ICAM 1998: Celle, Germany

ICAM 1998: Summary Of Conference, Celle, Germany 

 SUMMARY OF CONFERENCE
(Celle, Germany, October 12-16, 1998)

Steering Committee

• Franz Tessensohn (BGR, Hannover, Germany)
• Georg Kleinschmidt (Deutsche Polargesellschaft, Germany)
• Dieter Fhatterer (AWI, Bremerhaven, Germany)
• Dennis Thurston (BOEM, Anchorage, Alaska, USA)
• Kirill Simakov (RAS, Magadan, Russia)

Organizing Institutions

• Bundesanstalt fh r Geowissenschaften und Rohstoffe (BGR)
• Federal Institute for Geosciences and Natural Resources Hannover
• Deutsche Gesellschaft fh r Polarforschung
• German Society for Polar Research Bremerhaven
• Alfred-Wegener-Institute fh r Polar-und Meeresforschung
• Alfred Wegener Institute for Polar and Marine Research (AWI), Bremerhaven

Local Organization

Bundesanstalt fh r Geowissenschaften und Rohstoff
Stilleweg 2, D-30655 Hannover, Germany
Phone: ++49-511-643 3137 Fax: ++49-511-643 3663
e-mail: geo.polar@bgr.de

• 200 participants from 14 countries
• 15 Technical Sessions
• 142 oral presentations and 70 posters
• Hosted by the Federal Institute for Geosciences and Natural Resources (BGR), the German Society for Polar Research, and the Alfred Wegener Institute for Polar and Marine Research
• Supported by the Russian Academy of Sciences, the University of Alaska Geophysical Institute, and BOEM.
• 220 Abstracts received
• 2 Proceedings Volumes with 67 papers published in AWI’s “Polarforschung”

General Sessions

See the Technical Schedule

• Theme 1: Volcanic Provinces around the Eurasian Basin: Interplay with Tectonism
• Theme 2: Aerogeophysics on the Eurasian Shelves: Signatures and Interpretations
• Theme 3: Plate Boundary Problems in the Laptev Sea Area
• Theme 4: The Lomonosov Ridge: History, Boundaries, Function
• Theme 5: The Barents Shelf and the Eastern Greenland Margin: A Comparison
• Theme 6: Eurekan Tectonism in Canada, North Greenland, West Spitsbergen: Fold Belts Adjacent to Extensional Ocean Basins
• Theme 7: Problems of the Caledonian / Ellesmerian Junction
• Theme 8: Polar Urals, Novaja Zemlya and Taimyr: The Northern Connection of the Uralides
• Theme 9: Hydrocarbon Potential of the Eurasian Margins: Geological and Tectonic Factors
• Theme 10: Metallogenic Provinces in the Circum-Arctic Region
• Theme 11: Cenozoic Sedimentary Archives of the Eurasian Marginal Seas: Sampling, Coring and Drilling Programmes
• Theme 12: Gashydrates and Permafrost, Onshore and Offshore
• Theme 13: The Amerasian Basin and Margins: New Developments and Results
• Theme 14: Circum-Arctic Margins: the Search for Fits and Matches
• Theme 15: Geodynamics of the Arctic Region

Plenary Presentations

• Eurasian Arctic Margin: Earth Science Problems and Research Challenges, I.S. Gramberg, G. Grikurov, V. Ivanov, Eu. Korago, M. Kos'ko, A. Piskarev, Yu. Pogrebitsky & O. Suprunenko
• The Eurasian Basin, T Y. Kristoffersen

Poster sessions covering the above general session topics.

The Arctic region with its deep oceanic basins, its system of narrow ridges and wide and extensive continental margins, is one of the most exciting areas for geological investigations. The oceanic basins are 3000-4000 m deep areas underlain by oceanic crust. The Eurasian Basin as the northernmost part of the Atlantic spreading system and the Amerasian Basin as a rather enigmatic rounded deep hole are surrounded by continents without clearly detectable mid-oceanic ridge and without clear connection to any other major spreading system.

The NansenlGakkel Ridge is a very slow spreading ridge, the slowest section on the entire Atlantic mid-oceanic ridge. The Lomonosov Ridge forms a narrow band of continental crust, obviously split off by spreading processes from the Eurasian shelf between Spitsbergen and the Laptev Sea. The ill-defined enigmatic Alpha Ridge finally may be a major volcanic feature in parts of its total extension.

The continental margins around the Arctic ocean generally comprise comparatively wide shelf areas and contain most of the sedimentary record of the development of the entire region. Major tectonic structures dissect parts of the shelves and, from an Arctic viewpoint, form connections to the outside world.

These structural breaks in the shelf system are the Fram Strait between Barents shelf and Greenland and the Nares Strait between Greenland and Canada. While there is no marine passage at the Laptev Sea, where the present Atlantic mid-oceanic ridge system enters the Eurasian continental shelf in the form of a complicated mosaic of horsts and grabens, there is an overflow rather than a deep structural break at the Bering Strait passage to the Pacific. Several Mesozoic and Palaeozoic mountain belts, the Caledonides, and Uralides and the Ellesmerian and Verkhojansk belts cross the Arctic shelves to end abruptly at the shelf breaks with no obvious continuations. The shelves contain large and deep sedimentary basins with a high potential for hydro-carbon development. Together they may well be regarded as a "giant" petroleum province, although the actual production is still comparatively low.

The whole area is bearing the imprint of the last glacial period in the form of extensive permafrost, partly in submarine form, and related features such as gas hydrates, interesting both as possible energy source as well as a possible climate-influencing factor.

The ICAM conferences, initiated soon after the major political changes in Russia, try to provide a forum for the scientific discussion of all these features. The first conference was organized by a spontaneous move of a government institution and a university in Alaska and the conferences are still borne by scientists rather than being attached to a major international organization.

The Third International Conference on Arctic Margins was held in the medieval town of Celle in northern Germany from October 12-15, 1998. The emphasis of this conference was on the geodynamic evolution of the Arctic region and, in particular, on the geology and geophysics of the margins of the Eurasian Basin.

See the full meeting Summary here.

The ICAM 1998 Proceedings, edited by Norbert W. Roland of the Alfred Wegener Institute and Franz Tessensohn of German Federal Institute for Geosciences and Natural Resources, were published as two special volumes of the Journal Polarforschung (numbers 68 and 69) in 2000 and 2001 by the German Society for Polar Research and Alfred Wegener Institute for Polar and Marine Research.

ICAM 1998: Conference Proceedings 

The ICAM III Proceedings, edited by Norbert W. Roland of the Alfred Wegener Institute and Franz Tessensohn of German Federal Institute for Geosciences and Natural Resources, were published as two special volumes of the Journal Polarforschung (numbers 68 and 69) in 2000 and 2001 by the German Society for Polar Research and Alfred Wegener Institute for Polar and Marine Research.

• Tessensohn, F.; Roland; N. W. (1998) ICAM III Third International Conference on Arctic Margins A Preface. Polarforschung, 68, 1-9
• In memoriam Sergey P. Maschenkov. Polarforschung, 69, 1

Invited

• Gramberg, I. S.; Glebovsky, V. Y.; Grikurov, G. E.; Ivanov, V. L.; Korago, E. A.; Kos´ko, M. K. Maschenkov, S. P.; Piskarev, A. L.; Pogrebitsky, Y. E.; Shipelkevitch, Y. V.; Suprunenko, O. I. (2001) Eurasian Arctic Margin: Earth Science Problems and Research Challenges. Polarforschung, 69, 3-25
• Kristoffersen, Y. (2000) The Eurasia Basin: An Update from a Decade of Geoscientific Research. Polarforschung, 68, 11-18

Theme 1 Magmatic provinces around the Eurasian Basin: interplay with tectonism.

• Estrada, S.; Höhndorf, A.; Henjes-Kunst, F. (2001) Cretaceous/Tertiary Volcanism in North Greenland: the Kap Washington Group. Polarforschung, 69, 17-23
• Grogan, P.; Nyberg, K.; Fotland, B.; Myklebust, R.; Dahlgren, S.; Riis, F. (2000) Cretaceous Magmatism South and East of Svalbard: Evidence from Seismic Reflection and Magnetic Data. Polarforschung, 68, 25-34

Theme 2 Aerogeophysics on the Eurasian shelves: signatures and interpretations.

• Glebovsky, V. Y.; Kovacs, L. C.; Maschenkov, S. P.; Brozena, J. M. (2000) Joint Compilation of Russian and US Navy Aeromagnetic Data in the Central Arctic Seas. Polarforschung, 68, 35-40
• Maschenkov, S. P.; Glebovsky, V. Y; Zayonchek, A. V. (2001) New Digital Compilation of Russian Aeromagnetic and Gravity Data over the North Eurasian Shelf. Polarforschung, 69, 35-39
• Meyer, U.; Damaske, D.; Steinhage, D.; Nixdorf, U.; Miller, H. (2001) First Highlights from NOGRAM´98 - Northern Gravity, Radio Echo Sounding and Magnetics. Polarforschung, 69, 25-33

Theme 3 Plate boundary problems in the Laptev Sea area.

• Drachev, S. S. (2000) Laptev Sea Rifted Continental Margin: Modern Knowledge and Unsolved Questions. Polarforschung, 68, 41-50
• Franke, D.; Hinz, K.; Block, M.; Drachev, S. S.; Neben, S.; Kos`ko, M. K.; Reichert, C.; Roeser, H. A. (2000) Tectonic of the Laptev Sea Region in North-Eastern Siberia. Polarforschung, 68, 51-58
• Paech, H. J.; Prokopiev, A. V.; v. Gosen, W.; Grinenko, O. V.; Smetannikova, L. I.; Belolyubskij, I. N. (2000) New Results of the Moma Rift System and Coeval Structures in Yakutia, Russian Federation. Polarforschung, 68, 59-63
• Piskarev, A. L.; Roeser, H. A.; Hinz, K.; Kos´ko M. K. (1999) Potential Field Studies on the Crustal Structure of the Laptev Sea and the Western Part of the East Siberian Sea. Polarforschung, 69, 41-50
• Sekretov, S. B. (2001) Eurasian Basin - Laptev Sea Geodynamic System: Tectonic and Structural Evolution. Polarforschung, 69, 51-54

Theme 4 The Lomonosov Ridge: history, boundaries, function.

• Kim, B. I.; Verba, V. V.; Poselov, V. A.; Sorokin, M. Y.; Jokat, W. (2000) New Insights in Composition and Structure of the Sedimentary Cover on the Lomonosov Ridge. Polarforschung, 68, 65-70

Theme 5 The Barents shelf and the East Greenland margin: a comparison.

• Buggisch, W.; Bachtadse, V.; Paech, H. J. (2001) Paleomagnetic Investigations in Northeast Greenland and New Data from Devonian(?) and Late Carboniferous Rocks. Polarforschung, 69, 55-64
• Mork, A.; Smelror, M. (2001) Correlation and Non-Correlation of High Order Circum-Arctic Mesozoic Sequences. Polarforschung, 69, 65-72
• Scott, R. A.; Turton, M. A. K. (2001) Mesozoic Tectonic Events in the North Atlantic and Arctic: Stratigraphic Response in an Adjacent Rift-Flank Basin (Sverdrup Basin, Arctic Canada). Polarforschung, 69, 73-83
• Scott, R. A. (2000) Mesozoic-Cenozoic Evolution of East Greenland: Implications of a Reinterpreted Continent-Ocean Boundary Location. Polarforschung, 68, 83-91

Theme 6 Eurekan tectonics in Canada, North Greenland, Spitsbergen: fold belts adjacent to extensional ocean basins.

• Estrada, S. (2000) Basaltic Dykes in the Kap Washington and Frigg Fjord Areas (North Greenland). Polarforschung, 68, 19-23
• Lepvrier, C. (2000) Drift of Greenland and Correlation of Tertiary Tectonic Events in the West Spitsbergen and Eurekan Fold-Thrust Belts. Polarforschung, 68, 93-100
• Lyberis, N.; Manby, G. (2001) The Eurekan Deformation of North and Eastern North Greenland. Polarforschung, 69, 95-106
• Paech, H. J. (2001) The Tertiary and Cretaceous of Spitsbergen and North Greenland: Its Alpine Signature. Polarforschung, 69, 107-115
• Piepjohn, K.; Tessensohn, F.; Harrison, C.; Mayr, U. (2000) Involvement of a Tertiary Foreland Basin in the Eurekan Foldbelt Deformation, NW Coast of Kane Basin, Ellesmere Island, Canada. Polarforschung, 68, 101-110
• Saalmann, K.; Thiedig, F. (2000) Structural Evolution of the Tertiary West Spitsbergen Fold-and-Thrust Belt on Broggerhalvoya, NW-Spitsbergen. Polarforschung, 68, 111-119
• Schack-Pedersen, S. A.; Häkansson, E. (2001) Kronprins Christian Land Orogeny Deformational Styles of the End Cretaceous Transpressional Mobile Belt in Eastern North Greenland. Polarforschung, 69, 117-130
• Tessensohn, F.; Piepjohn, K. (2000) Eocene Compressive Deformation in Arctic Canada, North Greenland and Svalbard and Its Plate Tectonic Causes. Polarforschung, 68, 121-124

Theme 7 Problems of the Caledonian/Ellesmerian junction.

• Frederiksen, K. S. (2000) Evolution of a Late Proterozoic Carbonate Ramp (Ymer O and Andrée Land Groups, Eleonore Bay Supergroup, East Greenland): Response to Relative Sea-Level Rise. Polarforschung, 68, 125-130
• Henriksen, N.; Higgins, A. K. (2000) Early Palaeozoic Basin Development of North Greenland - Part of the Franklinian Basin. Polarforschung, 68, 131-140
• Higgins, A. K.; Soper, N. J.; Leslie, A. G. (2000) The Ellesmerian and Caledonian Orogenic Belts of Greenland. Polarforschung, 68, 141-151
• Jepsen, H. F.; Kalsbeek, F. (2000) Precambrian Evolution of North and North-East Greenland: Crystalline Basement and Sedimentary Basins. Polarforschung, 68, 153-160
• Verba, M. L.; Sakoulina, T. S. (2001) The Reconstruction of the Early Paleozoic Structure of the Barents Sea Sedimentary Basin Inferred from Geophysical Surveys along Profile I-AR. Polarforschung, 69, 85-94

Theme 8 Polar Urals, Novaya Zemlya and Taimyr: The northern connection of the Uralides.

• Gee, D. G.; Beliakova, L.; Pease, V.; Larionov, A.; Dovshikova, L. (2000) New, Single Zircon (Pb-Evaporation) Ages from Vendian Intrusions in the Basement beneath the Pechora Basin, Northeastern Baltica. Polarforschung, 68, 161-170
• Lopatin, B. G.; Pavlov, L. G.; Orgo, V. V.; Shkarubo, S. I. (2001) Tectonic Structure of Novaya Zemlya. Polarforschung, 69, 131-135
• Olovyanishnikov, V. G.; Roberts, D.; Siedlecka, A. (2000) Tectonics and Sedimentation of the Meso- to Neoproterozoic Timan-Varanger Belt along the Northeastern Margin of Baltica. Polarforschung, 68, 267-274
• Pease, V.; Vernikovsky, V. (2000) The Tectono-Magmatic Evolution of the Taimyr Peninsula: Further Constraints from New Ion-Microprobe Data. Polarforschung, 68, 171-178
• Silaev, V. I.; Sokerin, M. Y. (2001) Indications of an Ensimatic Island Arc of the Silurian-Early Devonian Paleo-Ocean in the Polar Urals. Polarforschung, 69, 137-141
• Udoratina, O. V. (2001) Alkali-Metasomatites from the Polar Urals. Polarforschung, 69, 143-148

Theme 9 Hydrocarbon potential of the Eurasian margins: geological and tectonic factors.

• Burlin, Y. K.; Sokolov, B. A. (2001) Russian Arctic Sedimentary Megabasin and Its Reflection in Oil and Gas Properties of Its Borderlands. Polarforschung, 69, 149-154
• Sekretov, S. B. (2000) Petroleum Potential of Laptev Sea Basins: Geological, Tectonic and Geodynamic Factors. Polarforschung, 68, 179-186
• Sekretov, S. B. (2001) Northwestern Margin of the East Siberian Sea: Structure, Sedimentary Basin Development and Hydrocarbon Possibilities. Polarforschung, 69, 155-162

Theme 10 Metallogenic provinces in the circum-Arctic region.

• Gray, J. E.; Gent, C. A.; Snee, L. W. (2000) The Southwestern Alaska Mercury Belt and Its Relationship to the circum-Pacific Metallogenic Mercury Province. Polarforschung, 68, 187-196
• Ivanova, A. M.; Ushakov, V. I.; Cherkashov, G. A.; Smirnov, A. N. (2001) Placer Minerals of the Russian Arctic Shelf. Polarforschung, 69, 163-167
• Prokopiev, A. V.; Fridovsky, V. Y.; Deikunenko, A. V. (2001) Some Aspects of the Tectonics of the Verkhoyansk Fold-and-Thrust Belt (Northeast Asia) and the Structural Setting of the Dyandi Gold Ore Cluster. Polarforschung, 69, 169-176
• Sagir, A. (2001) Ancient Deep Faults, Their Reactivation and Peculiarities under Different Geodynamic Conditions in Eastern Yakutia (Northeast Russia). Polarforschung, 69, 177-184

Theme 11 Cenozoic sedimentary archives of the Eurasian marginal seas: sampling, coring and drilling programmes.

• Andreeva, I.; Kim, B. I.; Kosheleva, V.; Musatov, E.; Petrova, V.; Vanshtein, B.; Yashin, D. (2001) Lithology of Upper Quaternary Veneer and Late Cenozoic Paleogeography of the Laptev Sea Margin. Polarforschung, 69, 185-191
• Fahl, K.; Cremer, H.; Erlenkeuser, H.; Hanssen, H.; Hölemann, J.; Kassens, H.; Knickmeier, K.; Kosobokova, K.; Kunz-Pirrung, M.; Lindemann, F.; Markhaseva, E.; Lischka, S.; Petryashov, V.; Piepenburg, D.; Schmid, M.; Spindler, M.; Stein, R.; Tuschling, K. (2001) Sources and Pathways of Organic Carbon in the Modern Laptev Sea (Arctic Ocean): Implication from Biological, Geochemical and Geological Data. Polarforschung, 69, 193-205
• Jokat, W. (2000) The Sediment Distribution below the North Greenland Continental Margin and the adjacent Lena Trough. Polarforschung, 68, 71-82
• Kosheleva, V.; Yashin, D.; Musatov, E. (2001) On the Volume of Terrigenous Sedimentation in the Laptev Sea. Polarforschung, 69, 207-210
• Polyakova, Y. I. (2001) Late Cenozoic Evolution of Northern Eurasian Marginal Seas Based on the Diatom Record. Polarforschung, 69, 211-220
• Taldenkova, E. (2000) Late Cenozoic Interactions between the Arctic and Pacific Oceans Inferred from Sublittoral Molluscan Faunas - a Review. Polarforschung, 68, 197-206

Theme 12 Gashydrates and permafrost, onshore and offshore.

• Are, F. E.; Reimnitz, E.; Kassens, H. (2000) Cryogenic Processes of Arctic Land-Ocean Interactions. Polarforschung, 68, 207-214
• Chuvilin, E. M.; Yakushev, V. S.; Perlova, E. V. (2000) Gas and Possible Gas Hydrates in the Permafrost of Bovanenkovo Gas Field, Yamal Peninsula, West Siberia. Polarforschung, 68, 215-219
• Delisle, G. (2000) Temporal Variability of Subsea Permafrost and Gas Hydrate Occurrences as Function of Climate Change in the Laptev Sea, Siberia. Polarforschung, 68, 221-225
• Hubberten, H. W.; Romanovskii, N. N. (2000) Onshore and Offshore Permafrost of the Laptev Sea Region during the Last Pleistocene-Holocene Glacial-Eustatic Cycle. Polarforschung, 68, 227-230
• Kholodov, A. L.; Romanovskii, N. N.; Gavrilov, A. V.; Tipenko, G. S.; Drachev, S. S.; Hubberten, H. W.; Kassens, H. (2001) Modeling of the Offshore Permafrost Thickness on the Laptev Sea Shelf. Polarforschung, 69, 221-227
• Reimnitz, E.; Are, F. E. (2000) Coastal Bluff and Shoreface Comparison over 34 Years Indicates Large Supply of Erosion Products to Arctic Seas. Polarforschung, 68, 231-235
• Romanovskii, N. N.; Gavrilov, A. V.; Tumskoy, V. E.; Kholodov, A. L.; Siegert, C.; Hubberten, H. W.; Sher, A. V. (2000) Environmental Evolution in the Laptev Sea Region During Late Pleistocene and Holocene. Polarforschung, 68, 237-245
• Tipenko, G. S.; Romanovskii, N. N.; Kholodov, A. L. (2001) Simulation of the Offshore Permafrost and Gashydrate Stability Zone: Mathematical Solution, Numerical Realization and Preliminary Results. Polarforschung, 69, 229-233

Theme 13 The Amerasian Basin and margins: new developments and results.

• Cecile, M. P.; Lane, L. S.; Khudoley, A. K.; Kos´ko, M. K. (2001) Lower Paleozoic Rocks around Today´s Arctic Ocean: Two Ancestral Continents and Associated Plates; Alaskan Rotation Unnecessary and Unlikely. Polarforschung, 69, 235-241
• Embry, A. F. (2000) Counterclockwise Rotation of the Arctic Alaska Plate: Best Available Model or Untenable Hypothesis for the Opening of the Amerasia Basin. Polarforschung, 68, 247-255

Theme 14 Circum-Arctic margins: The search for fits and matches.

• Dumoulin, J. A.; Harris, A. G.; Bradley, D. C.; de Freitas, T. A. (2000) Facies Patterns and Conodont Biogeography in Arctic Alaska and the Canadian Arctic Islands: Evidence against Juxtaposition of These Areas during Early Paleozoic Time. Polarforschung, 68, 257-266
• Kos´ko, M. K.; Cecile, M. P.; Korago, E. A.; Lane, L. S.; Musatov, E. E.; Piskarev, A. L.; Suprunenko, O. I.; Ustinov, N. V.; Verba, V. V. (2000) Tectonic Basement of the Eurasian Arctic Shelf: Age and Some Aspects of Evolution. Polarforschung, 68, 275-281
• Musatov, E. E.; Pogrebitskij, Y. E. (2000) Late Mesozoic-Cenozoic Evolution of the Barents Sea and Kara Sea Continental Margins. Polarforschung, 68, 283-290

Theme 15 Geodynamics of the Arctic region.

• Daniel, E. D.; Maschenkov, S. P. (2000) A New Computer Bathymetric Model of the Arctic Ocean. Polarforschung, 68, 291-295
• Gramberg, I. S.; Verba, V. V.; Verba, M. L.; Kos´ko, M. K. (2001) Sedimentary Cover Thickness Map - Sedimentary Basins in the Arctic. Polarforschung, 69, 243-249
• Harbert, W.; Kepezhinskas, P.; Krylov, K.; Grigoriev, V.; Sokolov, S.; Aleksuitin, M.; Heiphetz, A.; Layer, P. (2000) Paleomagnetism and Tectonics of the Kamchatka Region, Northeastern Russia: Implications for Development and Evolution of the Northwest Pacific Basin. Polarforschung, 68, 297-308
• Sekretov, S. B. (2001) Southeastern Eurasian Basin Termination: Structure and Key Episodes of Tectonic History. Polarforschung, 69, 251-257