Home
Joachim Jacobs's picture

Joachim Jacobs

Professor, Structural geology and tectonics
  • E-mailJoachim.Jacobs@uib.no
  • Phone+47 55 58 34 32+47 481 27 156
  • Visitor Address
    Allégaten 41
    5007 Bergen
    Room 
    2G13a - 2146
  • Postal Address
    Postboks 7803
    5020 Bergen

Orogen - Passive Margin Systems of western Norway, East Africa and Antarctica

Dronning Maud Land, East Antarctica: integrating geology and geophysics

Thermochronology, fission track analyses and (U-Th)/He dating

Pan-African - Brasiliano mobile belts

Mesoproterozoic supercontinent reconstructions

Geov 104, Introduction to Structural Geology

Geov 251, Advanced Structural Geology

Geov 252, Field mapping techniques, Elba Island

Geov 341, Thermochronology and Tectonics

Peer-reviewed 

111. Wiest, J., Jacobs, J., Fossen, H., Ganerød, M., Osmundsen, P.T., 2021. Segmentation of the Caledonian orogenic infrastructure and exhumation of the Western Gneiss Region during transtensional collapse. Journal Geological Society Londonhttps://doi.org/10.1144/jgs2020-199

110. Wiest, J., Fossen, H., Jacobs, J., 2020. Shear zone evolution during core complex exhumation – Implications for continental detachments. J. Struct. Geol., 140, 104139.

109. Wang, C., Jacobs, J., Elburg, M., Läufer, A., Elvevold, S., 2020. Late Neoproterozoic–Cambrian magmatism in Dronning Maud Land (East Antarctica): U–Pb zircon geochronology, isotope geochemistry and implications for Gondwana assembly. Precambrian Research, 350, 105880.

108. Ruppel, A.S., Jacobs, J., Läufer, A., Ratschbacher, L., Pfänder, J.A., Sonntag, B.-L., Krasniqi, K., Elburg, M., Krohne, N., Damaske, D., Lisker, F., 2020. Protracted late Neoproterozoic - early Palaeozoic deformation and cooling history of Sør Rondane, East Antarctica, from 40Ar/39Ar and U-Pb geochronology. Geological Magazine, DOI: https://doi.org/10.1017/S0016756820000746

107. Wang, C.-C., Jacobs, J., Elburg, M., Läufer, A., Thomas, R.J., Elvevold, S., 2020. Grenville-age continental arc magmatism and crustal evolution in central Dronning Maud Land (East Antarctica): Zircon geochronological and Hf–O isotopic evidence. Gondwana Research, 82, 108-127.

106. Jacobs, J., Mikhalsky, E., Henjes-Kuns, F., Läufer, A., Thomas, R.J., Elburg, M.A., Wang, C.-C., Estrada, S., Skublov, G., 2019. Neoproterozoic geodynamic evolution of easternmost Kalahari:  Constraints from U-Pb-Hf-O zircon, Sm-Nd isotope and geochemical data from the Schirmacher Oasis, East Antarctica. Precambrian Res., 342, 105553.

105. Wiest, J., Osmundsen, P.T., Jacobs, J., Fossen, H., 2019. Deep crustal flow within post-orogenic metamorphic core complexes - Insights from the southern Western Gneiss Region of Norway. Tectonics, 38, 4267-4289.

104. Thomas, R.J., Jacobs, J., Elburg, M.A., Mruma, A., Kamihanda, G., Kankila, A., Masanja, A., Saidi, H., 2019. New U-Pb-Hf zircon isotope data for the Paleoproterozoic  Ubendian belt in the Chimala area, SW Tanzania. Geoscience Frontiers, 10, 1993-2006.

103. Sirevaag, H., Ksienzyk, A.K., Jacobs, J., Dunkl, I., Laeufer, A., 2018. Tectono-thermal evolution and morphodynamics of the central Dronning Maud Land Mountains, East Antarctica, based on new thermochronological data. Geosciences, 8, 390; doi:10.3390/geosciences8110390 

102. Sirevaag, H., Jacobs, J., Ksienzyk, A., Dunkl, I., Marschall, H.R., 2018. Extent, thickness and erosion of the Jurassic continental flood basalts of Dronning Maud Land, East Antarctica: A low-T thermochronological approach. Gondwana Research, 61, 222-243.

101. Ruppel, A., Jacobs, J., Eagles, G., Läufer, A., Jokat, W., 2018. New geophysical data from a key region in East Antarctica: Estimates for the spatial extent of the Tonian Oceanic Arc Super Terrane (TOAST. Gondwana Research, 59, 97-107.

100. Jacobs, J., Paoli, G., Rocchi, S., Ksienzyk, A.K., Sirevaag, H., Elburg, M.A., 2018. Alps to Apennines zircon roller coaster along the Adria microplate margin. Scientific Reports, 8, 2704, DOI:10.1038/s41598-018-20979-w  

99. Wiest, J., Jacobs, J., Ksienzyk, K., Fossen, H., 2018. Sveconorwegian vs. Caledonian orogenesis in the eastern Øygarden Complex, SW Norway – Geochronology, structural constraints and tectonic implications. Precambrian Research, 305, 1-18.

98. Fossen, H., Ksienzyk, A.K., Jacobs, J., 2017. Challenges with dating weathering products to unravel ancient landscapes. Nature Communications, 8: 1502, DOI: 10.1038/s41467-017-01457-9

97. Jacobs, J., Opås, B., Laeufer, A., Estrada, S., Ksienzyk, A.K., Damaske, D., Hofmann, M., 2017. Cryptic sub-ice geology revealed by a U-Pb zircon study of glacial till in Dronning Maud Land, East Antarctica. Precambrian Research, 294, 1-14.

96. Rønnvevik, C., Ksienzyk, A. K., Fossen, H., Jacobs, J., 2017. Thermal evolution and exhumation history of the Uncompahgre Plateau (northeastern Colorado Plateau), based on apatite ssion track and (U-Th)-He thermochronology and zircon U-Pb dating. Geosphere, 13, 1-20.

95. Paoli, G., Stokke, H. H., Rocchi, S.; Sirevaag, H., Ksienzyk, A. K., Jacobs, J., Košler, J., 2017. Basement provenance revealed by U–Pb detrital zircon ages: A tale of African and European heritage in Tuscany, Italy. Lithos, 277, 376-387.

94. Ksienzyk, A. K., Wemmer, K., Jacobs, J., Fossen, H., Schomberg, A. C., Süssenberger, A., Lünsdorf, N. K., Bastesen, E., 2016. Post-Caledonian brittle deformation in the Bergen area, West Norway: results from K–Ar illite fault gouge dating. Norsk Geologisk Tidsskrift, 96, 1-29.

93. Thomas, R.J., Spencer, C., Bushi, A.M., Baglow, N., Boniface, N., de Kock, G., Horstwood, M.S.A., Hollick, L., Jacobs, J., Kajara, S., Kamihanda, G., Key, R.M., Maganga, Z., Mbawala, F., McCourt, W., Momburi, P., Moses, F., Mruma, A., Myambilwa, Y., Roberts, N.M.W., Saidi, H., Nyanda, P., Nyoka, K., Millar, I., 2016. Geochronology of the central Tanzania Craton and its southern and eastern orogenic margins. Precambrian Research, 277, 47-67.

92. Bauer, W., Siemes, H., Spaeth, G., Jacobs, J., 2016. Quartz microfabrics of shear zones of the western orogenic front of the East African/Antarctic Orogen: Result of transpressive deformation? Polar Research, 35, 1-15.

91. Bauer, F., Jacobs, J., Emmel, B., van Soest, M. C., 2016. New (U-Th)/He titanite data from a complex orogen-passive margin system: A case study from northern Mozambique. J. African Earth Sci., 120, 56-69. 

90. Sirevaag, H., Jacobs, J., Ksienzyk, A., Rocchi, S., Paoli, G., Jørgensen, H., Košler, J., 2016. From Gondwana to Europe: the journey of Elba Island (Italy) as recorded by U-Pb detrital zircon ages of Paleozoic metasedimentary rocks. Gondwana Research, 38, 272-288.

89. Roberts, N.M.W., Thomas, R.J., Jacobs, J., 2016. Geochronological constraints on the metamorphic sole of the Semail ophiolite in the United Arab Emirates. Geoscience Frontiers, 7, 609-619.

88. Elburg, M.,  Andersen, T., Jacobs, J., Läufer, A., Ruppel, A., Krohne, N., Damaske, D., 2016. One Hundred Fifty Million Years of Intrusive Activity in the Sør Rondane Mountains (East Antarctica): Implications for Gondwana Assembly. The Journal of Geology, 124, 1-26.

87. Jacobs, J., Elburg, M., Läufer, A., Kleinhanns, I.C., Henjes-Kunst, F., Estrada, S., Ruppel, A., Damaske, D., Montero, P., Bea, F., 2015. Two distinct Late Mesoproterozoic/Early Neoproterozoic basement provinces in central/eastern Dronnning Maud Land, East Antarctica: the missing link, 15-21°E. Precambrian Res., 265, 249-272.

86. Ruppel, A., Läufer,  A., Jacobs, J., Elburg, M., Lucka, N., Damaske, D., Lisker, F.,  2015. The Main Shear Zone in Sør Rondane, East Antarctica: Implications for the late-Pan-African tectonic evolution of Dronning Maud Land. Tectonics, 34, 1290-1305.

85. Ksienyzk, A., Jacobs, J., 2015. Western Australia-Kalahari (WAlahari) connection in Rodinia: Not supported by U/Pb detrital zircon data from the Maud Belt (East Antarctica) adn the Northamton complex (Western Australia). Precambrian Res., 259, 207-221.

84. Jacobs, J., Thomas, R.J., Ksienzyk, A.K., Dunkl, I., 2015. Tracing the Oman Ophiolite to the surface – new fission track and (U-Th)/He data from the Aswad and Khor Fakkan blocks, United Arab Emirates. Tectonophysics, 644-645, 68-80. 

83. Elburg, M., Jacobs, J., Anderson, T., Clark, C., Läufer, A., Ruppel, A., Krohne, N., Damaske, D., 2015. Early Neoproterozoic metagabbro-tonalite-trondhjemite of Sør Rondane (East Antarctica): Implications for supercontinent assembly. Precamb. Res., 259, 189-206.

82. Emmel, B., Kumar, R., Jacobs, J., Ueda, K., van Zuilen, M., Matola, R., 2014. The low-temperature thermochronological record of sedimentary rocks from the central Rovuma Basin (N Mozambique) - Constraints on provenance and thermal history. Gondwana Research, 25, 1216–1229.

81. Ksienzyk, A., Dunkl, I., Jacobs, J., Fossen, H., Kohlmann, F., 2014. From orogen to passive margin: constraints from fission track and (U–Th)/He analyses on Mesozoic uplift and fault reactivation in SW Norway. In: Corfu, F., Gasser, D. & Chew, D. M. (eds) New Perspectives on the Caledonides of Scandinavia and Related Areas. Geological Society, London, Special Publications, 390, doi.org/10.1144/SP390.27

80. Mieth, M., Jacobs, J., Ruppel, A., Damaske, D., Läufer, A., Jokat, W., 2014. New detailed aeromagnetic and geological data of eastern Dronning Maud Land: Implications for refining the tectonic and structural framework of Sør Rondane, East Antarctica. Precambrian Research, 245, 174-185.

79. Thomas, R.J., Bushi, A.M., Roberts, N.M.W., Jacobs, J., 2014. Geochronology of granitic rocks from the Ruangwa region, southern Tanzania – links with NE Mozambique and beyond. Journal of African Earth Sciences, 100, 70-80.

78. Davids, C., Wemmer, K., Zwingmann, H., Kohlmann, F., Jacobs, J., Bergh, S.G., 2013. K–Ar illite and apatite fission track constraints on brittle faulting and the evolution of the northern Norwegian passive margin. Tectonophysics, 608, 196–211.

77. Johannessen, K.C., Kohlmann, F. Ksienzyk, A.K., Dunkl, I., Jacobs, J., 2013: Tectonic evolution of the SW Norwegian passive margin based on low-temperature thermochronology from the innermost Hardangerfjord. Norsk Geologisk Tidsskrift, 93, 242-260.

76. Riedel, S., Jacobs, J., Jokat, W., 2013. Aeromagnetics of Dronning Maud Land and geodynamic implications for Rodinia and Gondwana reconstructions. Tectonophysics, 585, 161-171.

75. Thomas, R.J., Roberts, N.M.W., Jacobs, J., Bushi, A.M., Horstwood, M.S.A., Mruma, A., 2013. Structural and geochronological constraints on the evolution of the eastern margin of the Tanzania Craton in the Mpwapwa area, central Tanzania. Precambrian Research, 224, 671–689.

74. Emmel, B., Boger, S.D., Jacobs, J., Daszinnies, M.C., 2012. Maturity of central Madagascar's landscape — Low-temperature thermochronological constraints. Gondwana Research, 21, 704-713.

73. Ksienzyk, A., Jacobs, J., Boger, S.D., Kosler, J., Sircomb, K.N., Whitehouse, M.J., 2012. U-Pb ages of metamorphic monazite and detrital zircon from the Northampton Complex: evidence of two orogenic cycles in Western Australia. Precambrian Research, 196-197, 275-294.

72. Ueda, K., Jacobs, J., Thomas, R.J., Kosler, J., Horstwood, M.S.A., Wartho, J.-A., Jourdan, F., Emmel, B., Matola, R., 2012. Postcollisional high-grade metamorphism, orogenic collapse, and differential cooling of the East African Orogenof Northeast Mozambique. The Journal of Geology, 120, 507-530.

71. Ueda, K., Jacobs, J., Thomas, R.J., Kosler, J., Jourdan, F., Matola, R., 2012. Delamination-induced late-tectonic deformation and high-grade metamorphism of the Proterozoic Nampula Complex, northern Mozambique. Precambrian Research, 196-197, 275-294.

70. Emmel, B., Kumar, R., Ueda, K., Jacobs, J., Daszinnies, M.C., Thomas, R.J., Matola, R. 2011. Thermochronological history of an orogen-passive margin system: An example from northern Mozambique, Tectonics, doi:10.1029/2010TC002714

69. Boyd, R., Nordgulen, O., Thomas, R.J., Bingen, B., Bjerkgard, T., Grenne, T., Henderson, I., Melezhik, V.A., Often, M., Sandstad, J.S., Solli, A., Tveten, E., Viola, G., Key, R.M., Smith, R.A.,  Gonzalez, E., Hollick, L.J., Jacobs, J., Jamal, D., Motuza, G., Bauer, W., Daudi, E., Feitio, P.,  Manhica, V., Moniz, A.,  Rosse, D., 2010. The geology and geochemistry of the East African Orogen in northeastern Mozambique. S. Afr. J. Geol., 113, 87-129.

68. Macey, P.H., Thomas, R.J., Grantham, G.H., Ingram, B.A., Jacobs, J., Armstrong, R.A., Roberts, M.P., Bingen, B., Hollick, L., de Kock, G.S., Viola, G., Bauer, W., Gonzales, E., Bjerkgard, T., Henderson, I.H.C., Sandstad, J.S., Cronwright, M.S., Harley, S., Solli, A., Nordgulen, O., Motuza, G., Daudi, E., Manhica, V., 2010. Mesoproterozoic geology of the Nampula Block, northern Mozambique: Tracing fragments of Mesoproterozoic crust in the heart of Gondwana. Precambrian Res., 182, 124-148. DOI: 10.1016/j.precamres.2010.07.005.

67. Thomas, R.J., Jacobs, J., Horstwood, M.S.A., Ueda, K., Bingen, B., Matola, R. 2010. The Mecubúri and Alto Benfica Groups, NE Mozambique: aids to unravelling ca. 1 Ga and 0.5 Ga events in the East African Orogen. Precambrian Research, 178, 72-90.

66. Jacobs, J., Bauer, W., Weber, K., Spaeth, G. & Thomas, R.J., 2009. Geology of the Sivorg Terrane, Heimefrontfjella, East Antarctica, and new U-Pb Zircon provenance analyses of metasedimentary rocks. Polarforschung, 79, 11-19.

65. Bauer, W., Jacobs, J., Thomas, R.J., Spaeth, G. & Weber, K., 2009. Geology of the Vardeklettane Terrane, Heimfrontfjella (East Antarctica). Polarforschung, 79, 29-32.

64. Bauer, W., Jacobs, J., Thomas, R.J., Spaeth, G. & Weber, K., 2009. Geology of the Kottas Terrane, Heimfrontfjella (East Antarctica). Polarforschung, 79, 23-28.

63. Bauer, W., Fielitz, W., Jacobs, J. & Spaeth, G., 2009. Neoproterozoic mafic dykes of the Heimfrontfjella (East Antarctica). Polarforschung, 79, 33-38.

62. Jacobs, J., 2009. A review of two decades (1986 – 2008) of geochronological work in Heimefrontfjella, and geotectonic interpretation of western Dronning Maud Land, East Antarctica. Polarforschung, 79, 47-57.

61. Jacobs, J., Bauer, W., Kreutzer, S., Patzelt, G., Schmidt, R., Schulze, P., Siegesmund, S., Spaeth, G., Thomas, R.J., Weber, K., Zarske, G., 2009. Geological map Heimefrontfjella, Dronning Maud Land, Antarctica, scale 1 : 250 000.

60. Emmel, B., Jacobs, J., Daszinnies, M., 2009. Combined titanite and apatite fission-track data from Gjelsvikfjella, East Antarctica: another piece of a concealed intracontinental Permo-Triassic Gondwana rift basin. In: Lisker, F., Ventura, B., Glasmacher, U.A. (eds.): Thermochronological Methods: From Palaeotemperature Constraints to Landscape Evolution Models. Geol. Soc, Lond., Spec. Publ., 324, 317-330.

59. Daszinnies, M., Jacobs, J., Warthoo, J.-A., Grantham, G.H., 2009. Post Pan-African thermo-tectonic evolution of the north Mozambican basement and its implication for the Gondwana rifting. Inferences from 40Ar/39Ar hornblende, biotite and titanite fission-track dating. In: Lisker, F., Ventura, B., Glasmacher, U.A. (eds.): Thermochronological Methods: From Palaeotemperature Constraints to Landscape Evolution Models. Geol. Soc., Lond., Spec. Publ., 324, 261-286.

58. Bingen, B., Jacobs, J., Viola, G, Henderson, I.H.C., Skår, Ø., Boyd, R., Thomas, R.J., Solli, A., Key, R.M., Daudi, E.X.F., 2009. Geochronology of the Precambrian crust in the Mozambique Belt in NE Mozambique, and implications for Gondwana assembly. Precambrian Research, 170, 231-255.

57. Emmel, B., Jacobs, J., Crowhurst, P., Austegard, A. and Schwarz-Schampera, U., 2008. Apatite single-grain (U-Th)/He data from Heimefrontfjella, East Antarctica: Indications for differential exhumation related to glacial loading? Tectonics, 27, TC6010, doi:10.1029/2007TC002220.

56. Emmel, B.,Jönes, N., Kröner, A., Jacobs, J., Wartho, J.-A., Schenk, V., Razakamanana,T.,Austegard, A.,2008. From closure of the Mozambique Ocean to Gondwana breakup: new evidence from geochronological data of the Vohibory Terrane, southwest Madagascar. J. Geology, 116, 21-38.

55. Jacobs, J., Bingen, B., Thomas, R.J., Bauer, W., Wingate, M.T.D., Feitio, P., 2008. Early Paleozoic orogenic collapse and voluminous late-tectonic magmatism in Dronning Maud Land and Mozambique: insights into the partially delaminated orogenic root of the East African-Antarctic Orogen? J. Geol. Soc. Lond. Spec. Publ., 308, 69-90.

54. Jacobs, J., Pisarevsky, S., Thomas, R.J., Becker, T., 2008. The Kalahari Craton during the assembly and dispersal of Rodinia. Precambrian Research, 160, 142-158.

53. Li, Z.X., Bogdanova, S.V., Collins, A.S., Davidson, A., De Waele, B., Ernst, R.E., Fitzsimons, I.C.W., Fuck, R.A., Gladkochub, D.P., Jacobs, J., Karlstrom, K.E., Lu, S., Natapov, L.M., Pease, V., Pisarevsky, S.A., Thrane, K., Vernikovsky, V., 2008. Assembly, configuration, and break-up history of Rodinia: A synthesis. Precambrian Research, 160, 179–210.

52. Emmel, B., Jönes, N., Kröner, A., Jacobs, J., Wartho, J.-A., Schenk, V., Razakamanana,T.,Austegard, A.,2008. From closure of the Mozambique Ocean to Gondwana breakup: new evidence from geochronological data of the Vohibory Terrane, southwest Madagascar. J. Geology, 116, 21-38.

51. Emmel, B., Jacobs, J., Crowhurst, P., Daszinnies, M.C, 2007. Combined apatite fission-track and single grain apatite (U-Th)/He ages from basement rocks of central Dronning Maud Land (East Antarctica) – possible identification of thermally overprinted crustal segments? Earth & Planetary Science Letters, 264, 72-88.


50. Emmel, B., Jacobs, J., Dassinies, M., Razakamanana, T., 2006. The drainage system along the Ranotsara Shear Zone: an inheritance from early Gondwana break-up tectonics? In: Proceedings of the German-Malagasy Research Cooperation in Life and Earth Sciences (eds. Schwitzer, C., Brandt, S., Ramilijaona, O., Rakotomalala Razanahoera, M., Ackermand, D., Razakamanana, T., Ganzhorn, J. U.), pp. 19-28, Concept Verlag, Berlin.

49. Emmel, B., Geiger, M., Jacobs, J.,2006. Detrital apatite fission-track ages in Middle Jurassic strata at the rifted margin of W-Madagascar ? indicator for a protracted resedimentation history. Sedimentary Geology, 186, 27-38.

48. Emmel, B., Jacobs, J., Kastowski, M., Graser, G., 2006. Phanerozoic upper crustal tectono-thermal development of basement rocks from of central Madagascar: an integrated structural and fission-track study. Tectonophysics, 412, 61-86.

47. Bauer, W. & Jacobs, J., 2005. Comment on "A geochronological and geochemical study of rocks from Gjelsvikfjella, Dronning Maud Land, Antarctica?implications for Mesoproterozoic correlations and assembly of Gondwana". Precamb. Res., 138, 177-179

46. Paech, H.-J., Bauer, W., Piazolo, S., Jacobs, J. & Markl, G., 2005. Comparison of the Geology of Central Dronning Maud Land, East Antarctica, with other areas of the Gondwana supercontinent. Geol. Jahrbuch, B97, 309-340.

45. Emmel, B., Jacobs, J., Graser, G., Kastowsky, M. & Razakamanana, T., 2004. Post collisional (<500 Ma) tectono-thermal evolution of Central Madagascar: a combined structural and fission track study. J. Afr. Earth Sci., 38, 343-361

44. Jacobs, J., Bauer, W. & Schmidt, R., 2004. Magnetic susceptibilities of the different tectono-stratigraphic terranes of Heimefrontfjella, western Dronning Maud Land, East Antarctica. Polarforschung, 72, 41-48.

43. Bauer, W., Jacobs, J. & Paech, H.-J., 2004. Structural evolution of the Proterozoic basement of central Dronning Maud Land. Geologisches Jahrbuch, B96, 325-364.

42. Meier,  S., Jacobs, J. & Olesch, M., 2004. Tectono-thermal evolution of the continental margin of central Dronning Maud Land, East Antarctica: apatite fission-track thermochronology. Geologisches Jahrbuch, B96, 423-448.

41. Mikhalsky, E.V. & Jacobs, J., 2004. Orthogneisses from the central Dronning Maud Land: geochemistry and some petrogenetic implications. Geologisches Jahrbuch, B96, 49-76.

40. Bauer, W., Jacobs, J. & Mitterer, T., 2004: Zircon typology in high-grade gneiss terrains – a case study from central Dronning Maud Land (Antarctica). Z. dt. Geol. Ges., 154, 481-495.

39. Jacobs, J., Bauer, W. & Schmidt, R., 2004: Magnetic susceptibilities of the different tectono-stratigraphic terranes of Heimefrontfjella, western Dronning Maud Land, East Antarctica. Polarforschung, 72, 41-48.

38. Jacobs, J. & Thomas, R.J., 2004: A Himalayan-type indenter-escape tectonic model for the southern part of the Late Neoproterozoic/Early Paleozoic East African/Antarctic Orogen. Geology, 32, 721-724.

37. Yoshida, M., Jacobs, J., Santosh, M.and Rajesh, H.M., 2003. Role of Pan-African Events in East Gondwana: A critical overview. In: Yoshida, M., Windley, B.F. & Dasgupta, S (eds.): Proterozoic East Gondwana: Supercontinent Assembly and Breakup. Geol. Soc. Lond., Spec. Publ., 206: 57-75.

36. Jacobs, J., Fanning, C.M., Bauer, W., 2003. Timing of Grenville-age vs. Pan-African medium- to high grade metamorphism in western Dronning Maud Land (East Antarctica) and significance for correlations in Rodinia and Gondwana. Precamb. Res. 125, 1-20.

35. Jacobs, J., Bauer, W., Fanning, C.M., 2003. New age constraints for Grenville-age metamorphism in western central Dronning Maud Land (East Antarctica), and implications for the palaeogeography of Kalahari in Rodinia. Int. J. of Earth Sci., 92, 301-315.

34. Jacobs, J., Bauer, W., Fanning, C.M., 2003. Late Neoproterozoic/Early Palaeozoic events in central Dronning Maud Land and significance for the southern extension of the East African Orogen into East Antarctica. Precamb. Res., 126, 27-53.

33. Bauer, W., Fielitz, W., Jacobs, J., Fanning, C.M., Spaeth, G., 2003. Post-Grenville mafic dykes from Heimefrontfjella (Western Dronning Maud Land/Antarctica). Antarctic Science, 15, 379-391.

32. Bauer, W., Jacobs, J., Fanning, M. & Schmidt, R., 2003. Geochemical constraints for Late Mesoproterozoic arc and back-arc volcanism in the Heimefrontfjella (East Antarctica) and implications for the palaeography at the southeastern margin of the Kaapvaal-Grunehogna Craton. Gondwana Research, 6, 449-465.

31.  Jacobs, J. & Breitkreuz, C., 2003. Zircon and apatite fission-track thermochronology of Late Carboniferous volcanic rocks of the NE German Basin. Int. J. of Earth Sci., 92, 165-172.

30. Bauer, W., Thomas, R.J. & Jacobs, J., 2003. Proterozoic to Cambrian history of central to western Droning Maud Land, SE Africa and surrounding areas in the context of Gondwana assemble. In: Yoshida, M., Windley, B.F. & Dasgupta, S (eds.): Proterozoic East Gondwana: Supercontinent Assembly and Breakup. Geol. Soc. Lond., Spec. Publ., 206, 247-269.

29. Jacobs, J. & Thomas, R.J. 2002. The Mozambique Belt from an East Antarctic perspective. In: Gamble, J. A.; Skinner, D. N. B.; Henrys, S. ed. Antarctica at the close of a millennium. Proceedings of the 8th International Symposium on Antarctic Earth Sciences. Royal Society of New Zealand Bulletin 35, 3-18.

28. Jacobs, J. & Thomas, R.J., 2002. A titanite fission-track profile across the SE Archean Kaapvaal craton and the Mesoproterozoic Natal Metamorphic Province, South Africa: evidence for differential cryptic Meso- to Neoproterozoic tectonism. J. Afr. Earth Sci., 33, 323-333.

27. Jacobs, J., Klemd, R., Fanning, C.M., Bauer, W. & Colombo, F., 2002. Extensional collapse of the Late Neoproterozoic/Early Palaeozoic East African/Antarctic Orogen in central Dronning Maud Land. In: Yoshida, M., Windley, B.F. & Dasgupta, S (eds.): Proterozoic East Gondwana: Supercontinent Assembly and Breakup. Geol. Soc. Lond., Spec. Publ., 206, 271-287.

26. Golynsky, A. & Jacobs, J. 2001. Grenville-age versus Pan-African magnetic anomaly imprints in western Dronning Maud Land, East Antarctica. J. Geology, 109, 136-142.

25. Jacobs, J. & Bauer, 2001. W. Gjelsvikfjella, Mühlig-Hoffmann-Gebirge: Another piece of the East Antarctic Orogen? Z.dt. geol. Ges., 152, 249-259.

24. Jacobs , J. & Lisker, F., 2000. Post Permian tectono-thermal evolution of western Dronning Maud Land, E-Antarctica: an apatite fission-track approach. Antarctic Science, 11, 451-460.

23. Thomas, R.J., Jacobs, J. & Eglington, B.M., 2000. Geochemistry and isotopic evolution of the Mesoproterozoic Cape Meredith Complex, West Falkland. Geol. Magazin, 137, 537-553.

22. Jacobs, J., Thomas, R. J., Armstrong, R. A. & Henjes-Kunst, F., 1999. Age and thermal evolution of the Mesoproterozoic Cape Meredith Complex, West Falkland. J. Geol. Soc. Lond.,156, 917-928.

21. Jacobs, J., 1999. Neoproterozoic/Lower Paleozoic events in central Dronning Maud Land (East Antarctica). Gondwana Research, 2, 473-480.

20. Jacobs, J., Hansen, B.T., Henjes-Kunst, F., Thomas, R.J., Weber, K., Armstrong, R.A. & Cornell, D.H., 1999. New age constraints on the Proterozoic/Lower Paleozoic evolution of Heimefrontfjella, East Antarctica, and its bearing on Rodinia/Gondwana correlations. Terra Antarctica, 6, 377-389.

19. Jacobs, J., Fanning, C. M., Henjes-Kunst, F., Olesch, M. & Paech, H.-J., 1998. Continuation of the Mozambique Belt into East Antarctica: Grenville-age metamorphism and polyphase Pan-African high-grade events in central Dronning Maud Land. The Journal of Geology, 106, 385-406.

18. Thomas, R. J., Henjes-Kunst, F. & Jacobs, J., 1998. Pre-lamprophyre mafic dykes of the Cape Meredith Complex, West Falkland, Falkland Islands. Geological Magazine, 135, 495-500.

17. Wareham, C. D., Pankhurst, R. J., Thomas, R. J., Storey, B. C., Grantham, G. H., Jacobs, J. & Eglington, B. M., 1998. Pb, Nd and Sr isotopic mapping of Grenville-age crustal provinces in Rodinia. The Journal of Geology, 106, 647-659.

16. Grantham, G. H., Storey, B. C., Thomas, R. J. & Jacobs, J., 1997. The pre-break-up position of Haag Nunataks within Gondwana: Possible correlations in Natal and Dronning Maud Land. In: C.A. Ricci (ed.), The Antarctic Region: Geological evolution and processes, pp. 13-20, Terra Antarctica Publication, Siena.

15. Harley, S.L., Hensen, B.J. & Jacobs, J., 1997. Antarctica in the amalgamation of Gondwana, Introduction. In: C. A. Ricci (ed.), The Antarctic Region: Geological evolution and processes, pp. 3-4, Terra Antarctica Publication, Siena.

14. Jacobs, J., Falter, M., Thomas, R.J., Kunz, J. & Jeßberger, E., 1997. 40Ar/39Ar age constraints on the structural evolution of the Mesoproterozoic Natal Metamorphic Province, SE Africa. Precambrian Research, 86, 71-92.

13. Jacobs, J., Falter, M., Weber, K. & Jeßberger, E. K., 1997. 40Ar-39Ar evidence for the structural evolution of the Heimefront Shear Zone (Western Dronning Maud Land), East Antarctica. In: C. A. Ricci (ed.), The Antarctic Region: Geological evolution and processes, pp. 37-44, Terra Antarctica Publication, Siena.

12. Thomas, R. J., Jacobs, J. & Weber, K., 1997. Geology of the Mesoproterozoic Cape Meredith Complex, West Falkland. In: C. A. Ricci (ed.), The Antarctic Region: Geological evolution and processes, pp. 21-30, Terra Antarctica Publication, Siena.

11. Wagner, G.A., Coyle, D.A., Duyster, J., Henjes-Kunst, F., Peterek, A., Schröder, B., Stöckert, B., Wemmer, K., Zulauf, G., Ahrendt, H., Bischoff, R., Hejl, E., Jacobs, J., Menzel, D., Nand Lal, Van den Haute, P., Vercoutere, C. & Welzel, B., 1997. Postvariscan Tectono-thermic Evolution of the KTB-site and its Surroundings. J. Geophys. Res., 102 B, 18221-18232.

10. Jacobs, J., Bauer, W., Spaeth, G., Thomas, R.J. & Weber, K., 1996. Lithology and structure of the Grenville-aged (~1.1 Ga) basement of Heimefrontfjella (East Antarctica). Geol. Rundsch., 85, 800-822.

9. Jacobs, J., Kaul, N. & Weber, K., 1996. Thermal rejuvenation, denudation and resedimentation along the continental margin of western Dronning Maud Land during break-up of Gondwana. In: Storey, B.C., King, E.C. & Livermore, R.A. (eds.). Weddell Sea Tectonics and Gondwana Break-up. Geol. Soc. Lond. Spec. Pub., 108, 191-199.

8. Jacobs, J. & Thomas, R.J., 1996. Geologie des mesoproterozoischen Cape Meredith Complex, West Falkland. Z. geol. Wiss., 24, 599-610.

7. Jacobs, J. & Thomas, R.J., 1996. Pan-African rejuvenation of the 1.1 Ga Natal Metamorphic Province (South Africa). K-Ar muscovite and sphene fission track evidence. J. Geol. Soc. Lond., 153, 971-978.

6. Jacobs, J., Ahrendt, H., Kreutzer, H. & Weber, K., 1995. K-Ar, 40Ar-39Ar and apatite fission track evidence for Neoproterozoic and Mesozoic basement rejuvenation events in the Heimefrontfjella and Mannfallknausane (East Antarctica). Precambrian Research, 75, 251-262.

5. Jacobs, J. & Thomas, R.J. 1994. Oblique collision at 1.1 Ga along the southern margin of the Kaapvaal continent, SE Africa. Geol. Rundsch., 83, 322-333.

4. Thomas, R.J., Cornell, D.H., Moore, J.M. & Jacobs, J., 1994. Crustal evolution of the Namaqua-Natal metamorphic province, southern Africa. S. Afr. J. Geol., 97, 8-14.

3. Jacobs, J., Hejl, E., Van den Haute, P. & Wagner, G.A., 1993. A preliminary tectono-thermal model for the KTB deduced from apatite, zircon and sphene fission-track analysis. KTB-Reports, 2/93, 125-128.

2. Jacobs, J., Thomas, R.J. & Weber, K., 1993. Accretion and indentation tectonics at the southern edge of the Kaapvaal craton during the Kibaran (Grenville) orogeny. Geology, 21, 203-206.

1. Jacobs, J., Hejl, E., Wagner, G.A. & Weber, K., 1992. Apatite fission track evidence for contrasting thermal and uplift histories of metamorphic basement blocks in western Dronning Maud Land.  In: Y. Yoshida, K. Kaminuma & K. Shiraishi (eds. Recent Progress in Antarctic Earth Science. TERRAPUB, Tokyo, 323-330.

Academic article
  • Show author(s) 2021. Tracing the Sveconorwegian orogen into the Caledonides of West Norway: Geochronological and isotopic studies on magmatism and migmatization. Precambrian Research. 1-23.
  • Show author(s) 2020. Shear zone evolution during core complex exhumation – Implications for continental detachments. Journal of Structural Geology.
  • Show author(s) 2020. Protracted late Neoproterozic – early Palaeozoic deformation and cooling history of Sør Rondane, East Antarctica, from 40Ar/39Ar and U–Pb geochronology. Geological Magazine.
  • Show author(s) 2020. Late Neoproterozoic–Cambrian magmatism in Dronning Maud Land (East Antarctica): U–Pb zircon geochronology, isotope geochemistry and implications for Gondwana assembly. Precambrian Research. 1-21.
  • Show author(s) 2020. Grenville-age continental arc magmatism and crustal evolution in central Dronning Maud Land (East Antarctica): Zircon geochronological and Hf-O isotopic evidence. Gondwana Research. 108-127.
  • Show author(s) 2019. Neoproterozoic geodynamic evolution of easternmost Kalahari: Constraints from U-Pb-Hf-O zircon, Sm-Nd isotope and geochemical data from the Schirmacher Oasis, East Antarctica. Precambrian Research. 20 pages.
  • Show author(s) 2019. Deep Crustal Flow Within Postorogenic Metamorphic Core Complexes: Insights From the Southern Western Gneiss Region of Norway. Tectonics. 4267-4289.
  • Show author(s) 2018. Tectono-thermal evolution and morphodynamics of the central dronning maud land mountains, east antarctica, based on new thermochronological data. Geosciences.
  • Show author(s) 2018. New geophysical data from a key region in East Antarctica: Estimates for the spatial extent of the Tonian Oceanic Arc Super Terrane (TOAST). Gondwana Research. 97-107.
  • Show author(s) 2018. New U-Pb-Hf zircon isotope data for the Paleoproterozoic Ubendian belt in the Chimala area, SW Tanzania. Geoscience Frontiers. 15 pages.
  • Show author(s) 2018. Extent, thickness and erosion of the Jurassic continental flood basalts of Dronning Maud Land, East Antarctica: A low-T thermochronological approach. Gondwana Research. 222-243.
  • Show author(s) 2018. Alps to Apennines zircon roller coaster along the Adria microplate margin. Scientific Reports. 1-8.
  • Show author(s) 2017. Thermal evolution and exhumation history of the Uncompahgre Plateau (northeastern Colorado Plateau), based on apatite fission track and (U-Th)-He thermochronology and zircon U-Pb dating. Geosphere. 518-537.
  • Show author(s) 2017. Sveconorwegian vs. Caledonian orogenesis in the eastern Øygarden Complex, SW Norway – Geochronology, structural constraints and tectonic implications. Precambrian Research. 1-18.
  • Show author(s) 2017. Cryptic sub-ice geology revealed by a U-Pb zircon study of glacial till in Dronning Maud Land, East Antarctica. Precambrian Research. 1-14.
  • Show author(s) 2017. Basement provenance revealed by U–Pb detrital zircon ages: A tale of African and European heritage in Tuscany, Italy. Lithos. 376-387.
  • Show author(s) 2016. Transpression and tectonic exhumation in the Heimefrontfjella, western orogenic front of the East African/Antarctic Orogen, revealed by quartz textures of high strain domains :. Polar Research. 1-15.
  • Show author(s) 2016. Post-Caledonian brittle deformation in the Bergen area, West Norway: results from K–Ar illite fault gouge dating. Norsk Geologisk Tidsskrift. 275-299.
  • Show author(s) 2016. One hundred fifty million years of intrusive activity in the Sør Rondane mountains (East Antarctica): Implications for Gondwana assembly. The Journal of geology. 1-26.
  • Show author(s) 2016. New (U-Th)/He titanite data from a complex Orogen–Passive Margin system: A case study from northern Mozambique. Journal of African Earth Sciences. 56-69.
  • Show author(s) 2016. Geochronology of the central Tanzania Craton and its southern and eastern orogenic margins. Precambrian Research. 47-67.
  • Show author(s) 2016. Geochronological constraints on the metamorphic sole of the Semail ophiolite in the United Arab Emirates. Geoscience Frontiers. 609-619.
  • Show author(s) 2016. From Gondwana to Europe: The journey of Elba Island (Italy) as recorded by U–Pb detrital zircon ages of Paleozoic metasedimentary rocks. Gondwana Research. 273-288.
  • Show author(s) 2015. Western Australia-Kalahari (WAlahari) connection in Rodinia: Not supported by U/Pb detrital zircon data from the Maud Belt (East Antarctica) and the Northampton Complex (Western Australia). Precambrian Research. 207-221.
  • Show author(s) 2015. Two distinct Late Mesoproterozoic/Early Neoproterozoic basement provinces in central/eastern Dronning Maud Land, East Antarctica: The missing link, 15-21°E. Precambrian Research. 249-272.
  • Show author(s) 2015. Tracking the Oman Ophiolite to the surface - new fission track and (U-Th)/He data from the Aswad and Khor Fakkan blocks, United Arab Emirates. Tectonophysics. 68-80.
  • Show author(s) 2015. The main shear zone in Sør Rondane, east Antarctica: implications for the late-pan-African tectonic evolution of Dronning Maud Land. Tectonics. 1290-1305.
  • Show author(s) 2015. Early Neoproterozoic metagabbro-tonalite-trondhjemite of Sør Rondane (East Antarctica): Implications for supercontinent assembly. Precambrian Research. 189-206.
  • Show author(s) 2014. The low-temperature thermochronological record of sedimentary rocks from the central Rovuma Basin (N Mozambique) - Constraints on provenance and thermal history. Gondwana Research. 1216-1229.
  • Show author(s) 2014. New detailed aeromagnetic and geological data of eastern Dronning Maud Land: Implications for refining the tectonic and structural framework of Sør Rondane, East Antarctica. Precambrian Research. 174-185.
  • Show author(s) 2014. Geochronology of granitic rocks from the Ruangwa region, southern Tanzania - Links with NE Mozambique and beyond. Journal of African Earth Sciences. 70-80.
  • Show author(s) 2014. From orogen to passive margin: Constraints from fission track and (U-Th)/he analyses on mesozoic uplift and fault reactivation in SW Norway. Geological Society Special Publication. 679-702.
  • Show author(s) 2013. Tectonic evolution of the SW Norwegian passive margin based on low-temperature themochronology from the innermost Hardangerfjord area. Norsk Geologisk Tidsskrift. 243-260.
  • Show author(s) 2013. Structural and geochronological constraints on the evolution of the eastern margin of the Tanzania Craton in the Mpwapwa area, central Tanzania. Precambrian Research. 671-689.
  • Show author(s) 2013. K-Ar illite and apatite fission track constraints on brittle faulting and the evolution of the northern Norwegian passive margin. Tectonophysics. 196-211.
  • Show author(s) 2013. Interpretation of new regional aeromagnetic data over Dronning Maud Land (East Antarctica). Tectonophysics. 161-171.
  • Show author(s) 2012. U-Pb ages of metamorphic monazite and detrital zircon from the Northampton Complex: evidence of two orogenic cycles in Western Australia. Precambrian Research. 37-50.
  • Show author(s) 2012. Postcollisional high-grade metamorphism, orogenic collapse, and differential cooling of the East African orogen of Northeast Mozambique. The Journal of geology. 507-530.
  • Show author(s) 2012. Maturity of central Madagascar's landscape - Low-temperature thermochronological constraints. Gondwana Research. 704-713.
  • Show author(s) 2012. Delamination-induced late tectonic deformation and high-grade metamorphism of the Proterozoic Nampula Complex, northern Mozambique. Precambrian Research. 275-294.
  • Show author(s) 2011. Thermochronological history of an orogen-passive margin system: An example from northern Mozambique. Tectonics. 21 pages.
  • Show author(s) 2010. The geology and geochemistry of the East African Orogen in northeastern Mozambique. South African Journal of Geology. 87-129.
  • Show author(s) 2010. The Mecuburi and Alto Benfica groups, NE Mozambique: aids to unravelling ca. 1 and 0.5 Ga events in the East African Orogen. Precambrian Research. 72-90.
  • Show author(s) 2010. Mesoproterozoic geology of the Nampula Block, northern Mozambique: Tracing fragments of Mesoproterozoic crust in the heart of Gondwana. Precambrian Research. 124-148.
  • Show author(s) 2009. Two decades of geological mapping and research in Heimefrontfjella, Dronning Maud Land, Antarctica. Polarforschung. 1-2.
  • Show author(s) 2009. Post Pan-African thermo-tectonic evolution of the north Mozambican basement and its implication for the Dondwana rifting. Inferences from 40Ar/39Ar hornblende, biotite and titanite fission-track dating. Geological Society Special Publication. 261-286.
  • Show author(s) 2009. Neoproterozoic mafic dykes of the Heimefrontfjella (East Antarctica). Polarforschung. 33-38.
  • Show author(s) 2009. Geology of the Vardeklettane Terrane, Heimefrontfjella (East Antarctica). Polarforschung. 29-32.
  • Show author(s) 2009. Geology of the Sivorg Terrane, Heimefrontfjella (East Antarctica), and new U-Pb Zircon provenance analyses of metasedimentary rocks. Polarforschung. 11-19.
  • Show author(s) 2009. Geology of the Kottas Terrane, Heimefrontfjella (East Antarctica). Polarforschung. 23-28.
  • Show author(s) 2009. Combined titanite and apatite fission-track data from Gjelsvikfjella, East Antarctica – another piece of a concealed intracontinental Permo-Triassic Gondwana rift basin? Geological Society Special Publication. 317-330.
  • Show author(s) 2009. A review of two decades (1986 – 2008) of geochronological work in Heimefrontfjella, and geotectonic interpretation of western Dronning Maud Land, East Antarctica. Polarforschung. 47-57.
  • Show author(s) 2009. A note on the discovery of two new nunataks in southernmost Heimefrontfjella. Polarforschung. 21-22.
  • Show author(s) 2008. From closure of the Mozambique Ocean to Gondwana breakup: New evidence from geochronological data of the Vohibory terrane, southwest Madagascar. The Journal of geology. 21-38.
  • Show author(s) 2008. Assembly, configure-ation, and break-up history of Rodinia: A synthesis. Precambrian Research. 179-210.
  • Show author(s) 2008. Assembly, configuration, and break-up history of Rodinia: A synthesis. Precambrian Research. 179-210.
  • Show author(s) 2008. Apatite single-grain (U-Th)/He data from Heimefrontfjella, East Antarctica: Indications for differential echumation related to glacial loading? Tectonics.
  • Show author(s) 2007. Combined apatite fission-track and single grain apatite (U-Th)/He ages from basement rocks of central Dronning Maud Land (East Antarctica) - Possible identification of thermally overprinted crustal segments? Earth and Planetary Science Letters. 72-88.
  • Show author(s) 2006. Phanerozoic upper crustal tectono-thermal development of basement rocks from central Madagascar: An integrated fission-track and structural study. Tectonophysics. 61-86.
  • Show author(s) 2006. Detrital apatite fission-track ages in Middle Jurassic strata at the rifted margin of W-Madagascar ? indicator for a protracted resedimentation history. Sedimentary Geology. 27-38.
Report
  • Show author(s) 2007. The Nampula Province. In: Nordconsult-Consortium, 2007: Mineral resources management capacity building project, Republic of Mozambique, Component 2: Geological infrastructure development project, Geological Mapping Lot 1,. .
Lecture
  • Show author(s) 2013. Pan-African granitoid magmatism in central Dronning Maud Land derived from a mantle source, not a lower crustal source: evidence from geochemical and Sr-Nd istope signatures.
  • Show author(s) 2013. New constraints on the structural evolution of East Antarctica: the main shear zone of Sør Rondane, eastern Dronning Maud Land.
  • Show author(s) 2013. Neoproterozoic/Lower Palaeozoic geodynamic evolution of Dronning Maud Land: integrating geology and geophysics.
  • Show author(s) 2013. Neoproterozoic/Lower Palaeozoic geodynamic evolution of Dronning Maud Land: integrating geology and geophysics.
  • Show author(s) 2013. Geochronological and geochemical constraints on the position of the Sør Rondane Mountains within East Antarctica.
  • Show author(s) 2013. Blue ice moraine gypsum, Sør Rondane, East Antarctica.
Popular scientific lecture
  • Show author(s) 2008. Geologi i Sotraområde: fjellkjededannelse, riftdannselse og forkastninger.
Academic lecture
  • Show author(s) 2021. The brittle architecture of the Sognefjord-Nordfjord area, Western Norway .
  • Show author(s) 2021. Structural framework and the timing of landscape-forming faults - a study from Western Norway.
  • Show author(s) 2020. Glacial erosion estimates for the Dronning Maud Land Mountains, based on low-temperature thermochronology.
  • Show author(s) 2019. United plates of Dronning Maud Land – East Antarctica: new insights by integrating geology & geophysics.
  • Show author(s) 2019. Shearing, folding and retrogression during exhumation of the southernmost culmination of the Western Gneiss Region, Gulen, SW Norway.
  • Show author(s) 2019. Proterozoic evolution of central Dronning Maud Land (East Antarctica) from Rodinia to Gondwana.
  • Show author(s) 2019. Proterozoic Evolution of Central Dronning Maud Land (East Antarctica) from Rodinia to Gondwana.
  • Show author(s) 2019. Post-orogenic exhumation of metamorphic core complexes in the SW Scandinavian Caledonides – A comparison of structures and processes.
  • Show author(s) 2019. Orogenic evolution of the Grenville-age Maud Belt (East Antarctica) during Rodinia assembly: New insights from zircon U-Pb geochronology and Hf-O isotope geochemistry.
  • Show author(s) 2019. Neoproterozoic geodynamic evolution of easternmost Kalahari: Constraints from new U-Pb-Hf-O zircon and Sm-Nd isotope data of basement rocks from the Schirmacher Oasis, East Antarctica.
  • Show author(s) 2019. Aerogeophysical survey over the Forster Magnetic Anomaly and its implications for revealing the tectonic evolution of central Dronning Maud Land.
  • Show author(s) 2019. Achievements and aspirations of AWI airborne geophysics in Antarctica.
  • Show author(s) 2017. The tectonomagmatic evolution of the eastern Øygarden Complex, Bergen, SW Norway.
  • Show author(s) 2016. Uplift and faulting of the Utsira High basement: evidence from low-T thermochronology.
  • Show author(s) 2016. Post-Caledonian fault activity in W-Norway: onshore and offshore don’t match – or do they?
  • Show author(s) 2016. From Gondwana to Europe: the journey of Elba Island (Italy) as recorded by U-Pb detrital zircon ages of Paleozoic metasedimentary rocks.
  • Show author(s) 2016. Constraining the extent, thickness and erossional history of the Jurassic continental flood basalts of western Dronning Maud Land Mountains, East Antarctica: evidence from low-T thermochronology.
  • Show author(s) 2016. Comparing offshore and onshore thermal histories: low-T thermochronology of the Utsira High, western Norway.
  • Show author(s) 2015. The journey of Tuscan basement blocks from Gondwana to Europe as recorded by U-Pb dating of detrital zircons.
  • Show author(s) 2015. The geology and geochronology of a Tonian Oceanic Arc Super Terrane (TOAST) in Eastern Dronning Maud Land.
  • Show author(s) 2015. The WEGAS / GEA IV Geophysical Survey in eastern and southern Dronning Maud Land.
  • Show author(s) 2015. Preliminary observations from the WEGAS / GEA IV survey in Eastern and Southern Dronning Maud Land.
  • Show author(s) 2015. Pan-African strike-slip tectonics in the Sør Rondane region, Dronning Maud Land, and lateral extrusion of the East African-Antarctic Orogen.
  • Show author(s) 2015. Pan-African strike-slip tectonics and combined 21 aerogeophysical data as indicator for lateral extrusion of the
East African–Antarctic orogen, East Antarctica.
  • Show author(s) 2015. Nature and extent of a Tonian Oceanic Arc Super Terrane (TOAST) in eastern Dronning Maud Land: integrating geology and geophysics.
  • Show author(s) 2015. Lateral extrusion at the Eastern margin of the East African-Antarctic Orogen in Dronning Maud Land.
  • Show author(s) 2015. Keweenawan and Grenvillian (?) Magmatism followed by Pan African collision in the Recovery Frontier of East Antarctica.
  • Show author(s) 2015. Geodynamic evolution of eastern Dronning Maud Land based on research highlights from an international geological-geophysical approach.
  • Show author(s) 2015. First thermochronological results from Sør Rondane, 15 Antarctica and implications on regional exhumation.
  • Show author(s) 2015. East Antarctica and supercontinent configuration: the Dronning Maud Land perspective.
  • Show author(s) 2015. Dating fault activity in SW Norway: K/Ar analyses of illite from fault gouges.
  • Show author(s) 2013. The effect of North Sea and North Atlantic rifting on onshore SW Norway: evidence from low-temperature thermochronology.
  • Show author(s) 2013. The basement of the Utsira High: U/Pb, (U-Th)/He and fission track thermochronology.
  • Show author(s) 2013. The Eidfjord area revised: new thermochronological constraints on the exhumation history of central southern Norway.
  • Show author(s) 2013. Insights into the post-Caledonian tectonic history of W Norway using geochronology and thermochronology – recent results.
  • Show author(s) 2013. Exhumation history along the Hardangerfjord Shear Zone – new insights from combined (U-Th)/He and fission track analysis.
  • Show author(s) 2012. Late Caledonian orogenic collapse and Permian-Mesozoic rifting: dating onshore faults in SW Norway with low-temperature thermochronological methods.
  • Show author(s) 2012. Geodynamic Evlution of East Antarctica, GEA I + II: Geological expedition to Sør Rondane and adjacent areas, Eastern Dronning Maud Land, austral summers 2010/11 and 2011/12.
  • Show author(s) 2012. Exhumation history of the Norwegian margin in the Hardangerfjord Area, SW Norway.
  • Show author(s) 2012. Constraining the exhumation history of the Norwegian North Sea rift margin through low-temperature thermochronological data from the Hardnagerfjord area, SW Norway.
  • Show author(s) 2012. Constraining the exhumation history of the Norwegian North Sea rift margin through low-temperature thermochronological data from the Hardangerfjord area, SW-Norway.
  • Show author(s) 2011. The age of post-Caledonian faulting and its effect on the distribution of apatite fission track and (U-Th)/He ages in the Bergen area (SW Norway).
  • Show author(s) 2011. Provenance study of the basement and structural analysis of the Eastern Elba fold and thrust belt.
  • Show author(s) 2011. Low-Temperature Thermochronology of the Mesozoic Uplift History in the Hardangerfjord Area, SW Norway.
  • Show author(s) 2011. Constraining the exhumation of the Norwegian passive margin through low-temperature thermochronological data from the Sognefjord-Hardangerfjord regions, SW-Norway.
  • Show author(s) 2010. Thermochronological data from northern Mozambique - an example for the cooling history of an orogen-passive margin system.
  • Show author(s) 2010. Pull-apart rifting and exhumation history along the east African continental margin of northern Mozambique: New thermochronological data.
  • Show author(s) 2010. Post-Caledonian fault activity in the Bergen area (south- western Norway): New insights from low-temperature thermochronology.
  • Show author(s) 2010. Late-stage orogenic deformation and possible mantle lithosphere removal - an examination of the East-African Antarctic Orogen in northern Mozambique.
  • Show author(s) 2010. Indentor-escape, delamination and orogenic collapse of the ca. 600-500 Ma East African/Antarctic Orogen in Mozambique and Dronning Maud Land (East Antarctica).
  • Show author(s) 2010. Did orogenic collapse control the breakup and rifting of Gondwana? Forward modelling and backwards comparison of a comprehensive multichronometer dataset from the N Mozambique orogen - passive margin system.
  • Show author(s) 2009. Project DELAM: Mid- to lower crustal expression of a partially delaminated orogen root recorded in the East African-Antarctic Orogen of northern Mozambique.
  • Show author(s) 2009. Pan-African granitoid magmatism in Central Dronning Maud land caused by delamination?
  • Show author(s) 2009. Lithospheric controls on emplacement of post-collisional granitoids.
  • Show author(s) 2009. Late-tectonic evolution of the East-African-Antarctic Orogen in Northern Mozambique.
  • Show author(s) 2009. Coupled delamination and indentor-escape tectonics in the southern part of the c. 650-500 Ma East African/Antarctic Orogen.
  • Show author(s) 2009. Coupled delamination and indentor-escape tectonics in the southern part of the C. 650-500 ma East African/Antarctic orogen.
  • Show author(s) 2009. Cambrian post-tectonic granitoid magmatism in the southern East African-Antarctic orogen.
  • Show author(s) 2009. Cambrian post-tectonic granitoid magmatism in northern Madagascar.
  • Show author(s) 2009. African granitoid magmatism in central Dronning Maud Land: comparison of two contrasting emplacement models. A666.
  • Show author(s) 2008. Tectonometa-morphic evolution of the East African-Antarctic Orogen in Northern Mozambique and Dronning Maud Land (East Antarctica).
  • Show author(s) 2008. HPP-07: Late Neopro-terozoic orogenic belts and assembly of Gondwana.
  • Show author(s) 2008. Gondwana assembly: Geochronological and Hf isotope constraints from the East African Orogen in NE Mozambique.
  • Show author(s) 2008. Gondwana assembly: Geochronological and Hf isotope constraints from the East African Orogen in NE Mozambique.
  • Show author(s) 2008. Denudation in southern Malawi and northern Mozambique: indications of the long-term tectonic segmentation of East Africa during Gonwana break-up.
  • Show author(s) 2007. Pan-African granulites of central Dronning Maud Land and Mozambique - a comparison within the East-African-Antarctic Orogen.
  • Show author(s) 2007. New age constraints for orogenic collapse and voluminous late-tectonic magmatism in the southern part of the East African-Antarctic Orogen.
  • Show author(s) 2007. East African-Antarctic Orogen and initial Gondwana break-up: the role of structural inheritance during East Africa's passive margin formation.
  • Show author(s) 2007. Crustal architecture of the Mozambique Belt in northeastern Mozambique: perspective from U-Pb geochronology and Lu-Hf isotopes in zircon.
  • Show author(s) 2005. The drainage system along the Ranotsara Shear Zone: an inheritance from early Gondwana break-up tectonics?
  • Show author(s) 2005. Structural evolution in N Mocambique - Milange, Mocuba and Insaca-Gurue sheets.
  • Show author(s) 2005. Karoo age rift flank uplift and its implication for Gondwana rifting: constraints form 40Ar/39Ar hornblende, biotite and tianite fission track analyses in northern Mozambique.
  • Show author(s) 2005. Geochronology of Pan-African terrain assembly in the NE Mozambique.
  • Show author(s) 2005. Crustal architecture in Northern Mozambique: results from a regional bedrock mapping project.
  • Show author(s) 2005. Combined apatite fission-track and single grain apatite (U-Th)/He ages from basement rocks – a method to indentify thermal overprinted crustal segments in Dronning Maud Land (East Antarctica).
  • Show author(s) 2005. A new tectonic framework for northern Mozambique.
  • Show author(s) 2005. A Himalayan-type indenter-escape tectonic model for the southern part of the Late Neoproterozoic/Early Paleozoic East African-Antarctic Orogen.
  • Show author(s) 2005. A Himalayan-type indenter-escape tectonic model for the southern part of the Late Neoproterozoic/Early Paleozoic East African-Antarctic Orogen.
Other product
  • Show author(s) 2009. map of Heimefrontfjella, Dronning Maud Land, Antarctica (Scale 1:250,000).
  • Show author(s) 2008. Geological map XU-Fjella, Heimefrontfjella, Dronning Maud Land, Antarctica, 1:25000.
  • Show author(s) 2008. Geological map Hanssonhorna, Heimefrontfjella, Dronning Maud Land, Antarctica, 1:25000.
Editorial
  • Show author(s) 2009. How not to build a supercontinent: A reply to JDA Piper. Precambrian Research. 208-214.
Non-fiction book
  • Show author(s) 1993. Syntax: An International Handbook of Contemporary Research. Walter de Gruyter (De Gruyter).
Letter to the editor
  • Show author(s) 2017. Correspondence: Challenges with dating weathering products to unravel ancient landscapes. Nature Communications. 1-3.
Doctoral dissertation
  • Show author(s) 2019. Late Paleozoic – Cenozoic tectono-thermal evolution of a glaciated passive margin, based on low-temperature thermochronology from Dronning Maud Land, East Antarctica.
Academic chapter/article/Conference paper
  • Show author(s) 2008. Early Paleozoic orogenic collapse and voluminous late-tectonic magmatism in Dronning Maud Land and Mozambique: insights into the partially delaminated orogenic root of the East African-Antarctic Orogen? 22 pages.
Abstract
  • Show author(s) 2009. The dawn and destruction of Gondwana - Isotopic record from Antarctica and Mozambique. Geochimica et Cosmochimica Acta. A707-A707.
  • Show author(s) 2009. Pan-African granitoid magmatism in central Dronning Maud Land: Comparison of two contrasting emplacement models. Geochimica et Cosmochimica Acta. A666-A666.
Poster
  • Show author(s) 2020. Ductile to brittle structural framework of the Nordfjord area, Western Norway.
  • Show author(s) 2019. Topographic evolution of western Norway: a multi-method approach.
  • Show author(s) 2019. Late Neoproterozoic‒Early Paleozoic deformation and cooling of Sør Rondane and implications for the final assembly of Gondwana: Evidence from 40Ar/39Ar and U-Pb geochronology.
  • Show author(s) 2019. Ductile structures in basement windows of the SW Scandinavian Caledonides and their potential for brittle reactivation.
  • Show author(s) 2019. Decoding signs of Precambrian and Pan-African age tectonics between the Recovery Frontier and western Dronning Maud Land in East Antarctica.
  • Show author(s) 2018. Crustal structure and post-collisional exhumation of the Øygarden Complex, SW Norway Caledonides.
  • Show author(s) 2015. Western Australia-Kalahari (WALAHARI) connection in Rodinia: not supported by U/Pb detrital zircon data from the Maud Belt (East Antarctica) and the Northampton Complex (Western Australia).
  • Show author(s) 2015. Tracing the evolution of an orogen passive margin system by apatite and titanite (U-Th)/He data.
  • Show author(s) 2015. Thermal and exhumation history of the Sognefjord area, constraints from low-temperature-thermochronology.
  • Show author(s) 2015. The East African – Dronning Maud Land Orogen – Passive Margin System.
  • Show author(s) 2015. Review of the low-temperature thermochronological data from the Dronning Maud Land Mountains, East Antarctia.
  • Show author(s) 2015. Recent Development of the low-temperature thermal history of the Dronning Maud Land Mountains - evidence from (U-Th)/He dating.
  • Show author(s) 2015. New apatite fission track and (U-Th)/He ages from the Rogaland area: Mesozoic reactivation of brittle structures.
  • Show author(s) 2014. Thermochronology of the Uncompahgre Plateau and La Sal Mountains: new apatite fission track, (U-Th)/He and zircon U/Pb data.
  • Show author(s) 2014. Thermochronological data from the Dronning Maud Land Mountains - a review.
  • Show author(s) 2014. The Norwegian continental margin : Exhumation history and landscape evolution applying low-temperature thermochronology.
  • Show author(s) 2014. Low-temperature thermochronology in East Africa.
  • Show author(s) 2014. Low-temperature thermochronology data in East Africa: a review.
  • Show author(s) 2013. Timing of brittle deformation associated with the Nordfjord-Sogn Detachment Zone: preliminary results from K/Ar illite dating.
  • Show author(s) 2013. The Main Shear Zone in Sør Rondane: A key feature for reconstructing the geodynamic evolution of East Antarctica.
  • Show author(s) 2012. Post-Caledonian orogenic collapse and continental rifting in south-western Norway: constraints from low-temperature thermochronology.
  • Show author(s) 2012. Post-Caledonian onshore exhumation history of Troms, northern Norway, as constrained by K-feldspar 40Ar/39Ar and apatite fission track thermochronology.
  • Show author(s) 2011. Thermochronology and Tectonics at the Department of Earth Science, University of Bergen.
  • Show author(s) 2011. Mesozoic uplift history and fault reactivation in the Hardangerfjord area, SW Norway.
  • Show author(s) 2010. Post-Caledonian fault activity in the Bergen area (southwestern Norway): New insights from low-temperature thermochronology.
  • Show author(s) 2010. Low temperature thermochronology of the Rovuma transform margin, north Mozambique.
  • Show author(s) 2010. From late orogenic cooling to continental break-up – a fission track record from northern Mozambique.
  • Show author(s) 2009. New apatite fission-track data from the Bergen area (southwestern Norway): Indication for a fault-dissected basin margin?
  • Show author(s) 2009. New U-Pb zircon and monazite ages from the Pinjarra Orogen (Western Australia) and the Maud Belt (East Antarctica): no evidence for a Mesoproterozoic Kalahari-Western Australia connec-tion.
  • Show author(s) 2008. Project DELAM: Mid- to lower crustal expression of a partially delaminated orogen root recorded in the East African-Antarctic Orogen of northern Mozambique.
  • Show author(s) 2008. Palaeoproterozoic to early Palaeozoic granulite-facies metamorphism in the East African Orogen, NE Mozambique.
  • Show author(s) 2008. New U-Pb SIMS ages of monazites and zircon rims: in-situ and inherited metamorphic history of the Mesoproterozoic Northampton Complex (Western Australia).
  • Show author(s) 2008. Detrital zircon ages from the Maud Belt (East Antarctica) and the Pinjarra Orogen (Western Australia): no evidence for a Mesoproterozoic Kalahari-Western Australia connection.
  • Show author(s) 2008. Detailed apatite fission-track studies in the Bergen area (southwestern Norway): Indication for a fault-dissected basin margin?
  • Show author(s) 2007. A comparative provenance study of the late Mesoproterozoic Maud Belt (East Antarctica) and the Pinjarra Orogen (Western Australia): implications for a possible Mesoproterozoic Kalahari-Western Australia connection.
Academic literature review
  • Show author(s) 2009. Geochronology of the Precambrian crust in the Mozambique belt in NE Mozambique, and implications for Gondwana assembly. Precambrian Research. 231-255.
  • Show author(s) 2008. The Kalahari Craton during the assembly and dispersal of Rodinia. Precambrian Research. 142-158.
  • Show author(s) 2008. Assembly, configuration, and break-up history of Rodinia: A synthesis. Precambrian Research. 179-210.
Article in business/trade/industry journal
  • Show author(s) 2019. Geological mapping of Norway's least explored mountains. Fram Forum.

More information in national current research information system (CRIStin)

Geodynamic evolution of Dronning Maud Land, East Antarctica

The East African Orogen-Passive Margin System

Thermochronological evolution of Western Norway

Exhumation history of the Oman Ophiolite