrusion(Ti)Ma + Hae, Tc 680 + 580°C, PSD, HT-oxidation

1802 129 Ntonya Ring Complex 15.5 35.3 522.0 13.0 Ar/Ar Africa Malawi T+ O 7 43.0 311.0 1054 1.9 14 14.3 1.3 9 3.0 Plutonic Intrusion Ma, PSDImproved methodology for Thellier-type paleointensity

1803 130 SHB 40.0 102.0 0.2 Estimated age Asia China T- N 4 47.7 338.7 359 3.7 5 53.5 0.7 1 10.6 Sediment Loess Baked contact no information

1804 130 SHL 40.0 102.0 0.2 Estimated age Asia China T- N 10 51.0 353.7 23 9.3 5 57.2 1.3 2 11.0 Volcanic Basalt no information

1805 130 SHU 40.0 102.0 0.1 Estimated age Asia China T- N 4 40.9 358.2 119 15.9 5 35.0 2.2 6 7.5 Volcanic Basalt no information

1806 130 SJ 40.0 113.0 0.1 Estimated age Asia China T- N 12 38.5 358.4 123 3.6 5 33.1 5.2 16 7.3 Volcanic Basalt no information

1807 131 238 (lower) -11.0 71.0 34.0 4.0 Geomagnetic polarity timescale Indian Ocean T+ O 5 9.4 0.5 5 2.0 Volcanic Basalt Chilled margin VADM1808 131 238 (upper) -11.0 71.0 34.0 4.0 Geomagnetic polarity timescale Indian Ocean T+ O 3 33.0 9.6 29 6.9 Volcanic Basalt Chilled margin VADM1809 131 335 37.0 -35.0 13.8 1.3 Geomagnetic polarity timescale Atlantic Ocean T+ O 9 16.2 6.4 40 2.9 Volcanic Basalt Chilled margin VADM1810 131 395B 23.0 -46.0 8.0 1.0 Geomagnetic polarity timescale Atlantic Ocean T+ O 11 12.7 8.2 65 2.6 Volcanic Basalt Chilled margin VADM1811 131 396B 23.0 -44.0 11.5 0.5 Geomagnetic polarity timescale Atlantic Ocean T+ O 5 9.2 2.2 24 2.0 Volcanic Basalt Chilled margin VADM1812 131 407 64.0 -31.0 35.2 0.3 Geomagnetic polarity timescale Atlantic Ocean T+ O 4 27.9 3.6 13 4.0 Volcanic Basalt Chilled margin VADM



1813 131 410 46.0 -30.0 10.3 0.7 Geomagnetic polarity timescale Atlantic Ocean T+ O 3 10.8 0.3 3 1.8 Volcanic Basalt Chilled margin VADM1814 131 447A 18.0 133.0 43.5 5.5 Geomagnetic polarity timescale Pacific Ocean Philipine T+ O 2 33.5 0.7 2 8.3 Volcanic Basalt Chilled margin VADM1815 131 462A 7.0 165.0 111.0 1.0 Geomagnetic polarity timescale Pacific Ocean T+ O 2 14.8 0.4 3 3.7 Volcanic Basalt Chilled margin VADM1816 131 470A 29.0 -118.0 15.7 0.7 Geomagnetic polarity timescale Atlantic Ocean T+ O 3 31.7 7.6 24 6.6 Volcanic Basalt Chilled margin VADM1817 131 495 12.5 -91.0 22.0 2.0 Geomagnetic polarity timescale Pacific Ocean T+ O 4 17.3 2.1 12 4.4 Volcanic Basalt Chilled margin VADM1818 131 504B 1.0 -84.0 6.4 0.2 Geomagnetic polarity timescale Pacific Ocean T+ O 3 30.3 5.1 17 7.8 Volcanic Basalt Chilled margin VADM1819 131 520 -26.0 -11.0 14.9 0.2 Geomagnetic polarity timescale Atlantic Ocean T+ O 1 29.0 5.9 Volcanic Basalt Chilled margin VADM1820 131 522B -27.0 -5.0 35.7 1.3 Geomagnetic polarity timescale Atlantic Ocean T+ O 4 19.6 3.2 16 3.8 Volcanic Basalt Chilled margin VADM1821 131 525A -29.0 3.0 72.0 1.0 Geomagnetic polarity timescale Atlantic Ocean T+ O 5 51.3 3.9 8 9.0 Volcanic Basalt Chilled margin VADM1822 131 534A 28.0 -75.0 156.5 0.1 Geomagnetic polarity timescale Atlantic Ocean T+ O 1 12.0 3.0 Volcanic Basalt Chilled margin VADM1823 131 556 39.0 -35.0 32.0 1.1 Geomagnetic polarity timescale Atlantic Ocean T+ O 4 15.8 4.9 31 2.9 Volcanic Basalt Chilled margin VADM1824 131 559 35.0 -41.0 32.0 1.1 Geomagnetic polarity timescale Atlantic Ocean T+ O 2 9.5 0.7 7 1.8 Volcanic Basalt Chilled margin VADM1825 131 562 33.0 -42.0 17.9 0.4 Geomagnetic polarity timescale Atlantic Ocean T+ O 9 13.6 3.4 25 2.6 Volcanic Basalt Chilled margin VADM1826 131 563/564 34.0 -44.0 33.3 0.3 Geomagnetic polarity timescale Atlantic Ocean T+ O 9 16.3 3.2 20 3.1 Volcanic Basalt Chilled margin VADM1827 131 TR 35.0 33.0 92.0 Geomagnetic polarity timescale Atlantic Ocean T+ O 5 36.0 6.9 19 7.9 Volcanic Basalt Chilled margin VADM1828 132 Ulukasik M02 61.0 -45.3 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ T 4 41.6 148.0 221 6.2 2 8.4 1.6 19 1.8 Volcanic Lava Flow Hematite1829 132 Ulukasik M03 61.0 -45.3 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ T 4 47.4 149.4 518 4.0 2 7.2 1.1 15 1.4 Volcanic Lava Flow Hematite1830 132 Ulukasik M04 61.0 -45.3 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ T 4 49.5 153.3 69 11.1 2 9.0 1.0 11 1.8 Volcanic Lava Flow Hematite1831 132 Ulukasik M05 61.0 -45.3 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ T 4 43.9 156.1 370 4.8 2 10.1 0.1 1 2.1 Volcanic Lava Flow Hematite1832 132 Ulukasik M06 61.0 -45.4 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ T 4 46.4 157.2 187 6.7 2 7.5 2.8 37 1.5 Volcanic Lava Flow Hematite1833 132 Ulukasik M07 61.0 -45.4 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ T 4 39.5 148.1 59 12.1 1 6.6 0.2 3 1.4 Volcanic Lava Flow Hematite1834 132 Ulukasik M08 61.0 -45.4 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ T 4 -25.1 306.5 214 17.2 2 8.0 0.1 1 1.9 Volcanic Lava Flow Hematite1835 132 Ulukasik M09 61.0 -45.4 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ R 4 -16.2 141.6 668 3.1 2 8.3 0.1 1 2.1 Volcanic Lava Flow1836 132 Ulukasik M1 61.0 -45.3 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ T 4 57.1 162.4 397 4.6 2 58.8 2.5 4 10.4 Volcanic Lava Flow Magnetite

1837 132 Ulukasik M10 61.0 -45.4 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ R 4 -9.6 158.7 339 13.6 2 7.0 0.2 3 1.8 Volcanic Lava Flow1838 132 Ulukasik M11 61.0 -45.4 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ T 4 15.2 264.7 7 69.7 2 11.0 0.2 2 2.8 Volcanic Lava Flow1839 132 Ulukasik M12 61.0 -45.4 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ R 4 -12.2 138.3 193 18.1 2 12.8 0.2 2 3.3 Volcanic Lava Flow1840 132 Ulukasik M13 61.0 -45.4 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ R 4 -12.4 140.9 242 16.1 2 12.1 0.3 2 3.1 Volcanic Lava Flow1841 132 Ulukasik M14 61.0 -45.4 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ R 4 -16.0 135.9 1078 7.6 2 6.8 0.1 1 1.7 Volcanic Lava Flow1842 132 Ulukasik M15 61.0 -45.4 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ R 4 -17.7 138.3 431 12.1 2 6.8 0.1 1 1.7 Volcanic Lava Flow1843 132 Ulukasik M16 61.0 -45.4 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ N 4 27.3 292.2 721 9.3 2 12.8 1.2 9 3.5 Volcanic Lava Flow1844 132 Ulukasik M17 61.0 -45.4 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ T 4 -8.5 316.1 448 4.4 3 37.6 4.5 12 9.2 Volcanic Lava Flow1845 132 Ulukasik M18 61.0 -45.4 1350.0 10.0 Stratigraphic Atlantic Ocean Greenland T+ N 4 31.1 328.5 18 22.4 2 40.8 1.0 2 9.6 Volcanic Lava Flow1846 133 FJ6 35.4 138.7 0.0 0.0 Carbon 14 Asia Japan T+ N 8 52.4 19.1 2.9 2 113.0 33.0 29 21.3 Volcanic Lava Flow no information VDMc1847 133 HK1 35.2 139.0 0.0 0.0 Carbon 14 Asia Japan T+ N 5 44.2 2.7 6 Volcanic Lava Flow no information VDMc1848 133 HK7 35.2 139.0 0.0 0.0 Carbon 14 Asia Japan T+ N 4 57.1 343.1 21.4 4 60.8 6.8 11 10.8 Volcanic Pyroclastic no information VDMc1849 133 MK1 36.9 138.2 0.0 0.0 Carbon 14 Asia Japan T+ N 3 57.4 1.7 9.8 2 45.6 8.4 18 8.1 Volcanic Pyroclastic no information VDMc1850 133 MK2 36.9 138.2 0.0 0.0 Carbon 14 Asia Japan T+ N 4 52.7 10.2 4.4 4 54.5 3.9 7 10.2 Volcanic Pyroclastic no information VDMc1851 133 OS2 34.7 139.4 0.0 0.0 Carbon 14 Asia Japan T+ N 4 43.1 15.2 12.5 4 66.1 3.7 6 13.8 Volcanic Lava Flow no information VDMc1852 133 OS3 34.7 139.4 0.0 0.0 Carbon 14 Asia Japan T+ N 4 44.4 9.3 15.4 4 51.8 3.5 7 10.7 Volcanic Lava Flow no information VDMc1853 133 SB5 35.1 132.6 0.0 0.0 Carbon 14 Asia Japan T+ N 4 46.0 22.5 15.3 4 76.8 9.5 12 15.5 Volcanic Lava Flow no information VDMc1854 134 An-ei 31.5 131.5 0.0 Historic Asia Japan T- N 3 40.9 3.1 155 9.9 3 46.2 0.8 2 9.8 Volcanic Lava Flow Tc appr.300 and/or 490°C VDMc1855 134 Bunmei 31.5 131.5 0.0 Historic Asia Japan T- N 5 41.4 11.4 142 6.4 5 51.9 4.0 8 11.0 Volcanic Lava Flow Tc appr.320 and/or 560°C VDMc1856 134 Showa 31.5 131.5 0.0 Historic Asia Japan T- N 3 41.3 353.1 61 15.9 3 45.5 2.0 4 9.6 Volcanic Lava Flow Tc appr.360 and/or 480°C VDMc1857 134 Taisho 31.5 131.5 0.0 Historic Asia Japan T- N 3 13.0 3.0 106 12.0 3 41.4 2.6 6 10.5 Volcanic Lava Flow Tc appr.340 and/or 540°C VDMc1858 135 SP crater 34.0 -11.5 0.0 Historic North America U.S.A. Z N 12 58.6 2421 2.9 3 56.0 2.0 4 9.8 Volcanic Basalt TiMa VDMc1859 136 Parana CV02 -29.5 -51.5 133.0 1.0 Ar/Ar South America Brazil T+ O 6 25.1 3.2 13 4.8 Volcanic Lava Flow1860 136 Parana CV12 -29.5 -51.5 133.0 1.0 Ar/Ar South America Brazil T+ O 5 28.2 1.4 5 6.9 Volcanic Lava Flow1861 136 Parana JS03 -29.2 -54.5 133.0 1.0 Ar/Ar South America Brazil T+ O 3 37.7 4.2 11 7.9 Volcanic Lava Flow



1862 136 Parana JS09 -29.2 -54.5 133.0 1.0 Ar/Ar South America Brazil T+ O 4 8.8 1.6 18 1.8 Volcanic Lava Flow1863 136 Parana JS12 -29.2 -54.5 133.0 1.0 Ar/Ar South America Brazil T+ O 5 23.3 2.1 9 5.3 Volcanic Lava Flow1864 136 Parana SM1B -29.5 -53.5 133.0 1.0 Ar/Ar South America Brazil T+ O 4 22.4 5.4 24 5.0 Volcanic Lava Flow1865 137 GZ02 26.5 105.7 259.0 4.0 Stratigraphic Asia China T+ O 6 60.5 73.0 76 7.0 6 22.0 2.1 10 4.2 Volcanic Lava Flow Ma,Tc 580°C, SD/MD, KLT

1866 137 GZ03 26.5 105.7 259.0 4.0 Stratigraphic Asia China T+ O 5 47.2 109.3 95 6.2 5 22.8 1.8 8 3.4 Volcanic Lava FlowMa,Tc 600/580°C, SD/MD, KLT

VDMc = 4.6

1867 137 GZ04 26.5 105.7 259.0 4.0 Stratigraphic Asia China T+ O 6 14.6 70.1 70 7.3 6 14.2 1.7 12 3.4 Volcanic Lava Flow Ma,Tc 580°C, SD/MD, KLT

1868 137 GZ06 26.5 105.7 259.0 4.0 Stratigraphic Asia China T+ O 5 -3.8 50.7 1576 1.5 5 35.3 4.7 13 9.1 Volcanic Lava Flow Ma,Tc 580°C, SD/MD, KLT

1869 137 GZ08 26.5 105.7 259.0 4.0 Stratigraphic Asia China T+ O 6 38.6 69.9 110 7.3 6 20.3 3.0 15 4.1 Volcanic Lava Flow Ma,Tc 580°C, SD/MD, KLT

1870 138 01 40.3 45.2 35.5 1.5 Geologic timescale Europe Armenia T- O 8 68.0 20.0 25 12.0 4 25.0 1.0 4 3.8 Volcanic Porphyrite Baked contact VDMc1871 138 02 40.3 45.2 35.5 1.5 Geologic timescale Europe Armenia T- O 8 75.0 37.0 40 9.0 9 25.0 1.0 4 3.5 Volcanic Baked contact VDMc1872 138 03 40.3 45.2 35.5 1.5 Geologic timescale Europe Armenia T- O 11 67.0 30.0 47 7.0 12 23.0 1.0 4 3.6 Volcanic Tuff Baked contact VDMc1873 138 04 40.3 45.2 35.5 1.5 Geologic timescale Europe Armenia T- O 7 75.0 35.0 34 11.0 7 24.0 1.0 4 3.4 Volcanic Tuff Baked contact VDMc1874 138 05 40.3 45.2 35.5 1.5 Geologic timescale Europe Armenia T- O 11 76.0 2.0 41 7.0 11 22.0 2.0 9 3.1 Volcanic Baked contact VDMc1875 138 06 40.3 45.2 35.5 1.5 Geologic timescale Europe Armenia T- O 10 58.0 5.0 49 7.0 5 23.0 2.0 9 4.0 Volcanic Baked contact VDMc1876 138 07 40.3 45.2 35.5 1.5 Geologic timescale Europe Armenia T- O 15 62.0 6.0 51 5.0 10 22.0 1.0 5 3.7 Volcanic Porphyrite Baked contact VDMc1877 138 08 40.3 45.2 35.5 1.5 Geologic timescale Europe Armenia T- O 11 54.0 2.0 21 10.0 9 26.0 2.0 8 4.8 Volcanic Tuff Baked contact VDMc1878 138 09 40.3 45.2 35.5 1.5 Geologic timescale Europe Armenia T- O 5 57.0 9.0 22 17.0 5 23.0 3.0 13 4.1 Sediment Sandstone Baked contact VDMc1879 138 10 40.5 45.0 35.5 1.5 Geologic timescale Europe Armenia T- O 11 -53.0 196.0 62 6.0 20 26.0 1.0 4 4.9 Sediment Argillite Baked contact VDMc1880 138 11 40.5 45.0 35.5 1.5 Geologic timescale Europe Armenia T- O 10 -68.0 200.0 38 8.0 12 24.0 1.0 4 3.7 Volcanic Tuff Baked contact VDMc1881 138 12 40.5 45.0 35.5 1.5 Geologic timescale Europe Armenia T- O 17 -63.0 206.0 30 7.0 16 27.0 2.0 7 4.4 Volcanic Baked contact VDMc1882 138 13 40.5 45.0 35.5 1.5 Geologic timescale Europe Armenia T- O 13 -55.0 199.0 22 6.0 10 25.0 1.0 4 4.6 Volcanic Baked contact VDMc1883 138 14 40.5 45.0 35.5 1.5 Geologic timescale Europe Armenia T- O 13 63.0 15.0 43 6.0 19 25.0 2.0 8 4.1 Plutonic Dyke VDMc1884 138 15 41.0 44.5 35.5 1.5 Geologic timescale Europe Armenia T- O 15 52.0 352.0 37 6.0 13 27.0 1.0 4 5.1 Volcanic Porphyrite Baked contact VDMc1885 138 16 41.0 44.5 35.5 1.5 Geologic timescale Europe Armenia T- O 9 63.0 359.0 34 10.0 8 26.0 1.0 4 4.3 Volcanic Tuff Baked contact VDMc1886 138 17 41.0 44.5 35.5 1.5 Geologic timescale Europe Armenia T- O 8 61.0 4.0 38 9.0 8 26.0 1.0 4 4.4 Plutonic Intrusion VDMc1887 138 18 40.0 45.5 37.0 3.0 Geologic timescale Europe Armenia T- O 10 -55.0 196.0 49 7.0 9 26.0 1.0 4 4.7 Volcanic Porphyrite VDMc1888 138 19 40.0 45.5 37.0 3.0 Geologic timescale Europe Armenia T- O 14 65.0 15.0 40 6.0 14 26.0 1.0 4 4.2 Volcanic Porphyrite VDMc1889 138 20 39.5 46.0 37.0 3.0 Geologic timescale Europe Armenia T- O 12 -61.0 215.0 36 7.0 12 26.0 2.0 8 4.4 Plutonic Intrusion VDMc1890 138 21 39.5 45.5 41.5 4.5 Geologic timescale Europe Armenia T- O 16 55.0 351.0 27 8.0 15 31.0 2.0 6 5.7 Volcanic Porphyrite Baked contact VDMc1891 138 22 39.5 46.0 41.5 4.5 Geologic timescale Europe Armenia T- O 8 -55.0 172.0 37 9.0 9 28.0 2.0 7 5.1 Volcanic Porphyrite Baked contact VDMc1892 138 23 39.5 46.0 41.5 4.5 Geologic timescale Europe Armenia T- O 12 -52.0 168.0 34 8.0 12 29.0 2.0 7 5.5 Volcanic Porphyrite VDMc1893 138 24 39.5 46.0 41.5 4.5 Geologic timescale Europe Armenia T- O 10 -51.0 177.0 45 7.0 10 31.0 1.0 3 5.9 Volcanic Porphyrite Baked contact VDMc1894 138 25 40.0 45.5 41.5 4.5 Geologic timescale Europe Armenia T- O 15 55.0 351.0 39 6.0 11 31.0 2.0 6 5.7 Volcanic Andesite VDMc1895 138 26 40.0 45.5 41.5 4.5 Geologic timescale Europe Armenia T- O 7 -51.0 197.0 23 13.0 9 26.0 2.0 8 5.0 Volcanic Tuff Baked contact VDMc1896 138 27 40.0 45.5 41.5 4.5 Geologic timescale Europe Armenia T- O 15 51.0 352.0 52 5.0 9 26.0 1.0 4 5.0 Volcanic Porphyrite Baked contact VDMc1897 138 28 40.0 45.5 41.5 4.5 Geologic timescale Europe Armenia T- O 23 53.0 353.0 54 4.0 21 26.0 1.0 4 4.9 Volcanic Porphyrite Baked contact VDMc1898 138 29 39.5 46.0 41.5 4.5 Geologic timescale Europe Armenia T- O 19 55.0 345.0 71 4.0 20 26.0 1.0 4 4.7 Volcanic Porphyrite VDMc1899 138 30 40.0 45.5 41.5 4.5 Geologic timescale Europe Armenia T- O 10 54.0 352.0 55 7.0 9 23.0 2.0 9 4.2 Sediment Baked contact VDMc1900 138 31 40.5 45.0 41.5 4.5 Geologic timescale Europe Armenia T- O 17 -54.0 175.0 51 5.0 18 22.0 2.0 9 4.1 Volcanic Tuff Baked contact VDMc1901 138 32 40.0 45.5 41.5 4.5 Geologic timescale Europe Armenia T- O 11 -51.0 175.0 96 5.0 14 24.0 2.0 8 4.6 Volcanic Porphyrite VDMc1902 138 33 40.0 45.5 41.5 4.5 Geologic timescale Europe Armenia T- O 7 -53.0 176.0 28 12.0 4 23.0 2.0 9 4.3 Volcanic Tuff Baked contact VDMc1903 138 34 39.5 45.5 46.5 6.5 Geologic timescale Europe Armenia T- O 10 47.0 343.0 38 8.0 11 49.0 2.0 4 9.8 Volcanic Tuff Baked contact VDMc1904 138 35 39.5 45.5 46.5 6.5 Geologic timescale Europe Armenia T- O 7 48.0 345.0 24 7.0 8 48.0 2.0 4 9.5 Volcanic Baked contact VDMc1905 138 36 39.5 45.5 46.5 6.5 Geologic timescale Europe Armenia T- O 10 -47.0 144.0 42 7.0 5 46.0 1.0 2 9.2 Volcanic Tuff Baked contact VDMc1906 138 37 39.5 45.5 46.5 6.5 Geologic timescale Europe Armenia T- O 5 48.0 1.0 2 8.9 Volcanic Tuff Baked contact VDMc1907 138 38 39.5 45.5 46.5 6.5 Geologic timescale Europe Armenia T- O 9 -54.0 163.0 37 9.0 9 54.0 1.0 2 10.0 Volcanic Baked contact VDMc1908 138 39 39.5 45.5 46.5 6.5 Geologic timescale Europe Armenia T- O 9 -59.0 146.0 165 4.0 5 49.0 1.0 2 8.5 Volcanic Tuff Baked contact VDMc1909 138 40 39.5 45.5 46.5 6.5 Geologic timescale Europe Armenia T- O 10 -64.0 173.0 12 15.0 15 45.0 2.0 4 7.3 Volcanic Porphyrite Baked contact VDMc1910 138 41 39.5 45.5 46.5 6.5 Geologic timescale Europe Armenia T- O 9 -57.0 162.0 12 15.0 9 45.0 2.0 4 8.0 Volcanic Baked contact VDMc



1911 138 42 39.5 45.5 46.5 6.5 Geologic timescale Europe Armenia T- O 12 -49.0 169.0 56 6.0 3 46.0 2.0 4 9.0 Volcanic Baked contact VDMc1912 138 43 41.0 44.0 49.5 3.5 Geologic timescale Europe Armenia T- O 8 -53.0 172.0 28 10.0 8 48.0 1.0 2 9.0 Volcanic Baked contact VDMc1913 138 44 41.0 44.0 49.5 3.5 Geologic timescale Europe Armenia T- O 8 -50.0 160.0 34 10.0 10 48.0 1.0 2 9.3 Volcanic Tuff Baked contact VDMc1914 138 45 41.0 44.0 49.5 3.5 Geologic timescale Europe Armenia T- O 14 -52.0 159.0 42 7.0 12 45.0 2.0 4 8.5 Volcanic Mixed Baked contact VDMc1915 138 46 41.0 44.0 49.5 3.5 Geologic timescale Europe Armenia T- O 9 -51.0 161.0 37 9.0 12 48.0 1.0 2 9.2 Sediment Sandstone Baked contact VDMc1916 138 47 41.0 44.0 49.5 3.5 Geologic timescale Europe Armenia T- O 9 -49.0 162.0 39 8.0 7 48.0 2.0 4 9.4 Volcanic Ignimbrite Baked contact VDMc1917 138 48 41.0 44.0 49.5 3.5 Geologic timescale Europe Armenia T- O 14 -50.0 160.0 31 7.0 13 48.0 1.0 2 9.3 Volcanic Ignimbrite Baked contact VDMc1918 138 49 40.5 45.0 49.5 3.5 Geologic timescale Europe Armenia T- O 12 -49.0 172.0 68 5.0 12 49.0 2.0 4 9.6 Volcanic Tuff Baked contact VDMc1919 138 50 40.5 45.0 49.5 3.5 Geologic timescale Europe Armenia T- O 15 53.0 348.0 59 5.0 13 51.0 1.0 2 9.5 Volcanic Tuff Baked contact VDMc1920 138 51 40.5 45.0 49.5 3.5 Geologic timescale Europe Armenia T- O 10 54.0 347.0 55 7.0 10 50.0 1.0 2 9.2 Volcanic Mixed Baked contact VDMc1921 138 52 41.0 44.5 49.5 3.5 Geologic timescale Europe Armenia T- O 4 50.0 344.0 22 20.0 4 48.0 1.0 2 9.3 Volcanic Porphyrite Baked contact VDMc1922 139 001 19.8 -155.1 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 3 33.6 3 37.0 8.9 24 8.4 Volcanic Lava Flow

TiMa, var. Ti-amount,Tc range 350-580°C, low coec. VDMc, Replace ref 110

1923 139 011 19.8 -155.1 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 3 36.8 3 41.7 6.4 15 9.2 Volcanic Lava FlowTiMa, var. Ti-amount,Tc range 350-580°C, low coec. VDMc, Replace ref 110








1931 139 023 19.8 -155.1 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 3 -2.3 3 29.4 2.1 7 7.6 Volcanic Lava FlowTiMa, var. Ti-amount,Tc range 350-580°C, low coec. VDMc, Replace ref 110






1937 139 034 19.8 -155.1 0.1 Interpolated ages Pacific Ocean Hawaii T+ N 1 26.9 1 34.5 8.2 Volcanic Lava FlowTiMa, var. Ti-amount,Tc range 350-580°C, low coec. VDMc, Replace ref 110















1952 139 064 19.8 -155.1 0.3 Interpolated ages Pacific Ocean Hawaii T+ R 3 -32.1 2 16.6 0.3 2 3.8 Volcanic Lava FlowTiMa, var. Ti-amount,Tc range 350-580°C, low coec. VDMc, Replace ref 110














































2045 139 168 19.8 -155.1 0.3 Interpolated ages Pacific Ocean Hawaii T+ T 3 1.5 2 38.0 7.1 19 9.8 Volcanic Lava FlowTiMa, var. Ti-amount,Tc range 350-580°C, low coec. VDMc, Replace ref 110





















































2096 140 Aira caldera 31.8 130.8 0.0 0.0 Carbon 14 Asia Japan T+ N 2 24.0 Volcanic Lava Flow2097 140 Hakone 2 35.2 139.0 0.0 0.0 Carbon 14 Asia Japan T+ N 5 15.3 68.4 14.4 3 24.0 3.0 12 3.7 Volcanic Lava Flow2098 140 Hakone 2 35.2 139.0 0.0 0.0 Carbon 14 Asia Japan T+ N 5 21.8 62.3 6.2 2 46.0 5.0 11 7.6 Volcanic Lava Flow2099 141 CA 19.7 -155.2 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 6 39.2 334.6 83 7.4 5 20.1 2.0 10 4.3 Volcanic Lava Flow

Ti-rich TiMa,Tc 220-350°C, low coec.

2100 141 HI 9-18 19.7 -155.2 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 5 26.5 338.1 59 10.1 3 19.1 2.0 10 4.6 Volcanic Lava Flow Ti-rich TiMa,Tc 220-350°C

2101 141 HI1-8 AND 19-26 19.7 -155.2 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 10 40.6 355.2 57 6.5 7 35.5 4.6 13 7.6 Volcanic Lava Flow Ti-rich TiMa,Tc 220-350°C

2102 141 HO 19.1 -115.6 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 6 30.2 343.8 414 3.3 4 20.6 2.5 12 4.8 Volcanic Lava Flow Ti-poor TiMa

2103 141 KU 19.7 -155.2 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 5 25.6 355.8 247 4.9 2 26.7 2.7 10 6.4 Volcanic Lava Flow Ti-rich TiMa,Tc 220-350°C

2104 141 NA 19.1 -115.6 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 7 44.7 18.8 112 5.7 7 23.7 3.4 14 4.9 Volcanic Lava Flow Ti-poor TiMa

2105 141 PI 19.7 -155.2 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 6 30.9 340.5 234 4.4 2 23.3 1.3 6 5.4 Volcanic Lava Flow Ti-poor TiMa

2106 141 WI 19.7 -155.2 0.0 Carbon 14 Pacific Ocean Hawaii T+ N 6 40.2 348.1 115 6.3 5 47.2 8.4 18 10.1 Volcanic Lava Flow Ti-poor TiMa



2107 143 WK02 64.2 21.3 2.6 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 5 -3.6 74.3 168 6.3 2 20.6 1.1 5 5.3 Volcanic Lava Flow2108 143 WK03 64.2 21.3 2.6 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 3 -7.9 71.2 231 8.1 3 18.1 1.3 7 4.7 Volcanic Lava Flow2109 143 WK04 64.2 21.3 2.6 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 4 -18.7 74.5 85 8.8 3 12.9 1.9 15 3.3 Volcanic Lava Flow2110 143 WK06 64.2 21.3 2.6 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 8 4.3 75.1 78 8.9 3 13.6 3.0 22 3.5 Volcanic Lava Flow2111 143 WK10 64.2 21.3 2.6 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 4 -12.1 68.2 594 5.1 1 8.8 0.1 1 2.2 Volcanic Lava Flow2112 144 FL'1/FL'2 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ N 4 69.4 51.2 397 4.6 7 22.7 1.9 8 3.4 Volcanic Basalt Lava Flow2113 144 FL*6 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 3 -81.2 198.9 855 4.2 3 60.5 0.5 1 8.1 Volcanic Basalt Lava Flow2114 144 FL*7 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 3 -81.1 198.3 1970 2.8 2 48.3 1.5 3 6.6 Volcanic Basalt Lava Flow2115 144 FL4 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 3 -23.2 49.3 477 5.6 3 11.0 2.6 24 2.7 Volcanic Basalt Lava Flow2116 144 FL8 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ N 6 64.8 27.6 198 4.8 5 68.6 7.2 10 11.1 Volcanic Basalt Lava Flow2117 144 FL9 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ N 6 72.3 46.6 198 4.8 2 20.9 0.8 4 3.0 Volcanic Basalt Lava Flow2118 144 HU'3/4A 64.4 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 4 -66.5 136.5 524 4.0 7 31.7 1.7 5 5.4 Volcanic Basalt Lava Flow2119 144 HU'4A 64.4 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 3 -71.8 121.1 325 6.8 2 30.2 2.9 10 4.4 Volcanic Basalt Lava Flow2120 144 HU11 64.4 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 6 -14.1 49.7 1097 2.1 3 7.3 0.8 11 1.8 Volcanic Basalt Lava Flow2121 144 HU12 64.4 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 3 -15.6 51.3 424 4.5 3 13.9 4.2 30 3.5 Volcanic Basalt Lava Flow2122 144 HU19 64.4 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 3 -20.2 51.3 797 4.4 3 12.1 2.4 20 2.9 Volcanic Basalt Lava Flow2123 144 HU20 64.4 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ N 3 69.5 41.6 103 12.2 3 40.1 5.6 14 6.1 Volcanic Basalt Lava Flow2124 144 HU23/24 64.4 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 2 -77.1 116.4 5 13.6 4.8 35 1.9 Volcanic Basalt Lava Flow2125 144 HU27 64.4 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 3 -76.1 147.5 288 7.3 3 11.5 4.7 41 1.7 Volcanic Basalt Lava Flow2126 144 HU4A 64.4 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 3 -69.5 140.4 467 5.7 4 24.7 3.5 14 3.8 Volcanic Basalt Lava Flow2127 144 HU4B 64.4 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 6 -74.5 151.8 174 5.1 4 32.6 5.6 17 4.7 Volcanic Basalt Lava Flow2128 144 HU5 64.4 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 6 -73.7 157.5 332 3.7 6 30.9 6.1 20 4.5 Volcanic Basalt Lava Flow2129 144 HU6 64.4 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 5 -77.6 157.5 418 3.7 2 53.5 3.0 6 7.6 Volcanic Basalt Lava Flow2130 144 HU7 64.4 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 5 -77.0 199.4 710 2.9 7 65.9 14.8 22 10.5 Volcanic Basalt Lava Flow VDMc = 9.1

2131 144 HU8 64.4 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 5 -73.8 169.9 103 6.9 4 46.7 2.7 6 6.7 Volcanic Basalt Lava Flow2132 144 KY'00 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 6 -70.1 57.1 101 6.7 2 15.1 1.2 8 2.4 Volcanic Basalt Lava Flow2133 144 KY'12A 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 3 -69.7 185.1 341 6.7 3 45.4 5.2 11 6.8 Volcanic Basalt Lava Flow2134 144 KY01 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 4 -64.9 54.6 211 6.3 3 12.6 4.1 33 2.0 Volcanic Basalt Lava Flow2135 144 KY02 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 5 -53.4 52.7 193 5.5 4 13.3 4.7 35 2.3 Volcanic Basalt Lava Flow2136 144 KY03 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 6 -26.1 47.6 167 5.2 4 6.9 0.9 13 1.5 Volcanic Basalt Lava Flow2137 144 KY07 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ N 6 84.1 311.2 1195 1.9 4 25.6 1.3 5 3.3 Volcanic Basalt Lava Flow2138 144 PV'1 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 5 -17.7 48.4 217 5.2 4 11.2 0.1 1 2.8 Volcanic Basalt Lava Flow2139 144 PV'2 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 4 -16.9 48.1 163 7.2 4 13.1 2.8 21 3.3 Volcanic Basalt Lava Flow2140 144 PV'3 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 5 -15.6 50.9 313 4.3 5 16.3 2.6 16 4.1 Volcanic Basalt Lava Flow2141 144 PV'4 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 4 -17.4 52.7 412 4.5 4 12.7 3.8 30 3.2 Volcanic Basalt Lava Flow2142 144 PV'5 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 4 -14.8 44.7 229 6.1 3 9.3 2.3 25 2.3 Volcanic Basalt Lava Flow2143 144 PV'9 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ N 4 72.9 37.3 73 10.8 2 22.8 0.2 1 3.2 Volcanic Basalt Lava Flow2144 144 PV1 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 3 -77.2 182.9 3414 2.1 5 28.5 4.4 15 3.9 Volcanic Basalt Lava Flow2145 144 PV2 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 4 -73.7 177.9 776 3.3 3 53.4 1.6 3 7.4 Volcanic Basalt Lava Flow2146 144 PV3 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ R 4 -72.7 188.5 287 5.4 7 45.5 12.2 27 6.8 Volcanic Basalt Lava Flow2147 144 PV5 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 3 -7.6 47.9 2415 2.5 3 8.0 0.1 1 2.1 Volcanic Basalt Lava Flow2148 144 PV5/7A 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 2 -34.3 50.8 2 11.7 2.4 21 2.7 Volcanic Basalt Lava Flow2149 144 PV7A 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 3 -19.4 46.2 558 5.2 2 11.5 1.3 11 2.8 Volcanic Basalt Lava Flow2150 144 PV7B 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 3 -22.1 49.8 1752 2.9 3 5.7 0.6 11 1.4 Volcanic Basalt Lava Flow2151 144 PV8 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 3 -23.3 47.2 495 5.5 4 7.5 1.7 23 1.9 Volcanic Basalt Lava Flow2152 144 PV9 64.3 -21.4 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ T 4 -19.3 51.6 252 5.8 4 13.5 1.8 13 3.4 Volcanic Basalt Lava Flow2153 144 SB'1/2 64.2 -21.7 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ N 5 69.2 10.1 397 3.8 5 12.0 3.9 33 1.8 Volcanic Basalt Lava Flow2154 144 SB'14 64.2 -21.7 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ N 3 63.5 337.4 57 16.5 3 19.3 10.7 55 3.2 Volcanic Basalt Lava Flow2155 144 SB'5 64.2 -21.7 2.1 0.0 Geomagnetic polarity timescale Atlantic Ocean Iceland T+ N 4 65.1 9.1 316 5.2 3 30.8 12.7 41 5.4 Volcanic Basalt Lava Flow



2156 145 VN02 33.4 -70.2 16.5 1.5 K/Ar South America Chile T+ N 12 -37.5 347.8 103 4.3 2 11.4 2.4 21 2.3 Volcanic Lava Flow2157 145 VN03 33.4 -70.2 16.5 1.5 K/Ar South America Chile T+ N 22 -79.9 295.0 87 3.3 6 13.8 4.1 30 1.9 Volcanic Lava Flow2158 145 VN07 33.4 -70.2 16.5 1.5 K/Ar South America Chile T+ N 7 -55.5 339.8 821 2.1 5 7.7 3.6 47 1.4 Volcanic Lava Flow2159 145 VN13 33.4 -70.2 16.5 1.5 K/Ar South America Chile T+ R 10 56.8 216.5 118 4.5 3 18.4 4.2 23 3.4 Volcanic Lava Flow2160 145 VN14 33.4 -70.2 16.5 1.5 K/Ar South America Chile T+ R 10 50.8 224.9 31 8.9 2 23.7 1.1 5 4.0 Volcanic Lava Flow2161 145 VN20 33.4 -70.2 16.5 1.5 K/Ar South America Chile T+ R 16 21.5 187.7 99 5.3 2 12.5 3.8 30 3.2 Volcanic Lava Flow2162 145 VN24 33.4 -70.3 16.5 1.5 K/Ar South America Chile T+ N 9 -56.3 31.8 134 4.5 2 9.7 1.2 12 1.7 Volcanic Lava Flow2163 145 VN31 33.4 -70.2 16.5 1.5 K/Ar South America Chile T+ N 7 -58.1 33.2 156 4.9 2 15.1 2.1 14 2.8 Volcanic Lava Flow2164 146 332a-08-1p7b 36.9 -33.6 3.9 Geomagnetic polarity timescale Atlantic Ocean T+ O 1 27.0 4.8 Volcanic Basalt Chilled margin VADM2165 146 332a-22-1p2a 36.9 -33.6 3.9 Geomagnetic polarity timescale Atlantic Ocean T+ O 1 17.0 3.0 Volcanic Basalt Chilled margin VADM2166 146 332a-26-1p5b 36.9 -33.6 3.9 Geomagnetic polarity timescale Atlantic Ocean T+ O 1 15.0 2.7 Volcanic Basalt Chilled margin VADM2167 146 332a-48-1p6b 36.9 -33.6 3.9 Geomagnetic polarity timescale Atlantic Ocean T+ O 1 21.0 3.8 Volcanic Basalt Chilled margin VADM2168 146 420-14-1p1a 9.0 -106.0 3.4 Geomagnetic polarity timescale Pacific Ocean T+ O 1 12.0 3.0 Volcanic Basalt Chilled margin VADM2169 146 420-17-1p1a 9.0 -106.0 3.4 Geomagnetic polarity timescale Pacific Ocean T+ O 1 14.0 3.5 Volcanic Basalt Chilled margin VADM2170 146 474a-46-3p1a 23.0 -109.0 3.1 Geomagnetic polarity timescale Pacific Ocean T+ O 1 24.0 5.2 Volcanic Basalt Chilled margin VADM2171 146 474a-46-3p1b 23.0 -109.0 3.1 Geomagnetic polarity timescale Pacific Ocean T+ O 1 25.0 5.4 Volcanic Basalt Chilled margin VADM2172 146 474a-47-3p1b 23.0 -109.0 3.1 Geomagnetic polarity timescale Pacific Ocean T+ O 1 23.0 4.9 Volcanic Basalt Chilled margin VADM2173 146 474a-48-1p3a 23.0 -109.0 3.1 Geomagnetic polarity timescale Pacific Ocean T+ O 1 27.0 5.8 Volcanic Basalt Chilled margin VADM2174 146 474a-48-1p3b 23.0 -109.0 3.1 Geomagnetic polarity timescale Pacific Ocean T+ O 1 21.0 4.5 Volcanic Basalt Chilled margin VADM2175 146 474a-48-3p1b 23.0 -109.0 3.1 Geomagnetic polarity timescale Pacific Ocean T+ O 1 20.0 4.3 Volcanic Basalt Chilled margin VADM2176 146 474a-49-1p1a 23.0 -109.0 3.1 Geomagnetic polarity timescale Pacific Ocean T+ O 1 13.0 2.8 Volcanic Basalt Chilled margin VADM2177 146 474a-49-2p4a 23.0 -109.0 3.1 Geomagnetic polarity timescale Pacific Ocean T+ O 1 24.0 5.2 Volcanic Basalt Chilled margin VADM2178 146 474a-49-2p4b 23.0 -109.0 3.1 Geomagnetic polarity timescale Pacific Ocean T+ O 1 22.0 4.7 Volcanic Basalt Chilled margin VADM2179 146 482d-11-2p4b 22.8 -108.0 0.3 Geomagnetic polarity timescale Pacific Ocean T+ O 1 13.0 2.8 Volcanic Basalt Chilled margin VADM2180 146 482d-11-3p3ab 22.8 -108.0 0.3 Geomagnetic polarity timescale Pacific Ocean T+ O 1 35.0 7.5 Volcanic Basalt Chilled margin VADM2181 146 483-21-1p6a 22.9 -108.7 2.0 Geomagnetic polarity timescale Pacific Ocean T+ O 1 35.0 7.5 Volcanic Basalt Chilled margin VADM2182 146 483-21-1p6b 22.9 -108.7 2.0 Geomagnetic polarity timescale Pacific Ocean T+ O 1 38.0 8.1 Volcanic Basalt Chilled margin VADM2183 146 483-21-2p8b 22.9 -108.7 2.0 Geomagnetic polarity timescale Pacific Ocean T+ O 1 59.0 12.6 Volcanic Basalt Chilled margin VADM2184 146 483-21-3p1a 22.9 -108.7 2.0 Geomagnetic polarity timescale Pacific Ocean T+ O 1 23.0 4.9 Volcanic Basalt Chilled margin VADM2185 146 483-23-1p8ab 22.9 -108.7 2.0 Geomagnetic polarity timescale Pacific Ocean T+ O 1 48.0 10.3 Volcanic Basalt Chilled margin VADM2186 146 483-23-2p8aa 22.9 -108.7 2.0 Geomagnetic polarity timescale Pacific Ocean T+ O 1 50.0 10.7 Volcanic Basalt Chilled margin VADM2187 146 483b-12-1p1a 22.9 -108.7 2.0 Geomagnetic polarity timescale Pacific Ocean T+ O 1 9.0 1.9 Volcanic Basalt Chilled margin VADM2188 146 483b-21-2p1a 22.9 -108.7 2.0 Geomagnetic polarity timescale Pacific Ocean T+ O 1 4.0 0.9 Volcanic Basalt Chilled margin VADM2189 146 483b-22-1p1ab 22.9 -108.7 2.0 Geomagnetic polarity timescale Pacific Ocean T+ O 1 5.0 1.1 Volcanic Basalt Chilled margin VADM2190 146 483b-22-2p3b 22.9 -108.7 2.0 Geomagnetic polarity timescale Pacific Ocean T+ O 1 33.0 7.1 Volcanic Basalt Chilled margin VADM2191 146 483b-22-2p7cb 22.9 -108.7 2.0 Geomagnetic polarity timescale Pacific Ocean T+ O 1 30.0 6.4 Volcanic Basalt Chilled margin VADM2192 146 483b-29-1p2ba 22.9 -108.7 2.0 Geomagnetic polarity timescale Pacific Ocean T+ O 1 15.0 3.2 Volcanic Basalt Chilled margin VADM2193 146 483b-32-3p7a 22.9 -108.7 2.0 Geomagnetic polarity timescale Pacific Ocean T+ O 1 5.0 1.1 Volcanic Basalt Chilled margin VADM2194 147 Xitle 19.3 -99.2 0.0 Carbon 14 North America Mexico Mpp 1 58.3 9.5 16 Volcanic Basalt Lava Flow

Same samples than ref 124 - different pint technique

2195 148 K02 9.9 76.2 69.0 1.0 Ar/Ar Asia India T+ N 7 -61.0 328.0 142 5.1 2 23.9 4.4 18 4.0 Plutonic Dyke2196 148 K07 9.9 76.2 69.0 1.0 Ar/Ar Asia India T+ R 5 66.0 163.0 226 5.1 2 18.2 0.3 2 2.9 Volcanic Lava Flow2197 148 K09 9.4 76.8 69.0 1.0 Ar/Ar Asia India T+ R 7 56.0 149.0 37 10.1 1 23.8 4.9 Volcanic Lava Flow2198 148 K11 9.4 76.8 69.0 1.0 Ar/Ar Asia India T+ R 7 57.0 156.0 374 3.1 1 18.0 2.9 Volcanic Lava Flow2199 149 LL05 13.2 37.2 30.0 Combined Africa Ethiopia T+ R 2 41.0 218.0 2 14.2 3.3 23 3.0 Volcanic Lava Flow2200 149 LL06 13.2 37.2 30.0 Combined Africa Ethiopia T+ R 1 -33.0 176.0 1 24.7 5.6 Volcanic Lava Flow2201 149 LL08 13.2 37.2 30.0 Combined Africa Ethiopia T+ R 3 -19.0 175.0 3 17.3 1.3 8 4.3 Volcanic Lava Flow2202 149 LL16 13.2 37.2 30.0 Combined Africa Ethiopia T+ R 2 26.0 184.0 2 19.7 3.8 19 4.7 Volcanic Lava Flow2203 149 LL17 13.2 37.2 30.0 Combined Africa Ethiopia T+ R 3 -9.0 190.0 3 39.2 4.4 11 10.0 Volcanic Lava Flow2204 149 LL19 13.2 37.2 30.0 Combined Africa Ethiopia T+ R 2 -22.0 187.0 2 35.4 1.4 4 8.6 Volcanic Lava Flow



2205 149 LL23 13.2 37.2 30.0 Combined Africa Ethiopia T+ R 3 34.0 199.0 3 24.9 4.0 16 5.62206 149 LL28 13.2 37.2 30.0 Combined Africa Ethiopia T+ R 1 -6.0 173.0 1 14.5 3.7 Volcanic Lava Flow2207 150 Equaluit 69.7 -54.8 53.6 0.3 Ar/Ar Atlantic Ocean Greenland T+ R 6 -59.1 164.6 747 2.5 5 88.8 6.5 7 15.4 Plutonic Dyke2208 150 Equaluit 1 69.7 -54.8 53.6 0.3 Ar/Ar Atlantic Ocean Greenland T+ R 5 -58.9 182.4 443 3.6 1 51.2 9.0 Volcanic Lava Flow2209 150 Nuussuutaa 3 70.7 -54.6 52.5 0.2 Ar/Ar Atlantic Ocean Greenland T+ R 3 -79.8 204.9 458 5.8 3 13.5 2.5 19 1.8 Volcanic Lava Flow2210 151 Bournac 1 45.0 4.1 9.4 0.2 Ar/Ar Europe France T+ N 7 66.5 336.5 123 5.5 4 12.9 0.9 7 2.0 Sediment Baked contact

2211 151 Combevieille 45.1 4.2 13.6 0.1 Ar/Ar Europe France T+ N 10 70.5 12.3 543 2.1 6 47.7 4.7 10 7.3 Sediment Baked contact

2212 151 Monastier 44.9 4.0 9.2 0.1 Ar/Ar Europe France T+ N 6 56.7 14.8 587 2.8 2 14.7 1.7 12 2.7 Volcanic Basalt2213 151 St Clement 6 45.0 4.3 9.0 1.0 Stratigraphic Europe France T+ R 1 -60.7 144.8 1 17.5 2.9 Sediment Baked contact

2214 151 St Clement 7 45.0 4.3 9.0 1.0 Stratigraphic Europe France T+ R 3 -51.3 177.8 927 4.1 1 58.9 11.2 Volcanic Basalt2215 152 Anaanaa 410729 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 1 18.7 3.8 Volcanic Lava Flow2216 152 Anaanaa 410733 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 3 8.6 0.1 1 1.3 Volcanic Lava Flow2217 152 Anaanaa 410734 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 2 30.9 1.5 5 4.8 Volcanic Lava Flow2218 152 Anaanaa 410735 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 1 25.2 3.7 Volcanic Lava Flow2219 152 Anaanaa 410737 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 1 22.2 4.1 Volcanic Lava Flow2220 152 Anaanaa 410739 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 1 25.0 4.6 Volcanic Lava Flow2221 152 Nuusap 410797 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 1 53.1 7.5 Volcanic Lava Flow2222 152 Nuusap 410801 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 2 30.1 0.9 3 4.2 Volcanic Lava Flow2223 152 Nuusap 410805 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 1 23.7 3.3 Volcanic Lava Flow2224 152 Nuusap 410811 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ T 2 11.9 0.4 3 2.0 Volcanic Lava Flow2225 152 Nuusap 410821 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ T 3 7.4 0.2 3 1.9 Volcanic Lava Flow2226 152 Nuusap 410823 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ T 2 11.9 0.4 3 3.0 Volcanic Lava Flow2227 152 Nuusap 410825 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ T 1 7.1 1.8 Volcanic Lava Flow2228 152 Nuusap 410826 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ T 1 1.8 4.0 Volcanic Lava Flow2229 152 Nuusap 410829 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ T 1 9.1 2.3 Volcanic Lava Flow2230 152 Nuusap 410839 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ T 2 14.1 0.9 6 2.1 Volcanic Lava Flow2231 152 Nuusap 410844 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ T 2 13.9 1.1 8 2.4 Volcanic Lava Flow2232 152 Nuusap 410845 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ T 1 11.8 1.9 Volcanic Lava Flow2233 152 Nuusap 410850 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ T 1 10.1 2.6 Volcanic Lava Flow2234 152 Nuusap 410857 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 1 11.9 3.0 Volcanic Lava Flow2235 152 Nuusap 410858 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 1 6.6 1.1 Volcanic Lava Flow2236 152 Nuusap 410865 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 2 13.4 0.7 5 2.4 Volcanic Lava Flow2237 152 Nuusap 410866 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 2 14.6 1.7 12 2.1 Volcanic Lava Flow2238 152 Nuusap 410870 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 1 16.5 3.4 Volcanic Lava Flow2239 152 Nuusap 410871 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 1 5.6 1.0 Volcanic Lava Flow2240 152 Qunnileer 410747 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 3 15.2 0.6 4 2.2 Volcanic Lava Flow2241 152 Qunnileer 410750 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 2 13.7 1.8 13 1.9 Volcanic Lava Flow2242 152 Qunnileer 410754 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 2 10.4 0.2 2 1.6 Volcanic Lava Flow2243 152 Qunnileer 410756 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 3 13.9 0.8 6 2.1 Volcanic Lava Flow2244 152 Qunnileer 410773 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ N 1 20.5 4.3 Volcanic Lava Flow2245 152 Sorluut 410873 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 1 52.6 8.3 Volcanic Lava Flow2246 152 Sorluut 410874 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 1 60.5 9.9 Volcanic Lava Flow2247 152 Sorluut 410875 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 1 30.8 5.5 Volcanic Lava Flow2248 152 Sorluut 410877 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 2 39.7 0.8 2 5.7 Volcanic Lava Flow2249 152 Sorluut 410879 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 2 34.3 2.3 7 4.6 Volcanic Lava Flow2250 152 Sorluut 410883 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 2 29.6 0.9 3 4.7 Volcanic Lava Flow2251 152 Sorluut 410892 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 1 28.6 4.6 Volcanic Lava Flow2252 152 Sorluut 410893 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 2 25.7 0.2 1 4.7 Volcanic Lava Flow2253 152 Sorluut 410896 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 2 27.2 2.9 11 4.2 Volcanic Lava Flow



2254 152 Sorluut 410897 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 3 24.2 0.4 2 3.4 Volcanic Lava Flow2255 152 Sorluut 410898 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 3 62.8 5.5 9 9.3 Volcanic Lava Flow2256 152 Sorluut 410904 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 2 45.3 1.3 3 7.8 Volcanic Lava Flow2257 152 Sorluut 410905 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 2 55.2 4.8 9 10.0 Volcanic Lava Flow2258 152 Sorluut 410906 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 2 61.3 0.7 1 11.2 Volcanic Lava Flow2259 152 Sorluut 410907 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 3 39.4 5.1 13 6.6 Volcanic Lava Flow2260 152 Sorluut 410914 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 3 62.0 2.3 4 11.4 Volcanic Lava Flow2261 152 Sorluut 410915 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 2 61.7 8.4 14 10.1 Volcanic Lava Flow2262 152 Sorluut 410917 70.3 -54.0 60.1 0.9 Ar/Ar Atlantic Ocean Greenland T+ R 1 61.4 9.2 Volcanic Lava Flow2263 153 01 Mt Shonkau 13.1 109.2 6.9 0.1 Stratigraphic Asia Vietnam T- O 18 10.0 344.0 53 5.0 7 26.0 2.0 8 6.7 Volcanic Basalt2264 153 02 Sosunov Promontory 46.5 138.4 5.4 0.4 Stratigraphic Asia Primor'e T- O 48 -52.0 200.0 87 2.0 28 27.0 1.0 4 5.1 Volcanic Basalt2265 153 03 Zod 40.2 45.9 4.4 0.9 Stratigraphic Europe Armenia T- O 12 57.0 358.0 41 7.0 14 27.0 1.0 4 4.8 Volcanic Andesite

2266 153 04 Yadasen volcano 49.9 136.4 4.4 0.0 Stratigraphic Asia Primor'e T- O 53 64.0 13.0 35 3.0 15 28.0 2.0 7 4.6 Volcanic Basalt2267 153 05 Baolok 11.1 107.2 3.5 1.8 Stratigraphic Asia Vietnam T- O 19 4.0 360.0 94 4.0 9 26.0 2.0 8 6.7 Volcanic Basalt2268 153 06 Gorisskaya 39.5 46.3 2.6 1.2 Stratigraphic Europe Armenia T- O 17 59.0 340.0 51 5.0 17 26.0 1.0 4 4.5 Volcanic Tuff Baked contact

2269 153 07-08 Vididalsau 65.3 -20.5 2.6 0.2 Stratigraphic Atlantic Ocean Iceland T- O 38 69.0 337.0 38 4.0 38 25.0 1.0 4 3.8 Baked contact

2270 153 09 Zod 40.2 45.9 2.6 1.2 Stratigraphic Europe Armenia T- O 6 54.0 353.0 27 13.0 5 25.0 2.0 8 4.6 Volcanic Basalt2271 153 10 Zod 40.2 45.9 2.6 1.2 Stratigraphic Europe Armenia T- O 12 54.0 354.0 37 7.0 9 26.0 1.0 4 4.8 Volcanic Andesite

2272 153 11 Zod 40.2 45.9 2.6 1.2 Stratigraphic Europe Armenia T- O 12 51.0 352.0 46 6.0 11 27.0 2.0 7 5.2 Volcanic Dacite2273 153 12 Zod 40.2 45.9 2.6 1.2 Stratigraphic Europe Armenia T- O 13 -53.0 173.0 42 6.0 13 30.0 2.0 7 5.6 Volcanic Andesite

2274 153 13 Sevan 40.2 45.7 2.6 1.2 Stratigraphic Europe Armenia T- O 36 -58.0 174.0 45 4.0 34 34.0 1.0 3 6.0 Volcanic Ignimbrite

2275 153 14-15 Manicharskii 40.3 45.1 2.6 1.2 Stratigraphic Europe Armenia T- O 43 -61.0 175.0 71 3.0 44 36.0 1.0 3 6.1 Baked contact

2276 153 16 Manicharskii 40.3 45.1 2.6 1.2 Stratigraphic Europe Armenia T- O 27 -61.0 172.0 51 4.0 30 37.0 1.0 3 6.3 Volcanic Andesite






2282 153 26-30 Khot 39.4 46.2 2.6 1.2 Stratigraphic Europe Armenia T- O 58 -56.0 172.0 645 3.0 48 49.0 1.0 2 8.8 Volcanic Andesite

2283 153 31 Yerevan 40.2 44.5 2.6 1.2 Stratigraphic Europe Armenia T- O 20 -56.0 176.0 64 4.0 18 50.0 1.0 2 9.0 Volcanic Dolerite VDMc2284 153 32-33 Yerevan 41.0 44.5 2.6 1.2 Stratigraphic Europe Armenia T- O 20 -55.0 163.0 33 6.0 18 50.0 2.0 4 9.1 Baked contact VDMc2285 153 34 Yerevan 41.0 44.5 2.6 1.2 Stratigraphic Europe Armenia T- O 12 -46.0 170.0 35 7.0 12 51.0 1.0 2 10.3 Volcanic Basalt VDMc2286 153 35 Yerevan 41.0 44.5 2.6 1.2 Stratigraphic Europe Armenia T- O 10 -56.0 172.0 30 9.0 10 51.0 1.0 2 9.2 Volcanic Basalt VDMc2287 153 36 Yerevan 41.0 44.5 2.6 1.2 Stratigraphic Europe Armenia T- O 6 -56.0 173.0 19 16.0 6 50.0 2.0 4 9.0 Volcanic Basalt VDMc2288 153 37-38 Yerevan 41.0 44.5 2.6 1.2 Stratigraphic Europe Armenia T- O 16 -55.0 175.0 36 6.0 15 50.0 1.0 2 9.1 Volcanic Tuff Baked contact VDMc2289 153 39-40 Yerevan 41.0 44.5 2.6 1.2 Stratigraphic Europe Armenia T- O 10 -56.0 176.0 31 9.0 10 51.0 2.0 4 9.2 Baked contact VDMc2290 153 41-42 Yerevan 41.0 44.5 2.6 1.2 Stratigraphic Europe Armenia T- O 12 -55.0 175.0 31 8.0 12 52.0 1.0 2 9.5 Baked contact VDMc2291 153 43 Yerevan 41.0 44.5 2.6 1.2 Stratigraphic Europe Armenia T- O 8 -52.0 174.0 28 12.0 8 51.0 1.0 2 9.6 Volcanic Dolerite VDMc2292 153 44 Yerevan 41.0 44.5 2.6 1.2 Stratigraphic Europe Armenia T- O 7 -57.0 179.0 19 14.0 7 50.0 1.0 2 8.9 Volcanic Dolerite VDMc2293 153 45 Yerevan 41.0 44.5 2.6 1.2 Stratigraphic Europe Armenia T- O 5 -49.0 170.0 32 17.0 5 51.0 2.0 4 10.0 Volcanic Dolerite VDMc2294 153 46 Yerevan 41.0 44.5 2.6 1.2 Stratigraphic Europe Armenia T- O 8 -56.0 179.0 35 9.0 11 51.0 1.0 2 9.2 Volcanic Dolerite VDMc2295 154 01 Subotan intrusion 40.0 45.5 32.5 0.5 Stratigraphic Europe Armenia T- O 12 -53.0 166.0 40 7.0 9 26.0 1.0 4 4.9 Plutonic Intrusion VDMc2296 154 02 Subotan intrusion 40.0 45.5 32.5 0.5 Stratigraphic Europe Armenia T- O 12 -50.0 174.0 42 7.0 8 26.0 1.0 4 5.0 Plutonic Intrusion VDMc2297 154 03 Subotan intrusion 40.0 45.5 32.5 0.5 Stratigraphic Europe Armenia T- O 13 -50.0 167.0 43 6.0 10 26.0 2.0 8 5.0 Plutonic Intrusion VDMc2298 154 04 Subotan intrusion 40.0 45.5 32.5 0.5 Stratigraphic Europe Armenia T- O 14 65.0 356.0 45 6.0 14 24.0 1.0 4 3.8 Plutonic Intrusion VDMc2299 154 05-06 Akhavnadzor 40.3 45.2 28.5 7.8 Stratigraphic Europe Armenia T- O 27 -64.0 106.0 105 3.0 25 24.0 1.0 4 3.9 Baked contact VDMc2300 154 07 Akhavnadzor 40.3 45.2 28.5 7.8 Stratigraphic Europe Armenia T- O 7 -78.0 159.0 155 5.0 8 24.0 3.0 12 3.3 Volcanic Tuff Baked contact VDMc2301 154 08 Akhavnadzor 40.3 45.2 28.5 7.8 Stratigraphic Europe Armenia T- O 17 -75.0 182.0 117 3.0 17 22.0 1.0 5 3.1 Sediment Clay Baked contact VDMc2302 154 09 Akhavnadzor 40.3 45.2 28.5 7.8 Stratigraphic Europe Armenia T- O 21 -58.0 166.0 140 3.0 23 22.0 1.0 5 3.9 Sediment Sandstone Baked contact VDMc



2303 154 10 Akhavnadzor 40.3 45.2 28.5 7.8 Stratigraphic Europe Armenia T- O 8 -58.0 165.0 108 5.0 10 24.0 2.0 8 4.2 Volcanic Baked contact VDMc2304 154 11-12 Akhavnadzor 40.3 45.2 28.5 7.8 Stratigraphic Europe Armenia T- O 40 -51.0 178.0 98 3.0 41 22.0 1.0 5 4.2 Baked contact VDMc2305 154 13 Akhavnadzor 40.3 45.2 28.5 7.8 Stratigraphic Europe Armenia T- O 22 -63.0 152.0 41 5.0 19 35.0 1.0 3 5.8 Volcanic Tuff Baked contact VDMc2306 154 14 Akhavnadzor 40.3 45.2 28.5 7.8 Stratigraphic Europe Armenia T- O 16 -74.0 180.0 15 10.0 9 26.0 3.0 12 3.7 Volcanic Baked contact VDMc2307 154 15 Akhavnadzor 40.3 45.2 28.5 7.8 Stratigraphic Europe Armenia T- O 12 -67.0 169.0 16 12.0 15 26.0 1.0 4 4.1 Volcanic Tuff Baked contact VDMc2308 154 16 Akhavnadzor 40.3 45.2 28.5 7.8 Stratigraphic Europe Armenia T- O 11 -72.0 212.0 15 12.0 15 26.0 2.0 8 3.8 Volcanic Ignimbrite Baked contact VDMc2309 154 17 Akhavnadzor 40.3 45.2 28.5 7.8 Stratigraphic Europe Armenia T- O 11 -60.0 170.0 25 9.0 7 25.0 1.0 4 4.3 Volcanic Tuff Baked contact VDMc2310 154 18 Akhavnadzor 40.3 45.2 28.5 7.8 Stratigraphic Europe Armenia T- O 11 -59.0 161.0 26 9.0 14 26.0 3.0 12 4.5 Volcanic Baked contact VDMc2311 154 19 Akhavnadzor 40.3 45.2 28.5 7.8 Stratigraphic Europe Armenia T- O 11 -85.0 248.0 17 11.0 15 27.0 2.0 7 3.5 Sediment Clay Baked contact VDMc2312 154 20 Akhavnadzor 40.3 45.2 28.5 7.8 Stratigraphic Europe Armenia T- O 12 27.0 1.0 4 3.9 Volcanic Baked contact VDMc2313 154 21 Gazminskaya 39.7 45.5 22.5 1.5 Stratigraphic Europe Armenia T- O 22 63.0 355.0 68 4.0 22 27.0 1.0 4 4.4 Plutonic Granodiorite VDMc2314 154 22 Gazminskaya 39.7 45.5 22.5 1.5 Stratigraphic Europe Armenia T- O 9 67.0 351.0 38 9.0 6 27.0 2.0 7 4.2 Plutonic Dyke VDMc2315 154 23-24 Sevan Lake 40.0 45.3 7.0 2.0 Stratigraphic Europe Armenia T- O 26 -62.0 150.0 56 4.0 24 27.0 2.0 7 4.5 Baked contact VDMc2316 154 25 Sevan Lake 40.0 45.3 7.0 2.0 Stratigraphic Europe Armenia T- O 11 -64.0 155.0 56 6.0 11 29.0 2.0 7 4.7 Volcanic Baked contact VDMc2317 154 26-27 Bryaunslaikur 65.5 -23.0 10.5 1.5 Stratigraphic Atlantic Ocean Iceland T- O 22 -67.0 173.0 48 5.0 41 26.0 1.0 4 4.1 Baked contact VDMc2318 154 28-29 Bryaunslaikur 65.5 -23.0 10.5 1.5 Stratigraphic Atlantic Ocean Iceland T- O 23 -69.0 185.0 40 5.0 42 26.0 1.0 4 4.0 Baked contact VDMc2319 154 30 Bryaunslaikur 65.5 -23.0 10.5 1.5 Stratigraphic Atlantic Ocean Iceland T- O 24 67.0 351.0 59 4.0 27 24.0 1.0 4 3.8 Volcanic Tuff Baked contact VDMc2320 154 31-32 Bryaunslaikur 65.5 -23.0 10.5 1.5 Stratigraphic Atlantic Ocean Iceland T- O 23 63.0 359.0 38 5.0 18 25.0 2.0 8 4.1 Baked contact VDMc2321 154 33 Bryaunslaikur 65.5 -23.0 10.5 1.5 Stratigraphic Atlantic Ocean Iceland T- O 10 66.0 8.0 34 8.0 9 22.0 2.0 9 3.5 Volcanic Basalt VDMc2322 154 34 Bryaunslaikur 65.5 -23.0 10.5 1.5 Stratigraphic Atlantic Ocean Iceland T- O 11 70.0 359.0 47 7.0 8 17.0 2.0 12 2.5 Volcanic Basalt VDMc2323 154 35 Bryaunslaikur 65.5 -23.0 10.5 1.5 Stratigraphic Atlantic Ocean Iceland T- O 7 68.0 346.0 28 12.0 12 27.0 1.0 4 4.2 Sediment Baked contact VDMc2324 154 36 Sevan Lake 40.0 45.7 21.5 4.9 Stratigraphic Europe Armenia T- O 10 50.0 350.0 34 8.0 9 23.0 2.0 9 4.4 Volcanic Dacite VDMc2325 154 37 Sevan Lake 40.0 45.7 21.5 4.9 Stratigraphic Europe Armenia T- O 14 -48.0 172.0 29 8.0 20 25.0 1.0 4 4.9 Volcanic Dacite VDMc2326 154 38 Sevan Lake 40.0 45.7 21.5 4.9 Stratigraphic Europe Armenia T- O 14 -49.0 170.0 37 7.0 7 27.0 2.0 7 5.3 Volcanic Ignimbrite VDMc2327 154 39 Vostretsovo 45.9 135.0 9.8 Stratigraphic Asia Russia T- O 34 63.0 5.0 208 2.0 11 29.0 1.0 3 4.8 Volcanic Basalt VDMc2328 154 40 Sviyaginskii 44.6 132.7 9.4 Stratigraphic Asia Russia T- O 26 63.0 25.0 100 3.0 10 27.0 2.0 7 4.4 Volcanic VDMc2329 154 41 Podgel'banochnyi 43.6 133.1 8.3 Stratigraphic Asia Russia T- O 97 59.0 357.0 69 2.0 14 27.0 2.0 7 4.7 Volcanic VDMc2330 155 1. ET 20 -17.8 28.7 0.7 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv N 6 53.9 26.1 314 3.8 4 61.5 5.5 9 11.4 Volcanic Basalt Lava Flow2331 155 10. ET 10 -17.8 28.7 0.7 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv N 8 28.1 335.1 1902 1.3 4 53.9 10.2 19 12.7 Volcanic Basalt Lava Flow2332 155 12. ET 7 -17.8 28.7 0.7 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv N 6 33.6 16.9 276 4.0 5 33.5 5.1 15 7.6 Volcanic Basalt Lava Flow2333 155 12. ET 8 -17.8 28.7 0.7 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv N 5 31.9 14.1 366 4.0 3 34.1 3.3 10 7.8 Volcanic Basalt Lava Flow2334 155 13. ET 6 -17.8 28.7 0.8 0.0 K/Ar (Cassignol & Gillot, 1982) Atlantic Ocean Canary Islands T+ N 8 27.3 18.7 303 3.2 3 28.3 6.0 21 7.7 Volcanic Basalt Lava Flow VDMc=6,7

2335 155 14. ME49 -17.8 28.7 0.8 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ N 2 29.3 14.7 2 32.9 3.6 11 7.7 Volcanic Basalt Lava Flow2336 155 15. ME48 -17.8 28.7 0.8 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ N 6 30.9 17.8 721 2.5 3 44.8 2.4 5 10.4 Volcanic Basalt Lava Flow2337 155 16. ME47 -17.8 28.7 0.8 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ N 9 31.6 15.2 367 2.7 3 36.1 3.4 9 8.3 Volcanic Basalt Lava Flow2338 155 17. ET 5 -17.8 28.7 0.8 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ N 11 -4.1 348.7 195 4.0 4 7.2 2.3 32 1.9 Volcanic Basalt Lava Flow2339 155 18. ME45 -17.8 28.7 0.8 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 7 -3.0 170.5 918 2.0 1 7.6 1.8 24 2.0 Volcanic Basalt Lava Flow2340 155 19. ME42 -17.8 28.7 0.8 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 4 -5.5 173.0 332 5.1 3 16.5 2.1 13 4.2 Volcanic Basalt Lava Flow2341 155 19. ME44 -17.8 28.7 0.8 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 9 -2.6 174.9 258 3.2 4 15.3 3.6 24 4.0 Volcanic Basalt Lava Flow2342 155 2. ET 19 -17.8 28.7 0.7 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ N 6 62.0 29.4 713 2.5 4 59.0 3.5 6 9.8 Volcanic Basalt Lava Flow2343 155 21. ME40 -17.8 28.7 0.8 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 7 -13.0 173.4 190 4.4 5 11.6 2.5 22 2.9 Volcanic Basalt Lava Flow2344 155 21. ME41b -17.8 28.7 0.8 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 9 -7.6 171.3 264 3.2 3 11.3 2.8 25 2.9 Volcanic Basalt Lava Flow2345 155 22. ME39 -17.8 28.7 0.8 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 6 -8.8 175.5 412 3.3 3 27.5 1.9 7 7.0 Volcanic Basalt Lava Flow2346 155 23. ME38 -17.8 28.7 0.8 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 6 -8.2 177.6 181 5.0 3 22.9 1.6 7 5.9 Volcanic Basalt Lava Flow2347 155 25. ET 4 -17.8 28.7 0.8 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv R 7 -21.6 181.9 244 3.9 4 13.4 1.3 10 3.3 Volcanic Basalt Lava Flow2348 155 3, ET 17 -17.8 28.7 0.7 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ N 5 55.5 28.9 997 2.4 3 39.4 3.9 10 7.1 Volcanic Basalt Lava Flow2349 155 3. ET 18 -17.8 28.7 0.7 0.0 K/Ar (Cassignol & Gillot, 1982) Atlantic Ocean Canary Islands T+ N 6 54.2 24.2 625 3.1 2 38.6 3.3 9 7.1 Volcanic Basalt Lava Flow2350 155 30. ME32 -17.8 28.7 0.8 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 5 -39.8 181.1 442 3.6 4 31.7 1.1 3 6.8 Volcanic Basalt Lava Flow2351 155 31. ME31 -17.8 28.7 0.8 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 4 -38.2 182.8 2739 1.8 3 52.3 5.4 10 11.4 Volcanic Basalt Lava Flow



2352 155 32. ET 3 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 6 -28.3 183.6 354 3.6 3 37.6 13.6 36 8.9 Volcanic Basalt Lava Flow2353 155 33. ME30 -17.8 28.7 0.8 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 5 -32.7 181.0 194 5.5 4 34.7 11.0 32 7.9 Volcanic Basalt Lava Flow2354 155 34. ME29 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 6 -33.1 179.5 253 4.2 2 20.6 0.8 4 4.7 Volcanic Basalt Lava Flow2355 155 36. ME27 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 4 -38.8 187.4 573 3.8 3 35.7 6.0 17 7.8 Volcanic Basalt Lava Flow2356 155 37. ME26 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv R 5 -37.8 190.1 1321 2.1 4 25.9 2.9 11 5.7 Volcanic Basalt Lava Flow2357 155 39. ME24 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv R 6 -46.8 182.2 187 4.9 3 17.1 1.7 10 3.4 Volcanic Basalt Lava Flow2358 155 4. ET 16 -17.8 28.7 0.7 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ N 6 34.6 11.9 452 3.2 5 61.4 11.6 19 13.8 Volcanic Basalt Lava Flow2359 155 40. ME23 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv R 4 -36.5 185.5 268 5.6 3 20.7 4.7 23 4.6 Volcanic Basalt Lava Flow2360 155 41. ME22 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 4 -42.6 192.5 501 4.1 3 48.2 2.8 6 10.1 Volcanic Basalt Lava Flow2361 155 42. ME20 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 4 -37.3 183.7 1580 2.3 3 44.7 3.9 9 9.8 Volcanic Basalt Lava Flow2362 155 42. ME21 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 4 -36.7 188.0 219 6.2 3 47.8 2.8 6 10.6 Volcanic Basalt Lava Flow2363 155 43. ME19 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 7 -35.6 181.8 246 3.9 5 42.2 9.2 22 9.4 Volcanic Basalt Lava Flow2364 155 47. ME15 -17.8 28.7 0.9 0.0 K/Ar (Cassignol & Gillot, 1982) Atlantic Ocean Canary Islands T+ R 7 -36.9 197.6 266 3.7 4 13.1 2.5 19 2.9 Volcanic Basalt Lava Flow2365 155 5. ET 15 -17.8 28.7 0.7 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ N 5 35.5 7.1 485 3.5 3 49.4 1.0 2 11.0 Volcanic Basalt Lava Flow2366 155 50. ME12 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv R 4 -33.9 166.0 107 8.9 3 27.0 6.8 25 6.1 Volcanic Basalt Lava Flow2367 155 51. ME11 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 5 -37.1 171.6 135 6.6 3 41.3 3.4 8 9.1 Volcanic Basalt Lava Flow2368 155 52. ME10 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 5 -23.2 197.0 358 4.0 3 36.9 0.9 2 9.0 Volcanic Basalt Lava Flow2369 155 53. ME9 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 5 -28.5 204.2 1099 2.3 4 59.1 2.9 5 13.9 Volcanic Basalt Lava Flow2370 155 54. ME8 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv R 7 -24.0 202.9 272 3.7 6 51.0 9.9 19 12.3 Volcanic Basalt Lava Flow2371 155 55. ME7 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 5 -23.7 199.9 290 4.5 4 49.9 4.7 9 12.1 Volcanic Basalt Lava Flow2372 155 56. ME6 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 4 -26.1 199.1 272 5.6 3 37.9 6.7 18 9.1 Volcanic Basalt Lava Flow2373 155 57. ME5 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 5 -33.8 181.2 235 5.0 2 47.4 0.5 1 10.7 Volcanic Basalt Lava Flow2374 155 58. ME4 -17.8 28.7 0.9 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 4 -35.4 189.6 108 8.9 3 25.6 3.3 13 5.7 Volcanic Basalt Lava Flow2375 155 59. ME3 -17.8 28.7 1.0 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 6 -15.6 184.5 76 7.7 2 12.6 0.9 7 3.2 Volcanic Basalt Lava Flow2376 155 6. ET 14 -17.8 28.7 0.7 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands Tv N 6 34.4 15.2 287 4.0 5 53.0 3.9 7 12.0 Volcanic Basalt Lava Flow2377 155 60. ME2 -17.8 28.7 1.0 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ R 4 -44.7 189.1 99 9.3 3 29.5 1.2 4 6.0 Volcanic Basalt Lava Flow2378 155 7. ET 13 -17.8 28.7 0.7 0.0 Geomagnetic polarity timescale Atlantic Ocean Canary Islands T+ N 5 29.1 14.9 380 3.9 4 58.2 5.3 9 13.7 Volcanic Basalt Lava Flow2379 155 Sill. ME1 -17.8 28.7 0.9 0.0 K/Ar (Cassignol & Gillot, 1982) Atlantic Ocean Canary Islands T+ R 2 -39.7 192.6 2 24.2 2.3 10 5.1 Volcanic Basalt Lava Flow2380 156 Yellowknife NW 62.5 -114.3 2631.0 11.0 Combined North America Canada T+ O 18 60.8 158.4 49 8.0 9 30.9 1.1 4 6.3 Volcanic Diabase Dyke VDMc = 5,2

2381 156 Yellowknife PH 62.5 -114.3 2631.0 11.0 Combined North America Canada T+ O 11 54.7 165.9 136 10.6 6 43.9 1.2 3 9.0 Volcanic Diabase Dyke VDMc = 82382 157 Tree Cruces volcano 19.1 -99.5 0.0 0.0 Combined North America Mexico T+ N 9 50.3 338.5 196 3.7 7 42.7 10.0 23 8.2 Volcanic Basalt Lava Flow VDMc2383 160 Datong volcano SHB 40.2 113.4 0.2 Thermoluminescence Asia China T- N 9 51.0 344.0 46 6.9 9 52.5 10.1 Volcanic Baked contact Fc2384 160 Datong volcano SHL 40.4 113.4 0.2 Thermoluminescence Asia China T- N 13 52.3 336.7 46 5.7 13 49.7 9.4 Volcanic Baked contact Fc2385 160 Datong volcano SHT 40.2 113.4 0.2 Thermoluminescence Asia China T- N 9 57.5 30.4 124 57.5 9 35.2 6.2 Volcanic Baked contact Fc2386 160 Datong volcano SHU 40.4 113.4 0.2 Thermoluminescence Asia China T- N 15 55.3 25.5 126 3.2 15 33.7 6.1 Volcanic Baked contact Fc2387 160 Datong volcano SJ 40.2 113.4 0.1 Thermoluminescence Asia China T- N 15 56.6 26.5 43 5.5 15 37.1 6.6 Volcanic Baked contact Fc2388 160 Datong volcano SJB 40.2 113.4 0.1 Thermoluminescence Asia China T- N 6 56.3 29.4 132 5.0 6 33.5 6.0 Volcanic Baked contact Fc2389 160 Datong volcano TS 40.2 113.4 0.2 K/Ar Asia China T- N 12 57.2 32.0 54 5.5 12 54.6 9.7 Volcanic Lava Flow Fc2390 160 Datong volcano TSB 40.2 113.4 0.2 K/Ar Asia China T- N 10 59.2 12.1 52 6.1 10 58.5 10.1 Volcanic Lava Flow Fc2391 161 Gamarri GA02 11.6 41.7 2.1 0.1 K/Ar (Cassignol & Gillot, 1982) Africa Ethiopia Tv R 3 -2.5 189.5 2 23.9 4.7 20 6.2 Volcanic Basalt Lava Flow VDMc2392 161 Gamarri GA03 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia T+ R 4 -5.1 190.5 2 33.5 2.7 8 8.6 Volcanic Basalt Lava Flow VDMc2393 161 Gamarri GA05 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia Tv R 5 -13.5 197.2 3 8.2 1.9 23 2.1 Volcanic Basalt Lava Flow VDMc2394 161 Gamarri GA07 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia Tv R 3 44.8 174.9 2 14.8 0.8 5 3.0 Volcanic Basalt Lava Flow VDMc2395 161 Gamarri GA09 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia Tv R 3 1.9 189.5 2 10.8 1.3 12 2.8 Volcanic Basalt Lava Flow VDMc2396 161 Gamarri GA10 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia Tv R 3 5.1 194.1 2 12.8 0.4 3 3.3 Volcanic Basalt Lava Flow VDMc2397 161 Gamarri GA12 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia T+ R 4 2.6 184.0 3 45.1 10.2 23 11.6 Volcanic Basalt Lava Flow VDMc2398 161 Gamarri GA13 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia T+ R 3 -12.9 185.9 2 33.8 6.2 18 8.6 Volcanic Basalt Lava Flow VDMc2399 161 Gamarri GA14 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia T+ R 3 -13.6 186.4 2 45.8 0.5 1 11.6 Volcanic Basalt Lava Flow VDMc2400 161 Gamarri GA16 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia T+ R 4 -12.7 187.3 1 45.2 4.5 10 11.5 Volcanic Basalt Lava Flow VDMc



2401 161 Gamarri GA19 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia Tv R 4 -16.3 185.8 2 18.9 5.0 26 4.7 Volcanic Basalt Lava Flow VDMc2402 161 Gamarri GB11 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia Tv N 3 4.8 358.0 3 19.6 2.9 15 5.1 Volcanic Basalt Lava Flow VDMc2403 161 Gamarri GB12 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia Tv N 3 9.1 17.3 2 7.2 5.5 76 1.8 Volcanic Basalt Lava Flow VDMc2404 161 Gamarri GB13 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia Tv N 3 16.8 357.6 3 10.6 15.0 142 2.7 Volcanic Basalt Lava Flow VDMc2405 161 Gamarri GB15 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia Tv N 5 6.1 8.4 3 26.0 4.2 16 6.7 Volcanic Basalt Lava Flow VDMc2406 161 Gamarri GB16 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia Tv N 4 13.9 14.1 3 21.6 0.8 4 5.5 Volcanic Basalt Lava Flow VDMc2407 161 Gamarri GB17 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia T+ N 3 33.6 12.6 3 13.7 0.5 4 3.1 Volcanic Basalt Lava Flow VDMc2408 161 Gamarri GB18 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia Tv N 5 -24.2 13.7 4 20.3 3.3 16 4.9 Volcanic Basalt Lava Flow VDMc2409 161 Gamarri GB20 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia Tv R 5 -24.7 168.9 3 16.8 1.8 11 4.1 Volcanic Basalt Lava Flow VDMc2410 161 Gamarri GB22 11.6 41.7 2.1 0.1 K/Ar Africa Ethiopia Tv R 5 -10.1 195.4 3 13.6 1.9 14 3.5 Volcanic Basalt Lava Flow VDMc2411 162 HN09 21.6 -158.3 3.1 Interpolated ages Pacific Ocean Hawaii T+ N 5 44.0 2.0 5.0 1 32.3 7.0 Volcanic Basalt Lava Flow VADM ; VDMc = 6,7

2412 162 HN11 21.6 -158.3 3.1 Interpolated ages Pacific Ocean Hawaii T+ N 5 20.0 2.0 4.0 3 52.4 4.7 9 11.5 Volcanic Basalt Lava Flow VADM ; VDMc = 12,9

2413 162 HN12 21.6 -158.3 3.1 Interpolated ages Pacific Ocean Hawaii T+ N 7 15.0 2.0 6.0 1 46.0 10.1 Volcanic Basalt Lava Flow VADM ; VDMc = 11,6


2415 162 HN15 21.6 -158.3 3.1 Interpolated ages Pacific Ocean Hawaii T+ N 3 12.0 333.0 19.0 3 48.2 7.2 15 10.5 Volcanic Basalt Lava Flow VADM ; VDMc = 12,3





2420 162 KE06 21.6 -158.2 3.0 Interpolated ages Pacific Ocean Hawaii T+ N 14 37.0 334.0 4.0 1 43.0 9.4 Volcanic Basalt Lava Flow VADM ; VDMc = 9,5

2421 162 KE09 21.6 -158.2 3.0 Interpolated ages Pacific Ocean Hawaii T+ N 8 22.0 1.0 6.0 4 28.0 6.2 22 6.1 Volcanic Basalt Lava Flow VADM ; VDMc = 6,8

2422 162 KE10 21.6 -158.2 3.0 Interpolated ages Pacific Ocean Hawaii T+ N 12 23.0 348.0 9.0 1 41.5 9.1 Volcanic Basalt Lava Flow VADM ; VDMc = 10,1

2423 162 KO05 21.4 -157.9 2.1 Interpolated ages Pacific Ocean Hawaii T+ R 3 -23.0 5.0 1 49.3 10.8 Volcanic Basalt Lava Flow VADM ; VDMc = 12

2424 162 KO08 21.4 -157.9 2.1 Interpolated ages Pacific Ocean Hawaii T+ R 3 -34.0 2.0 3 31.0 3.2 10 6.8 Volcanic Basalt Lava Flow VADM ; VDMc = 7,0


2426 162 KO11 21.4 -157.9 2.1 Interpolated ages Pacific Ocean Hawaii T+ R 3 -40.0 2.0 2 30.2 6.6 Volcanic Basalt Lava Flow VADM ; VDMc = 6,5











2437 162 KP01 21.6 -158.3 3.2 Interpolated ages Pacific Ocean Hawaii T+ N 5 4.0 344.0 4.0 3 16.8 1.1 7 3.7 Volcanic Basalt Lava Flow VADM ; VDMc = 4,3

2438 162 KP02 21.6 -158.3 3.2 Interpolated ages Pacific Ocean Hawaii T+ N 5 37.0 4.0 1.0 1 22.3 4.9 Volcanic Basalt Lava Flow VADM ; VDMc = 4,9

2439 162 OKP01 21.5 -158.2 3.9 Interpolated ages Pacific Ocean Hawaii T+ R 6 -39.0 179.0 3.0 5 28.8 7.6 26 6.3 Volcanic Basalt Lava Flow VADM ; VDMc = 6,2




2443 162 PM09 21.4 -158.2 3.3 Interpolated ages Pacific Ocean Hawaii T+ R 4 -39.0 159.0 8.0 2 27.6 6.0 Volcanic Basalt Lava Flow VADM ; VDMc = 6

2444 162 PM10 21.4 -158.2 3.3 Interpolated ages Pacific Ocean Hawaii T+ R 5 -39.0 163.0 4.0 2 38.4 8.4 Volcanic Basalt Lava Flow VADM ; VDMc = 8,3

2445 162 PM11 21.4 -158.2 3.3 Interpolated ages Pacific Ocean Hawaii T+ R 5 -41.0 162.0 10.0 2 20.5 4.5 Volcanic Basalt Lava Flow VADM ; VDMc = 4,4

2446 162 PPA05 21.4 -158.2 3.3 Interpolated ages Pacific Ocean Hawaii T+ R 6 -33.0 171.0 3.0 4 16.5 6.1 37 3.6 Volcanic Basalt Lava Flow VADM ; VDMc = 3,8

2447 162 PPA06 21.4 -158.2 3.3 Interpolated ages Pacific Ocean Hawaii T+ R 6 -39.0 164.0 5.0 3 28.1 4.5 16 6.1 Volcanic Basalt Lava Flow VADM ; VDMc = 6,1

2448 162 WT06 21.5 -158.2 3.3 0.1 Geomagnetic polarity timescale Pacific Ocean Hawaii T+ N 2 21.0 15.0 2 10.3 2.3 Volcanic Basalt Lava Flow VADM ; VDMc = 2,5






2452 163 Mt Etna 1169 AD 37.6 14.3 0.0 Historic Europe Sicily S N 55.6 17.4 3.4 60.4 3.1 5 10.9 Volcanic Basalt Lava Flow Modified Shaw method ; VDMc








2460 163 Mt Etna 1614 AD 37.6 14.3 0.0 Historic Europe Sicily S N 40.8 4.1 10 Volcanic Basalt Lava Flow Modified Shaw method






















2482 164 Rajmahal Trap 24.8 87.5 127.5 2.5 Ar/Ar Asia India T+ N 93 -64.7 300.5 6.7 10 31.4 5.8 18 5.1 Volcanic Basalt Lava Flow2483 165 GU04 16.0 61.7 0.1 0.0 K/Ar (Cassignol & Gillot, 1982) Atlantic Ocean Lesser Antilles Tv N 8 17.7 6.1 2.4 4 25.4 3.4 13 6.0 Volcanic Basalt Lava Flow weighted F and VADM

2484 165 GU10 16.0 61.7 0.8 0.0 K/Ar (Cassignol & Gillot, 1982) Atlantic Ocean Lesser Antilles T+ R 6 -57.0 162.0 9.1 4 5.5 1.0 18 1.3 Volcanic Basalt Lava Flow weighted F and VADM

2485 165 GU11 16.0 61.7 0.8 0.0 K/Ar (Cassignol & Gillot, 1982) Atlantic Ocean Lesser Antilles Tv N 9 31.4 340.7 3.8 2 11.0 2.7 25 2.6 Volcanic Basalt Lava Flow weighted F and VADM

2486 165 GU13 16.0 61.7 0.8 0.0 K/Ar (Cassignol & Gillot, 1982) Atlantic Ocean Lesser Antilles T+ N 9 29.6 3.6 3.0 2 28.8 3.5 12 6.8 Volcanic Basalt Lava Flow weighted F and VADM

2487 165 GU17 16.0 61.7 0.0 0.0 Carbon 14 Atlantic Ocean Lesser Antilles T+ N 8 23.6 7.5 1.6 2 41.1 0.7 2 9.7 Volcanic Basalt Lava Flow weighted F and VADM



2490 165 GU24 16.0 61.7 0.0 0.0 Carbon 14 Atlantic Ocean Lesser Antilles Tv N 10 33.5 8.0 2.6 6 29.5 4.8 16 7.0 Volcanic Basalt Lava Flow weighted F and VADM

2491 165 GU26-29 16.0 61.7 0.1 0.0 K/Ar (Cassignol & Gillot, 1982) Atlantic Ocean Lesser Antilles Tv N 5 33.2 2.6 56 10.4 5 39.1 4.3 11 9.3 Volcanic Basalt Lava Flow weighted F and VADM

2492 165 GU28 16.0 61.7 0.4 0.0 K/Ar (Cassignol & Gillot, 1982) Atlantic Ocean Lesser Antilles Tv N 7 43.9 356.6 3.7 5 32.6 5.2 16 7.7 Volcanic Basalt Lava Flowweighted F and VADM ; VDMc = 6.7

2493 166 Rajmahal RS03 24.2 87.6 114.0 1.0 Ar/Ar Asia India T+ N 10 -58.5 335.3 474 3.5 15 65.1 5.3 8 10.6 Volcanic Plagioclase crystal Lava FlowSee also Cottrell & Tarduno, 1999 - direction in ref 209 (Table 1)

2494 167 Thoki 02W 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ T 7 50.2 247.0 2.6 2 7.2 0.2 3 1.4 Volcanic Basalt Lava Flow VDMc2495 167 Thoki 10W 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 9 -28.1 151.3 3.3 2 44.6 5.4 12 10.5 Volcanic Basalt Lava Flow VDMc2496 167 Thoki 11Y 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 4 -62.8 173.9 11.1 3 19.2 5.2 27 3.2 Volcanic Basalt Lava Flow VDMc2497 167 Thoki 12W 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 10 -32.8 151.5 2.2 3 27.8 4.8 17 6.3 Volcanic Basalt Lava Flow VDMc2498 167 Thoki 12Y 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 7 -61.6 179.5 2.6 3 25.0 0.5 2 4.2 Volcanic Basalt Lava Flow VDMc



2499 167 Thoki 13W 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 6 -35.5 149.2 3.0 3 18.6 1.2 6 4.2 Volcanic Basalt Lava Flow VDMc2500 167 Thoki 13Y 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 10 -62.8 177.3 2.8 2 23.9 1.6 7 3.9 Volcanic Basalt Lava Flow VDMc2501 167 Thoki 14Y 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 7 -59.3 179.8 1.8 2 15.9 4.8 30 2.7 Volcanic Basalt Lava Flow VDMc2502 167 Thoki 15Y 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 7 -60.3 180.6 2.1 4 19.5 2.4 12 3.3 Volcanic Basalt Lava Flow VDMc2503 167 Thoki 16Y 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 5 -60.0 182.5 2.4 4 25.5 2.6 10 4.4 Volcanic Basalt Lava Flow VDMc2504 167 Thoki 17Y 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 4 -61.0 180.7 3.5 1 91.3 2.0 2 15.4 Volcanic Basalt Lava Flow VDMc2505 167 Thoki 18W 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 10 -56.3 182.8 3.5 2 17.2 0.6 3 3.1 Volcanic Basalt Lava Flow VDMc2506 167 Thoki 19W 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 10 -59.9 180.3 3.4 1 40.2 2.2 5 6.9 Volcanic Basalt Lava Flow VDMc2507 167 Thoki 3Y 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 4 -29.3 153.4 2.4 3 18.6 3.3 18 4.4 Volcanic Basalt Lava Flow VDMc2508 167 Thoki 4Y 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 5 -30.9 157.2 3.4 3 19.7 6.2 31 4.6 Volcanic Basalt Lava Flow VDMc2509 167 Thoki 5Y 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 5 -30.7 157.3 2.7 4 17.2 6.1 35 4.0 Volcanic Basalt Lava Flow VDMc2510 167 Thoki 6Y 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 4 -30.3 154.2 1.6 1 24.3 0.6 2 5.7 Volcanic Basalt Lava Flow VDMc2511 167 Thoki 8Y 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 5 -61.5 179.8 1.7 2 29.3 1.7 6 4.9 Volcanic Basalt Lava Flow VDMc2512 167 Thoki 9Y 41.5 43.4 3.6 0.1 Ar/Ar Europe Georgia T+ R 5 -59.1 184.4 3.8 4 25.2 4.5 18 4.4 Volcanic Basalt Lava Flow VDMc2513 168 BAP 28.0 -105.0 28.4 1.1 K/Ar North America Mexico T+ N 9 61.3 357.0 247 3.3 4 21.6 4.2 19 3.6 Volcanic Basalt Lava Flow2514 168 BLC 28.0 -105.0 29.8 6.9 K/Ar North America Mexico T+ N 9 49.4 314.2 188 3.8 5 20.3 2.6 13 4.0 Volcanic Basalt Lava Flow2515 168 CB 28.0 -105.0 27.1 1.1 K/Ar North America Mexico T+ R 10 -28.4 218.9 50 7.7 2 19.8 1.5 8 4.7 Volcanic Basalt Lava Flow2516 169 JB 19.2 -99.2 0.0 0.0 Carbon 14 North America Mexico T+ N 8 17.0 10.4 198 3.9 8 25.9 8.8 34 6.5 Volcanic Basalt Lava Flow VDMc2517 169 JD 19.0 -99.3 0.0 Combined North America Mexico T+ N 8 10.8 13.8 353 3.0 6 55.8 9.7 17 14.2 Volcanic Basalt Lava Flow VDMc2518 169 JE 19.0 -99.3 0.0 Combined North America Mexico T+ N 8 23.1 4.0 277 3.3 4 59.4 15.9 27 14.4 Volcanic Basalt Lava Flow VDMc2519 169 JH 19.2 -99.3 0.0 0.0 K/Ar North America Mexico T+ N 8 21.5 342.7 371 2.9 7 41.1 6.0 15 10.1 Volcanic Basalt Lava Flow VDMc2520 169 JJ 19.1 -99.2 0.0 Combined North America Mexico T+ N 13 33.0 352.8 498 1.9 8 61.4 14.9 24 14.0 Volcanic Basalt Lava Flow VDMc2521 169 JM 19.2 -99.2 0.0 0.0 Carbon 14 North America Mexico T+ N 13 36.0 352.0 269 2.5 9 54.8 6.6 12 12.2 Volcanic Basalt Lava Flow VDMc2522 170 SRG3 18.4 -95.3 2.2 0.3 K/Ar North America Mexico T+ R 7 -29.4 172.1 91 4.8 4 34.7 7.3 21 8.1 Volcanic Basalt Lava Flow2523 170 SRG8 18.4 -94.9 1.0 0.1 K/Ar North America Mexico T+ R 9 -42.6 172.2 166 4.3 3 30.6 4.3 14 6.4 Volcanic Basalt Lava Flow2524 170 TP 18.4 -95.1 0.8 0.1 K/Ar North America Mexico T+ N 7 37.1 358.9 79 6.3 7 38.1 7.2 19 8.4 Volcanic Basalt Lava Flow2525 170 TS 18.5 -95.2 0.8 0.1 K/Ar North America Mexico T+ N 10 18.2 1.6 86 5.2 7 36.5 5.2 14 9.1 Volcanic Basalt Lava Flow2526 171 Mt Circe -76.5 161.7 170.0 35.0 Geologic timescale Antarctica Antarctica T- O 6 -77.1 266.9 1258 1.9 8 52.3 7.6 15 7.3 Sediment Siltstone Baked contact VDMc2527 171 Mt Knobhead A -76.1 162.2 170.0 35.0 Geologic timescale Antarctica Antarctica T- O 37 -81.7 280.7 354 1.3 4 46.9 8.5 18 6.3 Sediment Siltstone Baked contact VDMc2528 172 01 40.3 44.2 1.7 0.1 Interpolated ages Europe Armenia T- R 27 -51.0 186.0 33 5.0 21 51.0 1.0 2 9.8 Volcanic Andesite Pyroclastic VDMc2529 172 02 40.3 44.2 1.6 0.1 Interpolated ages Europe Armenia T- R 10 -50.0 213.0 120 4.0 9 52.0 1.0 2 10.1 Volcanic Ignimbrite Lava Flow VDMc2530 172 03 40.8 44.2 1.5 0.1 Interpolated ages Europe Armenia T- R 9 -51.0 204.0 190 4.0 10 49.0 1.0 2 9.4 Volcanic Ignimbrite Lava Flow VDMc2531 172 04 40.3 44.2 1.4 0.1 Interpolated ages Europe Armenia T- R 37 -52.0 189.0 42 4.0 32 50.0 1.0 2 9.5 Volcanic Andesite Lava Flow VDMc2532 172 05 39.8 45.4 1.4 0.1 Interpolated ages Europe Armenia T- R 13 -55.0 177.0 32 8.0 13 49.0 2.0 4 8.9 Volcanic Basalt Lava Flow VDMc2533 172 06 40.3 44.4 1.3 0.1 Interpolated ages Europe Armenia T- R 25 -51.0 185.0 71 3.0 29 47.0 1.0 2 9.0 Volcanic Andesite Pyroclastic VDMc2534 172 07 40.3 44.2 1.1 0.1 Interpolated ages Europe Armenia T- R 12 -68.0 192.0 25 9.0 12 51.0 2.0 4 7.9 Volcanic Andesite Lava Flow VDMc2535 172 08 41.0 44.5 1.1 0.1 Interpolated ages Europe Armenia T- R 16 -59.0 170.0 21 8.0 12 47.0 2.0 4 8.1 Volcanic Dolerite Lava Flow VDMc2536 172 09 40.2 45.7 1.0 0.1 Interpolated ages Europe Armenia T- R 37 -62.0 175.0 74 3.0 29 50.0 1.0 2 8.3 Volcanic Andesite Lava Flow VDMc2537 172 10 40.2 45.7 1.0 0.1 Interpolated ages Europe Armenia T- R 34 -61.0 176.0 76 3.0 31 50.0 1.0 2 8.4 Baked contact VDMc2538 172 11 39.9 45.7 0.9 0.1 Interpolated ages Europe Armenia T- R 13 -61.0 171.0 27 8.0 10 51.0 3.0 6 8.6 Volcanic Andesite Lava Flow VDMc2539 172 12 40.2 44.6 0.8 0.1 Interpolated ages Europe Armenia T- N 30 56.0 352.0 46 4.0 25 48.0 1.0 2 8.6 Volcanic Basalt Lava Flow VDMc2540 172 13 40.2 44.6 0.8 0.1 Interpolated ages Europe Armenia T- N 36 61.0 350.0 55 3.0 44 49.0 1.0 2 8.3 Volcanic Basalt Lava Flow VDMc2541 172 14 40.2 45.7 0.7 0.1 Interpolated ages Europe Armenia T- N 13 63.0 359.0 37 7.0 12 50.0 2.0 4 8.2 Volcanic Basalt Pyroclastic VDMc2542 172 15 39.5 46.0 0.7 0.1 Interpolated ages Europe Armenia T- N 10 62.0 357.0 42 8.0 11 48.0 2.0 4 8.0 Volcanic Basalt Lava Flow VDMc2543 172 16 39.8 45.4 0.6 0.1 Interpolated ages Europe Armenia T- N 15 63.0 9.0 53 5.0 12 49.0 2.0 4 8.1 Volcanic Andesite Lava Flow VDMc2544 172 17 40.2 45.7 0.6 0.1 Interpolated ages Europe Armenia T- N 24 60.0 355.0 63 4.0 24 50.0 2.0 4 8.6 Volcanic Basalt Pyroclastic VDMc2545 172 18 39.9 45.7 0.6 0.1 Interpolated ages Europe Armenia T- N 12 61.0 352.0 51 6.0 12 49.0 2.0 4 8.3 Volcanic Andesite Lava Flow VDMc2546 172 19 39.9 45.7 0.6 0.1 Interpolated ages Europe Armenia T- N 15 61.0 357.0 58 5.0 16 49.0 2.0 4 8.3 Volcanic Andesite Lava Flow VDMc2547 172 20 40.6 44.0 0.6 0.1 Interpolated ages Europe Armenia T- N 13 48.0 337.0 68 5.0 13 45.0 1.0 2 8.9 Volcanic Basalt Pyroclastic VDMc



2548 172 21 40.8 43.8 0.6 0.1 Interpolated ages Europe Armenia T- N 17 59.0 359.0 65 4.0 15 48.0 1.0 2 8.3 Volcanic Dolerite Pyroclastic VDMc2549 172 22 40.0 44.0 0.6 0.1 Interpolated ages Europe Armenia T- N 26 59.0 348.0 80 3.0 25 46.0 1.0 2 8.0 Volcanic Ignimbrite Lava Flow VDMc2550 172 23 40.0 44.0 0.6 0.1 Interpolated ages Europe Armenia T- N 103 58.0 346.0 50 2.0 124 36.0 1.0 3 6.3 Volcanic Ignimbrite Lava Flow VDMc2551 172 24 40.0 44.0 0.5 0.1 Interpolated ages Europe Armenia T- N 21 57.0 348.0 212 2.0 25 46.0 2.0 4 8.2 Volcanic Ignimbrite Lava Flow VDMc2552 172 25 40.0 44.0 0.5 0.1 Interpolated ages Europe Armenia T- N 96 59.0 348.0 50 2.0 79 42.0 1.0 2 7.3 Volcanic Ignimbrite Lava Flow VDMc2553 172 26 40.0 44.0 0.5 0.1 Interpolated ages Europe Armenia T- N 49 58.0 347.0 95 2.0 54 41.0 1.0 2 7.2 Volcanic Ignimbrite Lava Flow VDMc2554 172 27 40.3 44.2 0.4 0.1 Interpolated ages Europe Armenia T- N 10 67.0 7.0 42 8.0 10 48.0 2.0 4 7.5 Volcanic Andesite Lava Flow VDMc2555 172 28 40.3 44.4 0.4 0.1 Interpolated ages Europe Armenia T- N 25 58.0 358.0 95 3.0 25 47.0 1.0 2 8.2 Volcanic Tuff Pyroclastic VDMc2556 172 29 40.3 44.4 0.4 0.1 Interpolated ages Europe Armenia T- N 26 58.0 357.0 90 3.0 28 47.0 1.0 2 8.2 Sediment Clay Baked contact VDMc2557 172 30 40.3 44.4 0.4 0.1 Interpolated ages Europe Armenia T- N 21 51.0 359.0 65 4.0 29 47.0 2.0 4 9.0 Volcanic Andesite Pyroclastic VDMc2558 172 31 40.3 44.4 0.4 0.1 Interpolated ages Europe Armenia T- N 25 50.0 359.0 92 3.0 25 46.0 1.0 2 8.9 Volcanic Tuff Baked contact VDMc2559 172 32 40.3 44.4 0.4 0.1 Interpolated ages Europe Armenia T- N 26 48.0 355.0 90 3.0 26 46.0 1.0 2 9.1 Sediment Clay Baked contact VDMc2560 172 33 40.4 44.5 0.4 0.1 Interpolated ages Europe Armenia T- N 13 53.0 352.0 67 5.0 12 50.0 2.0 4 9.3 Volcanic Andesite Lava Flow VDMc2561 172 34 40.4 44.5 0.3 0.1 Interpolated ages Europe Armenia T- N 16 57.0 355.0 85 4.0 15 50.0 1.0 2 8.9 Volcanic Andesite Lava Flow VDMc2562 172 35 39.8 45.4 0.3 0.1 Interpolated ages Europe Armenia T- N 15 54.0 348.0 59 5.0 12 50.0 1.0 2 9.2 Volcanic Basalt Lava Flow VDMc2563 172 36 40.4 44.4 0.3 0.1 Interpolated ages Europe Armenia T- N 17 57.0 353.0 66 4.0 17 50.0 2.0 4 8.9 Volcanic Tuff Pyroclastic VDMc2564 172 37 39.8 45.4 0.3 0.1 Interpolated ages Europe Armenia T- N 12 55.0 350.0 31 8.0 11 48.0 2.0 4 8.7 Volcanic Basalt Lava Flow VDMc2565 172 38 39.8 45.4 0.2 0.1 Interpolated ages Europe Armenia T- N 14 58.0 354.0 42 6.0 13 48.0 2.0 4 8.4 Volcanic Basalt Lava Flow VDMc2566 172 39 39.7 45.7 0.2 0.1 Interpolated ages Europe Armenia T- N 20 61.0 16.0 43 5.0 21 51.0 2.0 4 8.6 Volcanic Andesite Lava Flow VDMc2567 172 40 39.7 45.7 0.2 0.1 Interpolated ages Europe Armenia T- N 13 61.0 12.0 69 5.0 14 51.0 1.0 2 8.6 Sediment Clay Baked contact VDMc2568 172 41 40.2 44.8 0.1 0.1 Interpolated ages Europe Armenia T- N 14 63.0 359.0 42 6.0 14 47.0 2.0 4 7.7 Volcanic Andesite Lava Flow VDMc2569 172 42 40.2 44.8 0.1 0.1 Interpolated ages Europe Armenia T- N 21 65.0 357.0 60 4.0 24 46.0 1.0 2 7.4 Volcanic Andesite Lava Flow VDMc2570 172 43 40.2 45.4 0.1 0.1 Interpolated ages Europe Armenia T- N 23 63.0 8.0 105 3.0 23 48.0 2.0 4 7.9 Volcanic Basalt Lava Flow VDMc2571 172 44 40.2 45.4 0.1 0.1 Interpolated ages Europe Armenia T- N 35 65.0 10.0 153 2.0 35 49.0 1.0 2 7.9 Sediment Clay Baked contact VDMc2572 172 45 40.2 45.4 0.1 0.1 Interpolated ages Europe Armenia T- N 30 62.0 3.0 44 4.0 30 48.0 1.0 2 8.0 Volcanic Basalt Lava Flow VDMc2573 172 46 40.2 45.4 0.1 0.1 Interpolated ages Europe Armenia T- N 41 65.0 2.0 125 2.0 41 48.0 1.0 208 7.7 Volcanic Tuff Baked contact VDMc2574 172 47 40.2 45.7 0.1 0.1 Interpolated ages Europe Armenia T- N 20 67.0 356.0 44 5.0 20 48.0 2.0 4 7.5 Volcanic Basalt Lava Flow VDMc2575 173 BL -22.9 117.1 2000.0 Estimated age Australia Australia T+ O 3 -5.8 313.5 36.9 2 13.9 1.0 7 3.6 Volcanic Basalt Lava Flow2576 173 BP -22.9 117.1 2000.0 Estimated age Australia Australia T+ O 4 -27.5 316.7 9.3 1 7.7 1.4 29 1.8 Volcanic Basalt Pillow2577 173 COC -23.1 117.9 2000.0 Estimated age Australia Australia S O 6 -11.3 335.8 12.2 1 9.8 0.1 1 2.5 Volcanic Basalt Pillow2578 173 COC -23.1 117.9 2000.0 Estimated age Australia Australia T+ O 6 -11.3 335.8 12.2 5 6.9 1.0 15 1.8 Volcanic Basalt Pillow2579 174 Mt Etna 1923-1947 AD 37.6 14.3 0.0 Historic Europe Sicily Mpp O 3 46.0 2.5 5 Volcanic Basalt Lava Flow

Perpendicular field microwave technique

2580 175 GB - HBT -34.5 150.4 172.0 K/Ar Australia Australia T+ R 41 81.0 174.0 33 11.0 9 6.0 1.4 23 1.3 Volcanic Dolerite Sill VDM = 0.87 with cooling correction

2581 175 GB - LBT -34.5 150.4 90.0 Estimated age Australia Australia T+ N 41 -79.0 21.0 63 8.0 7 39.8 8.5 21 4.8 Volcanic Dolerite Sill Remagnetization

2582 175 GS -34.5 150.4 178.0 K/Ar Australia Australia T+ R 13 79.0 167.0 26 24.0 6 26.6 2.2 8 4.1 Plutonic Syenite Intrusion Remagnetization

2583 176 Lower Gardar 61.0 -46.0 1320.0 Combined Atlantic Ocean Greenland T+ N 10 21.6 270.4 17 11.9 32 34.3 1.0 3 8.4 Volcanic Basalt Lava FlowDirections in Thomas & Piper, Tectonophysics, 201, 1-16, 1992 ; F = 33.8 +- 2.1 with Shaw method

2584 176 Upper Gardar 61.0 -46.0 1320.0 Combined Atlantic Ocean Greenland T+ N 20 40.5 295.5 18 7.9 13 31.4 3.0 10 6.7 Volcanic Basalt Lava FlowDirections in Thomas & Piper, Tectonophysics, 201, 1-16, 1992

2585 177 Napier complex -66.0 55.0 1190.0 200.0 Rb/Sr Antarctica Antarctica T+ O 8 3.0 2.6 87 Plutonic Dyke F = 3.3 with Shaw method (N=2)

2586 179 Tianchi lava 1 42.0 128.0 0.2 0.0 Combined Asia China T+ N 24 58.4 356.8 35 5.1 7 54.1 0.6 1 9.6 Volcanic Basalt Lava Flow2587 179 Tianchi lava 2 42.0 128.0 0.2 0.0 Combined Asia China T+ N 21 59.3 350.6 106 3.1 7 51.9 0.9 2 9.1 Volcanic Basalt Lava Flow2588 179 Tianchi lava 3 42.0 128.0 0.1 0.0 Combined Asia China T+ T 19 86.3 78.9 112 3.2 7 25.3 0.4 2 3.4 Volcanic Basalt Lava Flow2589 179 Tianchi lava 4 42.0 128.0 0.1 0.0 Combined Asia China T+ R 16 -25.1 167.5 22 8.1 7 25.0 0.3 1 6.1 Volcanic Basalt Lava Flow2590 179 Tianchi lava 5 42.0 128.0 0.1 0.0 Combined Asia China T+ N 23 60.3 355.3 42 4.7 6 62.3 0.9 1 10.8 Volcanic Basalt Lava Flow2591 180 Barrington lava 06 -31.9 151.4 53.0 Estimated age Australia Australia Mpp R 4 72.1 186.4 6.9 2 14.1 5.0 35 2.1 Volcanic Basalt Lava Flow VDMc2592 180 Barrington lava 07 -31.9 151.4 53.0 Estimated age Australia Australia Mpp R 4 74.5 200.9 12.9 2 8.4 5.8 69 1.2 Volcanic Basalt Lava Flow VDMc2593 180 Barrington lava 08 -31.9 151.4 53.0 Estimated age Australia Australia Mpp R 4 63.5 174.9 6.5 2 14.0 0.0 0 2.3 Volcanic Basalt Lava Flow VDMc2594 180 Barrington lava 12 -31.9 151.4 53.0 Estimated age Australia Australia Mpp R 4 55.4 167.6 9.7 2 5.4 2.4 44 1.0 Volcanic Basalt Lava Flow VDMc2595 180 Barrington lava 13 -31.9 151.4 53.0 Estimated age Australia Australia Mpp R 4 51.7 182.4 5.5 1 13.3 2.5 Volcanic Basalt Lava Flow VDMc2596 180 Barrington lava 17 -31.9 151.4 53.0 Estimated age Australia Australia Mpp R 4 66.0 189.6 10.4 2 8.1 1.2 15 1.3 Volcanic Basalt Lava Flow VDMc



2597 181 SOH-4 Flow 001 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 3 36.8 2 41.3 0.5 1 9.4 Volcanic Basalt Lava Flow VADM ; replace ref 106

2598 181 SOH-4 Flow 002 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 3 20.6 1 38.2 8.7 Volcanic Basalt Lava Flow VADM ; VDMc = 9.4 ; replace ref 106

2599 181 SOH-4 Flow 003 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 2 24.3 1 45.3 10.3 Volcanic Basalt Lava FlowVADM ; VDMc = 10.9 ; replace ref 106

2600 181 SOH-4 Flow 005 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 3 34.2 1 52.2 11.8 Volcanic Basalt Lava Flow VADM ; replace ref 106




2604 181 SOH-4 Flow 009 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 3 28.5 2 64.1 0.7 1 14.6 Volcanic Basalt Lava FlowVADM ; VDMc = 15.1 ; replace ref 106







2611 181 SOH-4 Flow 018 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 3 39.8 1.9 1 48.3 11.0 Volcanic Basalt Lava FlowVADM ; VDMc = 10.4 ; replace ref 106





























2640 181 SOH-4 Flow 055 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 4 15.1 1 43.6 9.9 Volcanic Basalt Lava FlowVADM ; VDMc = 11 ; replace ref 106

2641 181 SOH-4 Flow 056 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 4 -3.0 2 38.3 3.2 8 8.7 Volcanic Basalt Lava FlowVADM ; VDMc = 9.9 ; replace ref 106



2644 181 SOH-4 Flow 059 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 5 23.3 3 37.2 4.9 13 8.4 Volcanic Basalt Lava FlowVADM ; VDMc = 9 ; replace ref 106





2647 181 SOH-4 Flow 062 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 7 3.8 1 27.2 6.2 Volcanic Basalt Lava FlowVADM ; VDMc = 7 ; replace ref 106




2651 181 SOH-4 Flow 066 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 3 11.8 1 34.5 7.8 Volcanic Basalt Lava Flow VADM ; VDMc = 8.8 ; replace ref 106




2655 181 SOH-4 Flow 072 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 5 5.1 1 17.7 4.0 Volcanic Basalt Lava Flow VADM ; VDMc = 4.6 ; replace ref 106

2656 181 SOH-4 Flow 073 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 15 12.2 2 19.8 0.8 4 4.5 Volcanic Basalt Lava FlowVADM ; VDMc = 5 ; replace ref 106

2657 181 SOH-4 Flow 076 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 3 21.7 3 31.2 5.3 17 7.1 Volcanic Basalt Lava FlowVADM ; VDMc = 7.6 ; replace ref 106

2658 181 SOH-4 Flow 078 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 6 -26.7 3 17.1 5.4 32 3.9 Volcanic Basalt Lava Flow VADM ; replace ref 106

2659 181 SOH-4 Flow 079 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 3 7.6 2 16.0 4.0 25 3.6 Volcanic Basalt Lava Flow VADM ; VDMc = 4.1 ; replace ref 106

2660 181 SOH-4 Flow 080 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 3 6.8 1 10.0 2.3 Volcanic Basalt Lava Flow VADM ; replace ref 106











2671 181 SOH-4 Flow 092 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 3 -7.9 1 17.0 3.9 Volcanic Basalt Lava FlowVADM ; VDMc = 4.4 ; replace ref 106

2672 181 SOH-4 Flow 093 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 3 -19.7 1 18.8 4.3 Volcanic Basalt Lava Flow VADM ; replace ref 106

2673 181 SOH-4 Flow 095 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 7 -16.5 3 19.8 2.7 14 4.5 Volcanic Basalt Lava FlowVADM ; VDMc = 5 ; replace ref 106

2674 181 SOH-4 Flow 096 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 3 -7.7 2 20.1 3.1 15 4.6 Volcanic Basalt Lava FlowVADM ; VDMc = 5.2 ; replace ref 106




2678 181 SOH-4 Flow 101 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 5 -0.3 3 37.2 7.9 21 8.4 Volcanic Basalt Lava FlowVADM ; VDMc = 9.6 ; replace ref 106












2690 181 SOH-4 Flow 124 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 5 12.0 1 27.0 6.1 Volcanic Basalt Lava FlowVADM ; VDMc = 6.9; replace ref 106

2691 181 SOH-4 Flow 125 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 3 15.0 1 34.6 7.9 Volcanic Basalt Lava FlowVADM ; VDMc = 8.7; replace ref 106



2694 181 SOH-4 Flow 130 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 3 -0.4 2 27.0 2.3 9 6.1 Volcanic Basalt Lava FlowVADM ; VDMc = 7 ; replace ref 106



2695 181 SOH-4 Flow 131 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 3 -3.6 2 27.7 5.7 21 6.3 Volcanic Basalt Lava FlowVADM ; VDMc = 7.2 ; replace ref 106

2696 181 SOH-4 Flow 132 19.3 -155.0 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 6 6.8 3 22.6 2.1 9 5.1 Volcanic Basalt Lava Flow VADM ; VDMc = 5.8 ; replace ref 106





































2733 181 SOH-4 Flow 185 19.3 -155.0 0.1 Interpolated ages Pacific Ocean Hawaii T+ N 4 35.8 0.8 2 8.1 Volcanic Basalt Lava Flow VADM ; replace ref 106














2745 181 SOH-4 Flow 202 19.3 -155.0 0.1 Interpolated ages Pacific Ocean Hawaii T+ N 3 43.1 3 34.3 8.0 23 7.8 Volcanic Basalt Lava Flow VADM ; VDMc = 7.2 ; replace ref 106

2746 181 SOH-4 Flow 203 19.3 155.0 0.1 Interpolated ages Pacific Ocean Hawaii T+ N 3 29.3 1 15.4 3.5 Volcanic Basalt Lava Flow VADM ; replace ref 106

2747 182 Zhuanchengzi lava 01 41.5 121.1 120.9 0.9 K/Ar Asia China T+ R 11 -64.7 188.7 180 3.4 3 22.8 1.9 8 3.2 Volcanic Basalt Lava Flow VDMc = 3.7 ; replace ref 212




2751 182 Zhuanchengzi lava 11 41.5 121.1 120.9 0.9 K/Ar Asia China T+ R 8 -64.7 172.3 134 4.8 5 12.1 2.9 24 1.7 Volcanic Basalt Lava Flow replace ref 212



2754 182 Zhuanchengzi lava 17 41.5 121.1 120.9 0.9 K/Ar Asia China T+ R 8 -61.3 164.5 102 5.5 4 18.5 1.2 6 2.7 Volcanic Basalt Lava Flow ; replace ref 212




2758 183 Tudor Gabbro 44.8 77.6 1100.0 Estimated age North America Canada T+ O -48.0 45 23.1 4.3 18 4.6 Plutonic Gabbro Intrusion2759 184 Stillwater complex 45.4 -110.0 2703.0 50.0 Radiometric age North America U.S.A. T+ O 82.0 3 32.0 5.8 18 4.1 Plutonic Anorthosite Intrusion

Correction for anisotropy and slow cooling

2760 185 Ohaiula section 1/1 19.0 -155.0 4.0 0.0 Combined Pacific Ocean Hawaii T+ R 5 38.0 2.5 4.4 3 60.4 3.9 6 13.2 Volcanic Basalt Lava Flow Post-transitional section

2761 185 Ohaiula section 10-12/5b 19.0 -155.0 4.0 0.0 Combined Pacific Ocean Hawaii T+ R 15 28.9 351.0 1.7 10 50.4 7.6 15 11.8 Volcanic Basalt Lava Flow Post-transitional section

2762 185 Ohaiula section 13/5c 19.0 -155.0 4.0 0.0 Combined Pacific Ocean Hawaii T+ R 5 30.3 350.0 1.8 3 44.7 4.9 11 10.4 Volcanic Basalt Lava Flow Post-transitional section

2763 185 Ohaiula section 14-15/5d 19.0 -155.0 4.0 0.0 Combined Pacific Ocean Hawaii T+ R 10 29.2 352.3 1.8 4 48.3 5.6 12 11.3 Volcanic Basalt Lava Flow Post-transitional section

2764 185 Ohaiula section 18-23(22)/8 19.0 -155.0 4.0 0.0 Combined Pacific Ocean Hawaii T+ R 5 16.0 335.4 3.6 4 35.8 8.0 22 9.0 Volcanic Basalt Lava Flow Post-transitional section




2768 185 Ohaiula section 4-5(4)/4 19.0 -155.0 4.0 0.0 Combined Pacific Ocean Hawaii T+ R 5 27.1 1.2 1.6 3 48.1 3.6 7 11.4 Volcanic Basalt Lava Flow Post-transitional section

2769 185 Ohaiula section 6-9(7)/5a 19.0 -155.0 4.0 0.0 Combined Pacific Ocean Hawaii T+ R 5 27.7 354.6 2.1 4 31.1 0.5 2 7.4 Volcanic Basalt Lava Flow Post-transitional section

2770 186 Guadalajara BRS 20.7 103.2 9.3 0.3 Estimated age North America Mexico T+ N 8 26.6 348.7 587 2.3 3 35.8 3.8 11 8.5 Volcanic Basalt Lava Flow2771 186 Guadalajara SCB-1 21.0 103.4 10.2 0.3 Combined North America Mexico T+ N 9 34.8 327.1 336 2.8 3 33.1 3.2 10 7.4 Volcanic Basalt Lava Flow2772 186 Guadalajara SCB-2 21.1 103.4 10.2 0.8 Combined North America Mexico T+ N 6 39.7 314.7 189 5.9 1 29.1 6.3 Volcanic Basalt Lava Flow2773 186 Queretaro AE 20.6 100.4 8.1 0.8 Combined North America Mexico T+ N 8 30.1 335.3 263 3.4 3 28.9 4.3 15 6.7 Volcanic Basalt Lava Flow2774 186 Queretaro TH 20.7 101.0 10.2 0.1 Combined North America Mexico T+ N 8 26.1 353.6 95 5.7 4 23.4 3.5 15 5.6 Volcanic Basalt Lava Flow2775 187 Apnia 1 41.4 43.3 1.7 K/Ar Europe Georgia T- N 7 53.0 335.0 45 16.8 1 33.4 6.2 Volcanic Basalt Lava Flow VDMc2776 187 Avranlo 41.7 43.9 0.2 K/Ar Europe Georgia T- N 1 48.0 312.0 1 48.3 9.6 Volcanic Basalt Lava Flow VDMc2777 187 Bertakana 3 41.4 43.3 1.6 Interpolated ages Europe Georgia T- T 2 -13.0 137.0 1 18.5 4.7 Volcanic Basalt Lava Flow VDMc2778 187 Dachbashi 41.6 44.1 1.0 K/Ar Europe Georgia T- R 1 -62.0 207.0 1 51.5 8.6 Volcanic Basalt Lava Flow VDMc2779 187 Dmanissi 41.5 44.3 0.5 K/Ar Europe Georgia T- N 1 71.0 25.0 1 48.8 7.2 Volcanic Basalt Lava Flow VDMc2780 187 Gomareti 41.5 44.2 0.4 K/Ar Europe Georgia T- R 1 -57.0 156.0 1 47.2 8.4 Volcanic Basalt Lava Flow VDMc2781 187 Kakliani 41.3 44.3 0.7 K/Ar Europe Georgia T- R 1 -40.0 181.0 1 48.1 10.3 Volcanic Basalt Lava Flow VDMc2782 187 Kumliscixe 42.5 44.5 0.1 K/Ar Europe Georgia T- N 4 54.0 352.0 40 5.8 1 26.6 4.9 Volcanic Basalt Lava Flow VDMc2783 187 Kumurdo 41.4 43.3 1.1 K/Ar Europe Georgia T- N 12 47.0 28.0 82 7.2 1 39.1 7.8 Volcanic Basalt Lava Flow VDMc2784 187 Murjebi 41.5 43.5 2.0 Interpolated ages Europe Georgia T- R 7 -77.0 193.0 220 3.2 1 52.2 7.2 Volcanic Basalt Lava Flow VDMc2785 187 Sagamo 2 41.3 43.3 2.4 Interpolated ages Europe Georgia T- T 3 44.0 234.0 60 6.6 1 16.3 3.4 Volcanic Basalt Lava Flow VDMc2786 187 Saposovka 2 41.2 43.7 2.3 Interpolated ages Europe Georgia T- N 3 41.0 344.0 70 8.6 1 35.9 7.6 Volcanic Basalt Lava Flow VDMc2787 187 Sarfisgele 1 41.3 44.1 2.0 Interpolated ages Europe Georgia T- R 10 -35.0 178.0 43 8.8 1 50.0 11.2 Volcanic Basalt Lava Flow VDMc2788 187 Satxe 2 41.2 43.7 2.3 K/Ar Europe Georgia T- R 4 -32.0 224.0 61 6.3 1 45.3 10.4 Volcanic Basalt Lava Flow VDMc2789 187 Trialeti 41.5 44.1 2.3 K/Ar Europe Georgia T- R 1 -48.0 203.0 1 18.9 3.7 Volcanic Basalt Lava Flow VDMc2790 187 Zurtaketi 1 41.4 44.1 0.3 Interpolated ages Europe Georgia T- N 6 62.0 2.0 84 4.5 1 54.7 9.1 Volcanic Basalt Lava Flow VDMc2791 188 C-TA1 -16.0 28.0 14.6 Interpolated ages Atlantic Ocean Canary Islands T+ R 9 -35.1 166.4 87 5.5 4 20.7 4.2 20 4.6 Volcanic Basalt Lava Flow VDMc2792 188 C-TA10 -16.0 28.0 14.2 Interpolated ages Atlantic Ocean Canary Islands T+ T 7 -40.6 183.2 380 3.1 2 13.2 4.9 37 2.8 Volcanic Basalt Lava Flow VDMc



2793 188 C-TA11 -16.0 28.0 14.1 Interpolated ages Atlantic Ocean Canary Islands T+ R 6 -23.3 181.8 161 5.3 2 21.4 6.2 29 5.2 Volcanic Basalt Lava Flow VDMc2794 188 C-TA12 -16.0 28.0 14.1 Interpolated ages Atlantic Ocean Canary Islands T+ R 5 -31.0 177.9 131 6.7 3 18.8 0.9 5 4.4 Volcanic Basalt Lava Flow VDMc2795 188 C-TA13 -16.0 28.0 14.0 Interpolated ages Atlantic Ocean Canary Islands T+ R 7 -36.6 176.3 177 4.6 5 17.8 3.6 20 3.9 Volcanic Basalt Lava Flow VDMc2796 188 C-TA14 -16.0 28.0 14.0 Interpolated ages Atlantic Ocean Canary Islands T+ R 8 -33.3 175.4 298 3.2 4 21.4 2.3 11 4.9 Volcanic Basalt Lava Flow VDMc2797 188 C-TA3 -16.0 28.0 14.5 Interpolated ages Atlantic Ocean Canary Islands T+ T 9 62.7 178.0 52 7.2 5 27.4 4.7 17 4.5 Volcanic Basalt Lava Flow VDMc2798 188 C-TA4 -16.0 28.0 14.4 Interpolated ages Atlantic Ocean Canary Islands T+ T 7 69.4 160.7 70 7.3 4 27.2 2.0 7 4.1 Volcanic Basalt Lava Flow VDMc2799 188 C-TA6 -16.0 28.0 14.4 Interpolated ages Atlantic Ocean Canary Islands T+ T 6 -17.4 170.8 56 9.2 2 8.7 0.5 6 2.2 Volcanic Basalt Lava Flow VDMc2800 188 C-TA7 -16.0 28.0 14.3 Interpolated ages Atlantic Ocean Canary Islands T+ T 7 -23.5 169.7 156 4.9 3 8.7 2.4 28 2.1 Volcanic Basalt Lava Flow VDMc2801 189 Famjin-13 62.0 -7.0 56.2 0.3 Geomagnetic polarity timescale Atlantic Ocean Faroe Islands T+ N 68.9 358.9 6 48.7 3.3 7 7.4 Volcanic Basalt Lava Flow2802 189 Famjin-14 62.0 -7.0 56.2 0.3 Geomagnetic polarity timescale Atlantic Ocean Faroe Islands T+ N 63.4 8.3 3 21.1 0.8 4 3.5 Volcanic Basalt Lava Flow2803 189 Sandvik-2 62.0 -7.0 54.6 1.8 Geomagnetic polarity timescale Atlantic Ocean Faroe Islands T+ R -48.1 145.3 5 38.4 6.7 17 7.4 Volcanic Basalt Lava Flow2804 189 Sandvik-22 62.0 -7.0 54.6 1.8 Geomagnetic polarity timescale Atlantic Ocean Faroe Islands T+ R -51.6 219.8 3 24.5 1.3 5 4.5 Volcanic Basalt Lava Flow2805 189 Sandvik-3 62.0 -7.0 54.6 1.8 Geomagnetic polarity timescale Atlantic Ocean Faroe Islands T+ R -65.7 239.5 1 40.9 6.5 Volcanic Basalt Lava Flow2806 190 Tongjing DD 37.8 120.8 0.7 Geomagnetic polarity timescale Asia China T- N 20 56.7 337.7 41 4.9 19.3 3.4 Volcanic Basalt Dyke Fc2807 190 Tongjing LB 37.8 120.8 0.8 Thermoluminescence Asia China T- R 7 -54.3 187.2 69 6.4 43.0 7.9 Sediment Loess Baked contact Fc2808 190 Tongjing SB 37.8 120.8 0.7 Geomagnetic polarity timescale Asia China T- R 12 -56.2 185.1 52 5.6 51.1 9.2 Volcanic Basalt Lava Flow Fc2809 190 Tongjing UD 37.8 120.8 0.7 Geomagnetic polarity timescale Asia China T- N 10 58.7 17.6 59 5.8 65.5 11.4 Volcanic Basalt Lava Flow Fc2810 190 Tongjing US 37.8 120.8 0.7 Geomagnetic polarity timescale Asia China T- T 7 -10.4 284.5 70 6.3 10.7 2.7 Volcanic Basalt Lava Flow Fc2811 191 Tammar 101 21.7 45.3 0.4 Interpolated ages Atlantic Ocean T+ O 1 42.0 9.1 Volcanic Basalt Pillow VADM2812 191 Tammar 102 21.7 45.3 0.4 Interpolated ages Atlantic Ocean T+ O 1 39.9 8.7 Volcanic Basalt Pillow VADM2813 191 Tammar 103 21.7 45.3 0.4 Interpolated ages Atlantic Ocean T+ O 1 42.7 9.3 Volcanic Basalt Pillow VADM2814 191 Tammar 104 21.7 45.3 0.5 Interpolated ages Atlantic Ocean T+ O 1 30.4 6.6 Volcanic Basalt Pillow VADM2815 191 Tammar 108 21.6 45.3 0.6 Interpolated ages Atlantic Ocean T+ O 1 16.3 3.5 Volcanic Basalt Pillow VADM2816 191 Tammar 114 21.6 45.4 0.7 Interpolated ages Atlantic Ocean T+ O 1 28.0 6.1 Volcanic Basalt Pillow VADM2817 191 Tammar 161 21.6 45.3 0.0 Interpolated ages Atlantic Ocean T+ O 1 51.4 11.2 Volcanic Basalt Pillow VADM2818 191 Tammar 166 21.6 45.3 0.1 Interpolated ages Atlantic Ocean T+ O 1 37.7 8.2 Volcanic Basalt Pillow VADM2819 191 Tammar 167 21.7 45.3 0.1 Interpolated ages Atlantic Ocean T+ O 1 41.1 8.9 Volcanic Basalt Pillow VADM2820 191 Tammar 168 21.7 45.3 0.2 Interpolated ages Atlantic Ocean T+ O 1 34.8 7.6 Volcanic Basalt Pillow VADM2821 191 Tammar 207 21.8 45.2 0.1 Interpolated ages Atlantic Ocean T+ O 1 32.2 7.0 Volcanic Basalt Pillow VADM2822 191 Tammar 301 21.8 45.2 0.0 Interpolated ages Atlantic Ocean T+ O 1 38.1 8.3 Volcanic Basalt Pillow VADM2823 191 Tammar 304-303 21.8 45.2 0.0 Interpolated ages Atlantic Ocean T+ O 2 48.0 0.2 0 10.4 Volcanic Basalt Pillow VADM2824 191 Tammar 305 21.8 45.2 0.1 Interpolated ages Atlantic Ocean T+ O 1 23.9 5.2 Volcanic Basalt Pillow VADM2825 191 Tammar 308 21.8 45.2 0.1 Interpolated ages Atlantic Ocean T+ O 1 23.0 5.0 Volcanic Basalt Pillow VADM2826 191 Tammar 312 21.8 45.3 0.2 Interpolated ages Atlantic Ocean T+ O 1 27.1 6 Volcanic Basalt Pillow VADM2827 191 Tammar 313 21.8 45.3 0.2 Interpolated ages Atlantic Ocean T+ O 1 23.2 5.1 Volcanic Basalt Pillow VADM2828 191 Tammar 401 21.7 45.2 0.2 Interpolated ages Atlantic Ocean T+ O 1 31.3 6.8 Volcanic Basalt Pillow VADM2829 191 Tammar 406 21.7 45.2 0.3 Interpolated ages Atlantic Ocean T+ O 1 35.5 7.7 Volcanic Basalt Pillow VADM2830 191 Tammar 411 21.7 45.2 0.6 Interpolated ages Atlantic Ocean T+ O 1 29.3 6.4 Volcanic Basalt Pillow VADM2831 191 Tammar 601 21.8 45.3 0.6 Interpolated ages Atlantic Ocean T+ O 1 18.3 4.0 Volcanic Basalt Pillow VADM2832 191 Tammar 602 21.8 45.3 0.5 Interpolated ages Atlantic Ocean T+ O 1 32.3 7.0 Volcanic Basalt Pillow VADM2833 191 Tammar 606 21.8 45.3 0.4 Interpolated ages Atlantic Ocean T+ O 1 62.3 13.6 Volcanic Basalt Pillow VADM2834 191 Tammar 702 21.6 45.1 1.4 Interpolated ages Atlantic Ocean T+ O 1 18.8 4.1 Volcanic Basalt Pillow VADM2835 191 Tammar 703 21.6 45.1 1.3 Interpolated ages Atlantic Ocean T+ O 1 15.5 3.4 Volcanic Basalt Pillow VADM2836 191 Tammar 711 21.7 45.3 0.1 Interpolated ages Atlantic Ocean T+ O 1 15.0 3.3 Volcanic Basalt Pillow VADM2837 191 Tammar 712 21.7 45.2 0.1 Interpolated ages Atlantic Ocean T+ O 1 25.2 5.5 Volcanic Basalt Pillow VADM2838 191 Tammar 713 21.7 45.2 0.1 Interpolated ages Atlantic Ocean T+ O 1 22.7 4.9 Volcanic Basalt Pillow VADM2839 191 Tammar 714 21.7 45.2 0.2 Interpolated ages Atlantic Ocean T+ O 1 24.2 5.3 Volcanic Basalt Pillow VADM2840 191 Tammar 715 21.7 45.2 0.2 Interpolated ages Atlantic Ocean T+ O 1 31.8 6.9 Volcanic Basalt Pillow VADM2841 191 Tammar 801 21.7 45.3 0.6 Interpolated ages Atlantic Ocean T+ O 1 34.1 7.4 Volcanic Basalt Pillow VADM



2842 191 Tammar 802 21.7 45.3 0.6 Interpolated ages Atlantic Ocean T+ O 1 22.6 4.9 Volcanic Basalt Pillow VADM2843 191 Tammar 806 21.7 45.4 1.1 Interpolated ages Atlantic Ocean T+ O 1 30.5 6.6 Volcanic Basalt Pillow VADM2844 192 SOH1 001 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 4 45.5 3.2 4 57.4 9.7 17 12.8 Volcanic Basalt Lava Flow VADM ; VDMc = 11.7

2845 192 SOH1 002 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 2 37.5 2.1 1 58.6 13.1 Volcanic Basalt Lava Flow VADM ; VDMC = 12.9

2846 192 SOH1 003 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 3 42.3 4.4 1 56.9 12.7 Volcanic Basalt Lava Flow VADM ; VDMc = 12

2847 192 SOH1 004 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 3 41.4 1.0 2 56.6 3.0 5 12.7 Volcanic Basalt Lava Flow VADM ; VDMc = 12

2848 192 SOH1 006 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 3 27.5 4.1 2 50.4 4.5 9 11.3 Volcanic Basalt Lava Flow VADM ; VDMc = 11.9




2852 192 SOH1 011 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 2 19.7 3.2 1 69.1 15.5 Volcanic Basalt Lava Flow VADM ; VDMc = 17.1




2856 192 SOH1 023 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 2 51.4 0.9 2 11.5 Volcanic Basalt Lava Flow VADM2857 192 SOH1 025 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 2 38.3 1.3 1 48.2 10.8 Volcanic Basalt Lava Flow VADM ; VDMc = 10.5

2858 192 SOH1 032 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 1 36.7 1 64.2 14.4 Volcanic Basalt Lava Flow VADM ; VDMc = 14.2














2872 192 SOH1 067 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 3 35.9 5.5 2 24.7 1.5 6 5.5 Volcanic Basalt Lava Flow VADM2873 192 SOH1 071 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 1 30.5 1 36.0 8.1 Volcanic Basalt Lava Flow VADM ; VDMc = 8.4









2882 192 SOH1 089 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 3 -10.1 1.3 1 21.7 4.8 Volcanic Basalt Lava Flow VADM ; VDMc = 5.5

2883 192 SOH1 091 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 3 -8.0 7.2 2 23.8 0.8 3 5.3 Volcanic Basalt Lava Flow VADM ; VDMc = 6.1

2884 192 SOH1 095 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 1 -2.0 1 21.9 4.9 Volcanic Basalt Lava Flow VADM ; VDMc = 5.7











2893 192 SOH1 118 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 2 3.2 5.4 2 21.4 1.2 6 4.8 Volcanic Basalt Lava Flow VADM ; VDMc = 5.5


2895 192 SOH1 123 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 2 -2.6 6.8 1 19.5 4.4 Volcanic Basalt Lava Flow VADM ; VDMc = 5

2896 192 SOH1 132 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 1 -20.9 1 20.4 4.6 Volcanic Basalt Lava Flow VADM ; VDMc = 5









2905 192 SOH1 157 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 2 -6.5 9.0 2 27.3 1.4 5 6.1 Volcanic Basalt Lava Flow VADM ; VDMc = 7












2917 192 SOH1 189 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ T 3 -15.4 1.2 2 27.6 0.2 1 6.2 Volcanic Basalt Lava Flow VADM ; VDMc = 7









2926 192 SOH1 207 19.5 -154.9 0.0 Interpolated ages Pacific Ocean Hawaii T+ N 1 20.7 1 20.1 4.5 Volcanic Basalt Lava Flow VADM ; VDMc = 5

















2941 193 am1 -37.5 77.3 0.0 0.0 Ar/Ar Indian Ocean Amsterdam Island T+ T 7 -70.7 238.6 144 5.0 4 24.6 3.7 15 3.7 Volcanic Basalt Lava Flow2942 193 am2 -37.5 77.3 0.0 0.0 Ar/Ar Indian Ocean Amsterdam Island T+ T 7 -76.2 238.2 2287 1.3 2 24.0 2.6 11 3.4 Volcanic Basalt Lava Flow2943 193 am3 -37.5 77.3 0.0 0.0 Ar/Ar Indian Ocean Amsterdam Island T+ N 7 -52.5 356.1 217 4.1 5 32.8 2.2 7 6.2 Volcanic Basalt Lava Flow2944 193 am4 -37.5 77.3 0.0 0.0 Ar/Ar Indian Ocean Amsterdam Island T+ N 7 -63.1 3.9 249 3.8 3 46.9 4.6 10 7.7 Volcanic Basalt Lava Flow2945 194 SI3 27.3 112.7 10.0 0.5 Estimated age North America Mexico T+ N 27.2 349.2 135 2.9 3 30.9 3.0 10 7.3 Volcanic Basalt Lava Flow2946 194 SJG1 26.8 113.0 10.6 0.4 Radiometric age North America Mexico T+ N 42.6 1.9 98 3.2 3 18.1 3.1 17 3.8 Volcanic Basalt Lava Flow2947 194 SJG12 26.5 112.7 10.5 0.5 Estimated age North America Mexico T+ N 41.6 11.2 201 2.7 2 27.3 5.4 20 5.8 Volcanic Basalt Lava Flow2948 194 SJG14 26.5 112.7 10.5 0.5 Estimated age North America Mexico T+ N 48.1 337.2 166 3.2 8 34.5 5.2 15 6.8 Volcanic Basalt Lava Flow2949 194 SJG15 26.5 112.7 9.9 1.9 Estimated age North America Mexico T+ N 48.6 349.7 294 2.5 4 35.7 6.0 17 7.0 Volcanic Basalt Lava Flow2950 194 SJG16 26.5 112.7 9.9 1.9 Estimated age North America Mexico T+ N 44.6 349.4 385 2.2 2 33.1 1.4 4 7.4 Volcanic Basalt Lava Flow VDMc=6,8

2951 194 SJG19 26.5 112.7 10.5 0.5 Estimated age North America Mexico T+ N 58.1 345.8 363 1.6 5 32.9 3.1 9 5.8 Volcanic Basalt Lava Flow2952 194 SJG4 26.6 112.9 6.0 2.6 Radiometric age North America Mexico T+ N 50.4 335.1 60 6.7 3 45.6 4.2 9 8.8 Volcanic Basalt Lava Flow2953 194 SJG7 26.6 112.7 11.7 0.8 Radiometric age North America Mexico T+ N 55.2 349.0 104 4.1 2 42.5 5.6 13 7.7 Volcanic Basalt Lava Flow2954 195 CON03 27.1 -51.8 132.5 0.5 Radiometric age South America Brazil T+ O 4 -51.2 7.7 441 4.4 4 33.4 3.5 10 6.4 Volcanic Basalt Lava Flow2955 195 CON05 27.1 -51.8 132.5 0.5 Radiometric age South America Brazil T+ O 5 -31.4 10.0 1068 2.3 5 45.6 4.5 10 10.5 Volcanic Basalt Lava Flow2956 195 CON06 27.1 -51.8 132.5 0.5 Radiometric age South America Brazil T+ O 3 -46.0 3.9 1033 3.8 3 43.6 2.7 6 8.8 Volcanic Basalt Lava Flow2957 195 CON07 27.1 -51.8 132.5 0.5 Radiometric age South America Brazil T+ O 4 -44.8 7.6 623 3.7 4 46.7 7.0 15 9.6 Volcanic Basalt Lava Flow2958 195 CON14 27.1 -51.8 132.5 0.5 Radiometric age South America Brazil T+ O 3 -44.7 350.2 1212 3.5 3 27.3 6.4 23 5.6 Volcanic Basalt Lava Flow2959 195 SC01 25.4 -53.6 132.5 0.5 Radiometric age South America Brazil T+ O 4 -44.4 3.9 362 4.8 4 24.6 4.8 20 5.1 Volcanic Basalt Lava Flow2960 195 SC04 25.4 -53.6 132.5 0.5 Radiometric age South America Brazil T+ O 3 -42.3 7.7 176 9.3 3 19.4 2.7 14 4.0 Volcanic Basalt Lava Flow2961 195 SC08 25.4 -53.6 132.5 0.5 Radiometric age South America Brazil T+ O 4 -38.6 0.7 399 4.6 4 43.5 5.9 14 9.5 Volcanic Basalt Lava Flow2962 195 SC10 25.4 -53.6 132.5 0.5 Radiometric age South America Brazil T+ O 5 -43.5 2.6 310 4.4 5 35.3 5.7 16 7.4 Volcanic Basalt Lava Flow2963 195 SC15 25.4 -53.6 132.5 0.5 Radiometric age South America Brazil T+ O 6 -26.7 10.5 584 2.8 6 22.1 1.9 9 5.3 Volcanic Basalt Lava Flow2964 196 TE1 21.7 105.0 8.8 0.5 Radiometric age North America Mexico T+ N 6 38.9 1.1 98 88.9 5 29.9 1.8 6 6.5 Volcanic Basalt Lava Flow2965 196 TE13 21.7 105.0 8.8 0.5 Radiometric age North America Mexico T+ N 7 37.8 0.2 845 0.2 5 36.2 6.2 17 7.9 Volcanic Basalt Lava Flow2966 196 TE14 21.7 105.0 8.8 0.5 Radiometric age North America Mexico T+ N 5 34.1 355.5 235 8.1 3 32.8 1.7 5 7.4 Volcanic Basalt Lava Flow2967 196 TE5 21.7 105.0 8.8 0.5 Radiometric age North America Mexico T+ N 7 39.5 359.7 182 5.7 5 30.5 2.5 8 6.4 Volcanic Basalt Lava Flow2968 196 TE9 21.7 105.0 8.8 0.5 Radiometric age North America Mexico T+ N 6 32.6 1.3 261 4.8 2 42.8 1.3 3 9.8 Volcanic Basalt Lava Flow2969 196 TPL5 21.7 105.0 8.8 0.5 Radiometric age North America Mexico T+ N 7 41.1 355.8 1506 1.6 4 27.8 0.9 3 5.9 Volcanic Basalt Lava Flow2970 196 TPL7 21.7 105.0 8.8 0.5 Radiometric age North America Mexico T+ N 6 34.8 357.8 79 6.8 3 42.0 7.9 19 9.5 Volcanic Basalt Lava Flow2971 196 TPU4 21.7 105.0 8.8 0.5 Radiometric age North America Mexico T+ N 7 40.4 354.2 234 4.1 4 30.5 1.7 6 6.5 Volcanic Basalt Lava Flow2972 197 Sihetun 03 41.6 120.7 124.4 2.4 K/Ar Asia China T+ R 9 -57.6 179.0 151 4.2 2 16.9 0.4 2 3.0 Volcanic Basalt Lava Flow2973 197 Sihetun 04 41.6 120.7 125.0 2.4 K/Ar Asia China T+ T 6 -10.5 34.2 53 9.3 3 21.2 1.0 5 3.6 Volcanic Basalt Lava Flow VADM ; VDMc = 5,4

2974 197 Sihetun 05 41.6 120.7 124.6 2.5 K/Ar Asia China T+ N 9 57.4 6.9 128 4.6 3 23.5 3.0 13 4.2 Volcanic Basalt Lava Flow2975 197 Sihetun 06 41.6 120.7 124.8 2.3 K/Ar Asia China T+ N 9 59.2 10.6 230 3.4 3 20.3 4.0 20 3.5 Volcanic Basalt Lava Flow2976 197 Sihetun 10 41.6 120.7 125.1 2.4 K/Ar Asia China T+ N 7 61.1 12.2 158 4.8 3 24.6 0.4 2 4.2 Volcanic Basalt Lava Flow2977 197 Sihetun 12 41.6 120.7 124.9 2.4 K/Ar Asia China T+ N 5 57.6 12.2 137 6.6 2 20.0 0.9 4 3.5 Volcanic Basalt Lava Flow2978 197 Sihetun 13 41.6 120.7 126.1 2.6 K/Ar Asia China T+ N 6 54.6 16.3 382 3.4 3 15.4 3.3 22 2.8 Volcanic Basalt Lava Flow2979 197 Sihetun 14 41.6 120.7 129.3 2.5 K/Ar Asia China T+ N 9 59.5 349.4 343 2.8 3 21.1 3.4 16 3.6 Volcanic Basalt Lava Flow2980 197 Sihetun 15 41.6 120.7 129.2 2.6 K/Ar Asia China T+ N 9 59.2 1.5 141 4.4 3 19.9 0.3 1 3.4 Volcanic Basalt Lava Flow2981 197 Sihetun 18 41.6 120.7 133.6 2.6 K/Ar Asia China T+ N 7 56.1 359.3 71 7.2 2 19.4 0.8 4 3.5 Volcanic Basalt Lava Flow2982 197 Sihetun 19 41.6 120.7 133.1 2.6 K/Ar Asia China T+ N 8 60.3 4.1 74 6.5 2 20.5 0.1 1 3.5 Volcanic Basalt Lava Flow2983 198 B10 62.1 36.2 2449.0 1.0 U-Pb from zircons Asia Russia T+ O 49.0 4 40.4 7.6 19 7.9 Plutonic Plagioclase crystal Dyke2984 198 B14 62.1 36.2 2449.0 1.0 U-Pb from zircons Asia Russia T+ O 49.0 4 46.1 6.9 15 9.0 Plutonic Plagioclase crystal Dyke2985 198 B19 62.1 36.2 2449.0 1.0 U-Pb from zircons Asia Russia T+ O 49.0 3 30.2 3.0 10 5.9 Plutonic Plagioclase crystal Dyke2986 198 B59 62.1 36.2 2449.0 1.0 U-Pb from zircons Asia Russia T+ O 49.0 4 50.5 11.2 22 9.8 Plutonic Plagioclase crystal Dyke2987 199 Abitibi 48.2 81.6 1141.0 1.0 U-Pb North America Canada T+ O 23 7.9 2.6 33 1.3 Plutonic Dyke2988 199 Biscotasing 48.2 81.6 2167.0 2.0 U-Pb North America Canada T+ O 6 4.5 1.1 24 0.8 Plutonic Dyke



2989 199 Fort Frances 48.2 81.6 2076.0 5.0 U-Pb North America Canada T+ O 7 5.7 3.3 58 1.1 Plutonic Dyke2990 199 Marathon 48.2 81.6 2121.0 14.0 U-Pb North America Canada T+ O 12 5.9 2.1 36 1.0 Plutonic Dyke2991 199 Matachewan 48.2 81.6 2460.0 14.0 U-Pb North America Canada T+ O 26 11.0 3.4 31 2.8 Plutonic Dyke2992 199 Seneterre 48.2 81.6 2216.0 8.0 U-Pb North America Canada T+ O 4 6.2 3.3 53 1.3 Plutonic Dyke2993 200 Cordova A 44.5 282.4 1000.0 1.0 Estimated age North America Canada M O -59.5 4.8 18 18.1 2.1 11 3.1 Plutonic Gabbro Intrusion2994 200 Cordova B 44.5 282.4 850.0 1.0 Estimated age North America Canada M O -4.6 8.8 15 7.1 1.5 21 1.8 Plutonic Gabbro Intrusion2995 201 Rab12 -49.1 69.4 29.0 1.0 Ar/Ar Indian Ocean Kerguelen T+ R 7 68.2 140.2 207 4.2 4 37.7 2.4 6 5.8 Volcanic Basalt Lava Flow2996 201 Ruc14 -48.9 68.9 29.0 1.0 Ar/Ar Indian Ocean Kerguelen T+ R 7 76.4 149.5 184 4.5 3 37.2 2.7 7 5.2 Volcanic Basalt Lava Flow2997 201 Ruc15 -48.9 68.9 29.0 1.0 Ar/Ar Indian Ocean Kerguelen T+ R 7 76.4 149.5 184 4.5 4 40.0 4.3 11 5.7 Volcanic Basalt Lava Flow2998 201 Ruc16 -48.9 68.9 29.0 1.0 Ar/Ar Indian Ocean Kerguelen T+ R 4 79.9 183.3 202 6.5 4 34.8 0.9 3 4.7 Volcanic Basalt Lava Flow2999 201 Tem01 -48.9 69.1 29.0 1.0 Ar/Ar Indian Ocean Kerguelen T+ N 7 -67.3 356.6 465 2.8 3 61.0 3.6 6 9.5 Volcanic Basalt Lava Flow3000 201 Tem06 -48.9 69.1 29.0 1.0 Ar/Ar Indian Ocean Kerguelen T+ R 5 77.1 221.2 980 2.4 3 20.1 1.7 8 2.8 Volcanic Basalt Lava Flow3001 201 Tem10 -48.9 69.1 29.0 1.0 Ar/Ar Indian Ocean Kerguelen T+ R 7 60.6 188.0 76 7.0 3 25.0 1.7 7 4.2 Volcanic Basalt Lava Flow3002 201 Tem13 -48.9 69.1 29.0 1.0 Ar/Ar Indian Ocean Kerguelen T+ R 7 55.5 180.5 146 5.0 6 39.7 5.7 14 7.2 Volcanic Basalt Lava Flow3003 201 Tem15 -48.9 69.1 29.0 1.0 Ar/Ar Indian Ocean Kerguelen T+ R 4 64.5 188.1 1110 2.8 3 36.6 1.6 4 5.9 Volcanic Basalt Lava Flow3004 201 Tem16 -48.9 69.1 29.0 1.0 Ar/Ar Indian Ocean Kerguelen T+ R 5 64.2 178.1 329 4.2 4 30.5 3.8 12 4.9 Volcanic Basalt Lava Flow3005 201 Tem17 -48.9 69.1 29.0 1.0 Ar/Ar Indian Ocean Kerguelen T+ R 7 62.0 186.0 225 4.0 6 51.8 6.8 13 8.6 Volcanic Basalt Lava Flow3006 201 Tem18 -48.9 69.1 29.0 1.0 Ar/Ar Indian Ocean Kerguelen T+ R 8 60.7 177.0 249 3.5 6 55.0 6.9 13 9.3 Volcanic Basalt Lava Flow3007 202 CP01 42.0 119.3 86.0 1.1 K/Ar Asia China T+ N 7 57.7 32.5 4.4 2 10.1 1.6 16 1.8 Volcanic Basalt Lava Flow PSD range - Tc of 200-350°C

3008 202 CP02 42.0 119.3 91.0 1.0 K/Ar Asia China T+ N 6 59.7 23.6 2.6 2 12.6 0.4 3 2.2 Volcanic Basalt Lava Flow PSD range - Tc of 200-350°C




3012 203 Aso1 33.0 131.2 0.3 0.0 K/Ar Asia Japan T+ N 9 51.4 2.2 660 1.8 9 31.0 3.4 11 5.9 Volcanic Mixed Pyroclastic3013 203 Aso2 33.0 131.1 0.1 0.0 K/Ar Asia Japan T+ N 37 80.8 334.1 7.8 27 20.4 3.8 19 2.7 Volcanic Mixed Pyroclastic3014 203 Aso3 32.9 131.4 0.1 0.0 K/Ar Asia Japan T+ N 17 50.1 33.8 6.5 14 31.8 3.6 11 6.1 Volcanic Mixed Pyroclastic3015 203 Aso4 33.3 131.3 0.1 0.0 K/Ar Asia Japan T+ N 29 41.3 355.0 2.9 20 45.9 5.2 11 9.7 Volcanic Mixed Pyroclastic3016 203 AT 31.8 130.8 0.0 Carbon 14 Asia Japan T+ N 13 45.8 10.7 678 2.6 13 23.6 1.2 5 4.8 Volcanic Mixed Pyroclastic3017 203 K-Ah 30.8 130.4 0.0 Carbon 14 Asia Japan T+ N 4 46.4 353.9 46 4.8 4 37.8 6.6 17 7.6 Volcanic Mixed Pyroclastic3018 204 1183A-67R-3W -1.0 157.0 120.0 Estimated age Pacific Ocean Ontong Java Plateau T+ R -23.0 2 8.1 2.6 32 1.7 Volcanic Basalt Chilled margin VADM3019 204 1185A-16R-1W -0.2 161.5 120.0 Estimated age Pacific Ocean Ontong Java Plateau T+ R -23.0 2 18.0 1.6 9 3.8 Volcanic Basalt Chilled margin VADM3020 204 1186A-32R-2W -0.6 160.0 120.0 Estimated age Pacific Ocean Ontong Java Plateau T+ R -23.0 2 12.8 2.8 22 2.7 Volcanic Basalt Chilled margin VADM3021 204 1186A-34R-3W -0.6 160.0 120.0 Estimated age Pacific Ocean Ontong Java Plateau T+ R -23.0 2 32.9 0.6 2 7.0 Volcanic Basalt Chilled margin VADM3022 204 1187A-04R-2W 1.0 161.5 120.0 Estimated age Pacific Ocean Ontong Java Plateau T+ R -23.0 1 29.0 3.6 12 6.2 Volcanic Basalt Chilled margin VADM3023 204 1187A-04R-3W 1.0 161.5 120.0 Estimated age Pacific Ocean Ontong Java Plateau T+ R -23.0 1 36.7 5.4 15 7.8 Volcanic Basalt Chilled margin VADM3024 204 1187A-05R-7W 1.0 161.5 120.0 Estimated age Pacific Ocean Ontong Java Plateau T+ R -23.0 1 40.6 9.4 23 8.6 Volcanic Basalt Chilled margin VADM3025 204 1187A-06R-1W 1.0 161.5 120.0 Estimated age Pacific Ocean Ontong Java Plateau T+ R -23.0 3 19.0 1.4 7 4.0 Volcanic Basalt Chilled margin VADM3026 204 1187A-06R-3W 1.0 161.5 120.0 Estimated age Pacific Ocean Ontong Java Plateau T+ R -23.0 1 17.7 2.3 13 3.8 Volcanic Basalt Chilled margin VADM3027 204 1187A-07R-2W 1.0 161.5 120.0 Estimated age Pacific Ocean Ontong Java Plateau T+ R -23.0 1 32.6 3.9 12 6.9 Volcanic Basalt Chilled margin VADM3028 204 1187A-09R-3W 1.0 161.5 120.0 Estimated age Pacific Ocean Ontong Java Plateau T+ R -23.0 1 22.4 1.2 5 4.8 Volcanic Basalt Chilled margin VADM3029 204 1187A-13R-6W 1.0 161.5 120.0 Estimated age Pacific Ocean Ontong Java Plateau T+ R -23.0 1 55.7 6.2 11 11.8 Volcanic Basalt Chilled margin VADM3030 205 C-TP01 -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ R 7 -44.7 191.1 480 2.8 3 9.9 1.2 12 2.0 Volcanic Basalt Lava Flow

weighted mean paleointensity ; VDMc

3031 205 C-TP03 -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ R 7 -47.3 182.2 252 3.8 4 26.5 4.5 17 5.3 Volcanic Basalt Lava Flowweighted mean paleointensity ; VDMc




3035 205 C-TP20 -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ R 6 -54.2 158.2 97 7.0 1 6.2 1.1 Volcanic Basalt Lava Flowweighted mean paleointensity ; VDMc





3038 205 C-TP26 -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ T 6 39.2 195.6 121 6.1 2 2.1 0.3 14 0.4 Volcanic Basalt Lava Flowweighted mean paleointensity ; VDMc

3039 205 C-TP27 -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ T 6 41.5 201.2 96 7.1 2 3.7 1.6 43 0.8 Volcanic Basalt Lava Flow weighted mean paleointensity ; VDMc




3043 205 C-TP35 -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ R 6 -50.9 160.9 126 6.0 2 15.5 2.6 17 3.0 Volcanic Basalt Lava Flow weighted mean paleointensity ; VDMc



3046 205 C-TP49A -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ T 5 39.2 194.4 168 5.9 4 9.0 2.7 30 1.9 Volcanic Basalt Lava Flowweighted mean paleointensity ; VDMc

3047 205 C-TP50A -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ T 6 30.5 197.0 243 4.6 3 10.3 0.9 9 2.4 Volcanic Basalt Lava Flow weighted mean paleointensity ; VDMc

3048 205 C-TP51B -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ T 4 37.3 197.2 295 6.2 1 16.3 3.6 Volcanic Basalt Lava Flowweighted mean paleointensity ; VDMc

3049 205 C-TP54A -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ T 7 -36.2 208.6 165 4.8 4 11.6 1.7 15 2.6 Volcanic Basalt Lava Flowweighted mean paleointensity ; VDMc

3050 205 C-TP57B -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ T 6 23.3 199.9 77 7.8 3 27.3 1.3 5 6.6 Volcanic Basalt Lava Flowweighted mean paleointensity ; VDMc

3051 205 C-TP58 -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ T 11 39.3 197.1 105 4.5 2 21.4 2.4 11 4.6 Volcanic Basalt Lava Flow weighted mean paleointensity ; VDMc



3054 205 C-TP61 -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ T 6 37.0 192.7 124 6.0 1 8.1 1.8 Volcanic Basalt Lava Flowweighted mean paleointensity ; VDMc

3055 205 C-TP62 -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ T 6 -4.8 72.4 324 3.7 2 1.2 0.5 42 0.3 Volcanic Basalt Lava Flow weighted mean paleointensity ; VDMc

3056 205 C-TP66 -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ T 6 -14.3 80.6 385 3.4 3 5.7 2.9 51 1.4 Volcanic Basalt Lava Flowweighted mean paleointensity ; VDMc

3057 205 C-TP69 -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ N 6 2.6 358.2 109 6.4 1 15.9 4.1 Volcanic Basalt Lava Flowweighted mean paleointensity ; VDMc

3058 205 C-TP72 -17.8 28.7 14.0 0.1 Estimated age Atlantic Ocean Canary Islands T+ N 6 22.0 1.0 541 2.9 2 16.8 0.4 2 4.1 Volcanic Basalt Lava Flowweighted mean paleointensity ; VDMc




3062 206 Lu03 42.0 119.2 22.5 0.5 K/Ar Asia China T+ N 6 56.3 352.7 2.3 4 22.2 1.5 7 4.0 Volcanic Basalt Lava Flow Ti Poor magnetite ; PSD







3069 207 OT03 35.9 137.5 0.0 0.0 K/Ar Asia Japan T+ N 9 60.4 0.2 4.1 3 33.9 4.4 13 5.8 Sediment Andesite Lava Flow3070 207 OT24 35.9 137.6 0.1 0.0 K/Ar Asia Japan T+ N 7 57.0 358.4 1.4 3 47.3 11.9 25 8.4 Sediment Andesite Lava Flow3071 207 OT33 35.9 137.4 0.1 0.0 K/Ar Asia Japan T+ N 16 63.0 104.2 3.2 2 4.9 0.6 12 0.8 Sediment Andesite Lava Flow3072 207 OT36 35.9 137.5 0.0 0.0 K/Ar Asia Japan T+ N 6 60.0 64.4 4.1 4 40.4 2.9 7 6.6 Sediment Andesite Lava Flow3073 207 OT37 35.9 137.5 0.1 0.0 K/Ar Asia Japan T+ N 6 71.5 342.5 5.0 1 25.4 3.8 Sediment Andesite Lava Flow3074 208 1955 Kilauea 19.4 -155.3 0.0 Historic Atlantic Ocean Hawaii T+ 10 33.8 3.7 11 Volcanic Plagioclase crystal First study from plagioclase crystals

3075 209 Rajmahal - Lilitari RM02 25.1 87.4 114.5 1.5 Asia India T+ N 5 -54.8 314.4 484 3.5 6 72.9 11.3 16 11.8 Volcanic Plagioclase crystal Lava Flow3076 209 Rajmahal - Lilitari RM06 25.1 87.4 114.5 1.5 Asia India T+ N 5 -63.3 290.5 577 3.2 3 86.2 12.2 14 14.0 Volcanic Plagioclase crystal Lava Flow3077 209 Rajmahal - Lilitari RM14/15 25.1 87.4 114.5 1.5 Asia India T+ N 10 -64.5 300.5 182 3.6 5 85.8 3.1 4 13.9 Volcanic Plagioclase crystal Lava Flow3078 209 Rajmahal - Lilitari RM16 25.1 87.4 114.5 1.5 Asia India T+ N 5 -62.8 310.5 651 3.0 6 81.5 10.3 13 13.2 Volcanic Plagioclase crystal Lava Flow3079 209 Rajmahal RS07/08 24.4 87.5 114.5 1.5 Asia India T+ N 5 -64.4 300.7 580 2.0 9 77.5 8.0 10 12.6 Volcanic Plagioclase crystal Lava Flow3080 209 Rajmahal RS10 24.4 87.5 114.5 1.5 Asia India T+ N 5 -64.7 306.8 907 2.5 7 87.7 13.5 Volcanic Plagioclase crystal Lava Flow3081 209 Rajmahal RS17 24.1 87.7 114.5 1.5 Asia India T+ N 5 -72.3 319.6 124 6.9 5 64.0 6.6 10 10.3 Volcanic Plagioclase crystal Lava Flow3082 210 HSDP2-001 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 34.0 6 7.6 Volcanic Basalt Chilled margin VADM3083 210 HSDP2-001 19.7 204.9 538.0 Interpolated ages Pacific Ocean Hawaii T+ 3 34.0 6 7.6 Volcanic Basalt Chilled margin VADM3084 210 HSDP2-002 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 44.6 21 9.9 Volcanic Basalt Chilled margin VADM3085 210 HSDP2-003 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 21.4 22 4.8 Volcanic Basalt Chilled margin VADM3086 210 HSDP2-006 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 29.1 11 6.5 Volcanic Basalt Chilled margin VADM



3087 210 HSDP2-009 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 2 21.6 0 4.8 Volcanic Basalt Chilled margin VADM3088 210 HSDP2-010 19.7 204.9 0.6 Interpolated ages Pacific Ocean Hawaii T+ 4 31.7 4 7.0 Volcanic Basalt Chilled margin VADM3089 210 HSDP2-012 19.7 204.9 0.4 Interpolated ages Pacific Ocean Hawaii T+ 3 32.6 4 7.2 Volcanic Basalt Chilled margin VADM3090 210 HSDP2-013 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 27.5 3 6.1 Volcanic Basalt Chilled margin VADM3091 210 HSDP2-014 19.7 204.9 0.4 Interpolated ages Pacific Ocean Hawaii T+ 2 19.6 26 4.4 Volcanic Basalt Chilled margin VADM3092 210 HSDP2-015 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 2 32.2 4 7.2 Volcanic Basalt Chilled margin VADM3093 210 HSDP2-018 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 20.9 21 4.6 Volcanic Basalt Chilled margin VADM3094 210 HSDP2-021 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 32.1 3 7.1 Volcanic Basalt Chilled margin VADM3095 210 HSDP2-024 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 2 28.4 1 6.3 Volcanic Basalt Chilled margin VADM3096 210 HSDP2-025 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 37.7 21 8.4 Volcanic Basalt Chilled margin VADM3097 210 HSDP2-026 19.7 204.9 0.6 Interpolated ages Pacific Ocean Hawaii T+ 3 35.3 7 7.8 Volcanic Basalt Chilled margin VADM3098 210 HSDP2-030 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 25.8 9 5.7 Volcanic Basalt Chilled margin VADM3099 210 HSDP2-032 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 33.5 9 7.4 Volcanic Basalt Chilled margin VADM3100 210 HSDP2-033 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 35.4 14 7.9 Volcanic Basalt Chilled margin VADM3101 210 HSDP2-034 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 32.6 10 7.2 Volcanic Basalt Chilled margin VADM3102 210 HSDP2-035 19.7 204.9 0.4 Interpolated ages Pacific Ocean Hawaii T+ 4 19.3 18 4.3 Volcanic Basalt Chilled margin VADM3103 210 HSDP2-038 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 40.0 42 8.9 Volcanic Basalt Chilled margin VADM3104 210 HSDP2-039 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 40.7 26 9.0 Volcanic Basalt Chilled margin VADM3105 210 HSDP2-040 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 40.0 42 8.9 Volcanic Basalt Chilled margin VADM3106 210 HSDP2-047 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 2 41.6 15 9.2 Volcanic Basalt Chilled margin VADM3107 210 HSDP2-051 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 32.3 9 7.2 Volcanic Basalt Chilled margin VADM3108 210 HSDP2-052 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 37.5 4 8.3 Volcanic Basalt Chilled margin VADM3109 210 HSDP2-053 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 31.1 2 6.9 Volcanic Basalt Chilled margin VADM3110 210 HSDP2-056 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 33.6 8 7.5 Volcanic Basalt Chilled margin VADM3111 210 HSDP2-058 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 32.0 4 7.1 Volcanic Basalt Chilled margin VADM3112 210 HSDP2-059 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 4 31.1 11 6.9 Volcanic Basalt Chilled margin VADM3113 210 HSDP2-061 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 29.3 11 6.5 Volcanic Basalt Chilled margin VADM3114 210 HSDP2-062 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 2 28.0 3 6.2 Volcanic Basalt Chilled margin VADM3115 210 HSDP2-063 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 35.4 14 7.9 Volcanic Basalt Chilled margin VADM3116 210 HSDP2-064 19.7 204.9 0.5 Interpolated ages Pacific Ocean Hawaii T+ 3 32.5 9 7.2 Volcanic Basalt Chilled margin VADM3123 213 Jianguo section JG14-16 42.3 121.9 116.8 3.0 Ar/Ar Asia China T+ R 16 -59.1 189.9 130 3.2 6 27.1 1.3 5 4.7 Volcanic Andesite Lava Flow3124 213 Jianguo section JG17 42.3 121.9 116.8 3.0 Ar/Ar Asia China T+ R 6 -60.9 172.5 110 6.4 3 24.0 0.9 4 4.1 Volcanic Andesite Lava Flow3125 214 Autlan AU3 19.7 104.3 67.4 1.2 K/Ar South America Mexico T+ N 8 43.3 343.2 122 5.1 6 23.7 2.2 9 4.9 Volcanic Mixed Lava Flow3126 214 Autlan AU7 19.7 104.3 67.4 1.2 K/Ar South America Mexico T+ N 8 49.1 346.1 119 6.8 4 27.6 3.5 13 5.4 Volcanic Mixed Lava Flow3127 214 Autlan AU8 19.7 104.3 67.4 1.2 K/Ar South America Mexico T+ N 6 50.7 336.3 63 8.5 2 44.3 3.6 8 8.5 Volcanic Mixed Lava Flow3128 214 Autlan AU9 19.7 104.3 67.4 1.2 K/Ar South America Mexico T+ N 8 39.5 338.4 55 7.5 6 19.9 4.2 21 4.3 Volcanic Mixed Lava Flow3117 211 ODP Site 1203 - 458 76.0 Estimated age Pacific Ocean Mid Oceanic Ridge T+ O 1 11.2 2.0 18 2.1 Volcanic Basalt Chilled margin

Hysteresis parameters ; Low temperature ; TEM Suggestion of partial melting in Cretaceous and Jurassic SBG, resulting in bias low pint values

3118 211 ODP Site 1203 - 465 76.0 Estimated age Pacific Ocean Mid Oceanic Ridge T+ O 1 9.0 0.8 9 1.6 Volcanic Basalt Chilled marginHysteresis parameters ; Low temperature ; TEM Suggestion of partial melting in Cretaceous and Jurassic SBG, resulting in bias low pint values




3122 213 Jianguo section JG13 42.3 121.9 116.8 3.0 Ar/Ar Asia China T+ R 6 -58.5 175.1 191 4.9 3 22.1 1.3 6 3.9 Volcanic Andesite Lava Flow

Eras Period Odin1994

Cenozoic

Quaternary 0

1,75Neogene

23Paleogene

65

Mesozoic

Cretaceous135

Jurassic203

Triassic250

Paleozoic

Permian295

Carboniferous355

Devonian408

Silurian435

Ordovician500

Cambrian540

Vendian

Proterozoic2500

Archean

ROCKGROUP ROCKTYPE ROCKFORM

Igne

ous R

ocks

Volcanic Rocks

Andesite - PorphyriteBasaltDolerite - DiabaseRhyolite - Dacite - IgnimbriteTrachyte

Baked contactChilled marginDomeDykeLava flow NeckPillowPlugSill

BrecciaScoriaTuff

PyroclasticBaked pyroclastic

Plutonic Rocks

AnorthositeDioriteGabbro - NoriteGranite - Granodiorite - GranophyreSyenite

DykeIntrusionSillVein

Metamorphic Rocks AmphiboliteLeptinite

Sedimentary RocksArgilite - Clay - PorcellaniteLoessSandstone - Siltstone

Baked contact

INTMTD PALEOINTENSITY METHODS

HeZ Petrova (Petrova et al., 1979 ; PIDB ref 58) & van Zijl

M Multivectorial method (Yu and Dunlop, 2002 ; PIDB ref 200)

Mpp Perpendicular microwave technique (Hill and Shaw, 1999 ; PIDB ref 174)

ONR NRM/TRM

S Shaw (Shaw, 1974 ; PIDB ref 158)

ST Shaw & Thellier

ST+ Shaw & (Thellier with pTRM checks)

SW Shaw & Wilson

T+ Thellier [(Thellier and Thellier, 1959 ; PIDB ref 75) ; (Coe, 1967with pTRM checks (Prévot et al, 1985 ; PIDB ref 56)

T- Thellier (or Coe) without pTRM checks

Tv Thellier corrected according to Valet (Valet et al., 1996 ; PIDB ref 142)

TZ Thellier & van Zijl

W Wilson (Wilson, 1961 ; PIDB ref 80)

WB Wilson-Burakov (Burakov, 1978 ; PIDB ref 215)

WZ Wilson & van Zijl

DATA REF LOOK-UP TABLES

REFNO Reference number REFNO InformationDATANO Data number AUTHORS Timescale Odin 1994IDENT Identification YEAR AuthorsSLAT Site latitude (decimal °) TITLE Journals

Site SLONG Site longitude (decimal °) JOURNAL ContinentsCONTINENT Continental or oceanic plate VOLUME CountriesCOUNTRY Country or island PAGES Rock typesROCKGROUP Rock group Age methods

Rocks ROCKTYPE Rock type Intensity methodsROCKFORM Rock formation VersionAGE Numerical age

Age DAGE Error on ageAGEMTD Method of age determinationNDIR Number of specimens for directionINC Inclination of the mean direction

Direction DEC Declination of the mean directionK Fisher precision parameter A95 Fisher 95° circle of confidence USER INTERFACES POL PolarityINTMTD Paleointensity method (see Table 2) Main MenuNINT Number of specimens for intensity Data Selection Form

Intensity F Paleointensity (in µT) Main FormDF Error on F (in µT) Data for a given reference or authorDF% Error on F (in %)VDM Virtual dipole moment (1022 Am2)ROCKMAG Rock magnetic informationCOMMENTS Comments ; Related references …

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