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Abramova E., Ivanova D., Tuschling K., Dmitrenko I., Hölemann J.A., Akhmetshina I., Wegner C. Diel vertical migrations of mesozooplankton in the Laptev sea inferred from acoustic backscatter signal: long- and short-term variations – p. 19-20

Akhmetshina I., Abramova E. Zooplankton abundance, biomass and production in the Lena delta polygon lakes: preliminary results – p. 20

Aliev T.A., Kuroshev G.D. Usage of bathymetric maps and modern remote sensing technologies in investigations of Polar seas – p. 21

Andreev A.A., Schirrmeister L., Siegert Ch., Grosse G., Novenko E.Yu., Hubberten H.-W. Environmental changes on the Laptev sea coast during the Late Quaternary reflected in pollen records – p. 21-22

Anisimov M., Tumskoy V.E. Environmental history of the Novosibirskiye islands for the last 12 ka – p. 22-23

Are F., Hubberten H.-W., Rachold V., Reimnitz E., Solomon S. Mathematical description of erosional shoreface profiles in the Arctic seas – p. 23-24

Artyomova A.V., Gorbarenko S.A., Leskov V.Yu., Psheneva O.Yu., Zhuravlenko O.A., Biebow N., Tiedemann R. Late Pleistocene and Holocene paleoceanography of the Okhotsk sea based on diatom, geochemical and lithological data – p. 25

Avdeiko G.P., Hoernle K., Portnyagin M., Ponomarev G.P., Pilipchuk N.A., Uspensky N.A., Sachs P. Geodynamic evolution of the Kurile-Kamchatka island arc system and variation of magma generation conditions – p. 25

Baranov B.V., Karp B.Ya., Wong H.K. Plate kinematic imprint on the structural pattern of the Northeastern Eurasian marginal seas – p. 26

Baranov B.V., Werner R., Hoernle K.A., Tsoy I.B., Bogaard P., Tararin I.A. Evidence for compressionally-induced high subsidence rates in the Kurile basin (Okhotsk sea) – p. 26-27

Bauch D., Erlenkeuser H., Winckler G., Pavlova G., Thiede J. The polar planktic foraminifera Neogloboquadrina pachyderma (sinistral) in the Okhotsk sea: carbon isotopes, habitat and the "carbonate ion effect" under natural conditions – p. 27

Bauch H.A., Kassens H., Müller-Lupp T., Polyakova Ye. I., Drachev S., Meyer H., Niessen F. Evidence from the Laptev sea shelf for the transformation of a Late glacial permafrost landscape into a marine depositional environment – p. 27-28

Bauch H.A., Müller-Lupp T., Polyakova Ye.I., Röhl U., Niessen F. High-Arctic Holocene records of land-ocean interactions – p. 28

Berezovskaya S.L., Dmitrenko I.A., Kirillov S.A. The Laptev sea shelf hydrography under variable atmospheric forcing during summer – p. 29

Bezrukova E.V., Kuzmin M.I., Kawai T., Williams D.F., Karabanov E.B., Prokopenko A.A., Bychinskyi V.A., Geletyi V.F., Kerber E.B., Khomoutova M.Yu. High-resolution continental paleoclimcatic records from Lake Baikal sedimentary cores – p. 30

Biebow N., Obzhirov A., Winckler G., Sosnin V., Salyuk A., Suess E. Seasonal variability of methane degassing at the seafloor and methane input into the atmosphere - results from the joint Russian-German project KOMEX – p. 30-31

Bollwerk S.M., Greinert J., Wallmann K., Bohrmann G., Eisenhauer A., Suess E. Pore water chemistry of vent fluids associated to massive barite deposits in the Derugin basin, sea of Okhotsk – p. 31

Bolshiyanov D., Fedorov G., Savelieva L. Climate changes in the Laptev sea region in the Holocene as inferred from data on the continental circumference – p. 31-32

Bolshiyanov D.Yu., Sviyaschennikov P.N., Fedorov G.B., Pavlov M.V., Terebenko A.V. Arctic climate changes during the last 10,000 years – p. 32

Brauer A., Litt T., Negendank J.F.W. Nature and rapidity of Late glacial changes in the varved lake record of Meerfelder Maar, Germany – p. 33

Bubenshchikova N.V., Khusid T.A., Iushina I.G., Gorbarenko S.G. Benthic foraminifera evidence of Late Quaternary oceanographic changes in the southwestern Okhotsk sea – p. 33-34

Chernyh A.A., Zayonchek A.V., Gusev E.A., Mennies M.V., Romaschenko O.G., Razouvaeva E.I. New digital bathymetry map of the Laptev sea – p. 34

Churun V., Timokhov L., Kassens H., Priamikov S., Hölemann J.A., Tuschling K., Dobrotina E., Bukhman V. Otto Schmidt laboratory for polar and marine research - modern technical abilities for scientific investigations and study process – p. 34-35

Chuvilin E.M., Kozlova E.V., Makhonina N.A. Experimental investigations of gas hydrate formation and dissociation in sediments – p. 35

Dem'yankov S., Taldenkova E., Bauch H.A. Foraminifers of the Laptev sea shelf as indicators of paleoenvironmental changes – p. 36-37

Derkachev A.N., Bohrmann G., Greinert J., Obzhirov A.I., Suess E. Barites of the sea of Okhotsk: sedimentological and mineralogical aspects of their origin – p. 37

Dmitrenko I.A., Hölemann J.A., Berezovskaya S.L., Kirillov S.A., Eicken H., Kassens H. The drivers of Siberian Arctic shallow seas hydrography within the scale of seasonal and interannual variability – p. 37-38

Dozorova K.A., Baranov B.V., Wong H.K., Karp B.Ya., Karnaukh V.N., Lüdmann T. Geological factors controlling the morphology of the East Sakhalin slope – p. 38-39

Drachev S., Belyaev V., Goryachev Yu., Kaul N., McAdoo D., Niessen F., Antipov A. Rift to drift transition in the Laptev sea: geodynamics and environmental impact – p. 39

Drachev S., Chizhov D., Kaulio V., Niessen F., Tumskoi V. Acoustic imaging of the submarine permafrost in the Laptev sea – p. 40

Eliseeva A.A., Gavrilov A.V., Kholodov A.L., Romanovskii N.N. Modeling permafrost and gas hydrate stability zone in the Laptev and Eastern Siberian seas – p. 41

Fedorov G., Bolshiyanov D. Sea level and glaciations of Taimyr peninsula in the Late Pleistocene – p. 42

Fritzsche D., Wilhelms F., Pinglot J.F., Meyer H., Schütt R., Weiler K., Savatyugin L.M., Miller H., Hubberten H.-W. 724-meter deep ice core from Academy of Sciences ice cap (Severnaya Zemlya) - accumulation rate, preliminary time scaling and data resolution – p. 43

Goldberg E.L., Grachev M.A., Phedorin M.A., Chebykin E.P., Khlystov O.M., Vorobyeva S.S., Zheleznykova T.O., Kulipanov G.N., Kondratev V.I., Zolotarev K.V., Tsukanov V.M., Miginsky E.G., Shaporenko A. Multy proxy high-resolution paleoclimate records from Lake Baikal: orbital forcing during the last million years and millennial-scale climate changes during Holocene and LGP – p. 43-44

Gorbarenko S., Leskov V., Gvozdeva I.G., Bosin A., Biebow N., Tiedemann R., Nuernberg D. High-frequency surface environmental and sedimentary change in the Okhotsk sea during Late Pleistocene: geochemical, paleontological and lithological evidence – p. 44

Gramberg I.S., Piskarev A.L. Structure and crustal history of the Laptev basin – p. 44-45

Greinert J., Bollwerk S.M., Derkachev A., Bohrmann G., Suess E. Massive barite deposits and carbonate mineralization in the Derugin basin, Sea of Okhotsk: precipitation process at cold vent sites – p. 45

Grigoriev M.N., Are F.E., Hubberten H.-W., Razumov S.O. Coastal dynamics of the Lena delta, the Laptev sea, Siberia – p. 46

Grosse G., Schirrmeister L., Krbetschek M., Schwamborn G., Oezen D., Kunitzky V.V., Kuznetsova T., Kuzmina S. New data on Late Quaternary terrestrial permafrost deposits of the Laptev sea region by IR-OSL, radiocarbon and U/Th age determination – p. 46-47

Gusev E.A., Mennies M.V., Rekant P.V., Roudoy A.S., Rybakov K.S. Termination of the Gakkel Ridge in the Laptev sea – p. 47

Gusev E.A., Mennies M.V., Romaschenko O.G. Morphology of the continental margin of the Laptev and East Siberian seas – p. 48

Gusev E.A., Rekant P.V., Roudoy A.S. Paleogeographic changes in deep-sea Arctic basins as indicators of the main stages of the Cenozoic evolution – p. 48-49

Haas C. Interannual variability of summer sea-ice thickness in the Siberian and Central Arctic under different atmospheric circulation regimes – p. 49

Haeckel M. Rising gas bubbles in sediments - a model for mixing the porewater – p. 49-50

Hölemann J.A., Wegner C., Dmitrenko I., Kirillov S. Transport dynamics on the Laptev sea shelf: timing of seasonal processes as a control for interannual variability – p. 50-51

Hubberten H.-W., Andreev A., Kumke T., Melles M., Schwamborn G., Siegert C., Tarasov P. The Late Quaternary climatic and environmental history of northern central Siberia – evidence from lake sediments – p. 51

Ivanov M., Stadnitskaya A., Weering T., Blinova V., Kozlova E. Hydrocarbon gases and gas hydrates in mud volcanic deposits of the Black sea, their composition and possible sources of formation – p. 52

Ivanova D., Abramova E., Akhmetshina I. Application of wavelet analysis for studying zooplankton – p. 52-53

Kaiser A., Nürnberg D., Tiedemann R. Glaciation history in NE Siberia - implications from IRD and stable oxygen isotope records – p. 53

Karp B., Karnaukh V., Baranov B., Lüdmann T., Wong H.K. Interaction between Cenozoic sedimentation processes and tectonics in the Okhotsk Sea: results of the KOMEX expeditions – p. 54

Kassens H., Hölemann J.A., Pryamikov S., Thiede J., Troyan V., Tuschling K. Otto Schmidt Laboratory for polar and marine research – p. 54-55

Kaulio V.V., Soloviev V.A. Effect of gas hydrate formation on the geothermal field in gas-seepage areas – p. 55

Kholodov A.L., Gavrilov A.V., Romanovskii N.N., Tipenko G.S. Submarine permafrost on the Laptev Sea shelf: evolution during the middle Pleistocene - Holocene and recent processes – p. 56

Kirillov S., Darovskikh A., Dmitrenko I. Delay in ice formation onset in the Laptev Sea: consequence of additional heat flux from the bottom layer – p. 56-57

Kirillova E. The water column structure in the Bering Strait – p. 57

Klyuvitkin A.A., Ponomareva T.Ya., Shevchenko V.P., Vinogradova A.A. Atmospheric input of trace metals into the Laptev Sea – p. 57-58

Kobabe S., Wagner D., Kutzbach L., Pfeiffer E.-M. Methane production in Siberian tundra soils: influence of temperature and substrates – p. 58

Kobabe S., Wagner D., Schröder H., Damm E., Kassens H., Pfeiffer E.-M. Methane contents in different compartments of the Laptev sea – preliminary results – p. 58-59

Kokfelt U., Tiedemann R., Nürnberg D., Kaiser A., Kozdon R., Biebow N. Holocene vegetation change and Amur river runoff based on the analysis of pollen, spores and chloroccacalean algae in core LV28-4-4 from the Sea of Okhotsk – p. 59

Kozdon R., Tiedemann R., Nürnberg D., Kaiser A., Kokfelt U., Biebow N., Röhl U. A high resolution Holocene geochemical record from the Sea of Okhotsk - implications for climate change in the Siberian hinterland – p. 60

Kremenetski K.V., MacDonald G.M., Gervais B., Bottger T., Hiller A., Borisova O.K., Snyder J.A. Postglacial climate and vegetation history of Kola peninsula, Russia – p. 61

Krylov A.A., Andreeva I.A., Shilov V., Kaban’kov V.Ya., Mirolubova E.S. Quaternary paleoceanography of the Mendeleev Rise, Amerasian basin of the Arctic ocean – p. 61

Kutzbach L., Wille C., Wagner D., Pfeiffer E.-M. Quantifying methane emissions from Siberian permafrost landscapes: the eddy covariance technique as a tool to determine trace gas fluxes on the ecosystem scale – p. 62

Kuzmina S., Sher A., Demyankov S. Detailed reconstruction of the Laptev shelf land environment and climate during the last 50,000 years - Mamontovy Khayata revisited – p. 62-63

Kuznetsova T.V., Kuz'mina S.A. Pleistocene and Holocene mammals, insects and deposits of the Lena delta region (Olenyok channel) – p. 64

Lelikov E.P., Emel’yanova T.A., Kulinich R.G., S’edin V.T., Tsoi I.B. Geological map of the Okhotsk sea floor – p. 65

Lembke L., Tiedemann R., Nuernberg D., Biebow N., Kaiser A., Kokfelt U., Kozdon R. Benthic foraminiferal ∂¹³C anomalies in gravity core GE 99-24: evidence for extreme Holocene paleomethane anomalies off NE Sakhalin? – p. 66

Leskov V.Yu., Gorbarenko S.A., Artemova A.V., Biebow N., Tiedemann R., Nuernberg D. Sea-ice changes in the Okhotsk Sea and its paleoceanographical consequences during Last Glaciation - Holocene; evidence from ice rafted debris and diatom – p. 67

Liu J., Negendank J.F.W., Chu G., Mingram J., Wang W., Liu Q., Gu Z., Ni Y., Liu T. The maars and their paleoclimatic records in China - a maar drilling program for Chinese-German cooperation – p. 67-68

Luchsheva L.N., Obzhirov A.I., Selina M.C., Zakharkov S.P., Stonik I.V., Shtraikhert E.A., Suess E., Biebow N. The influence of the frontal zone of the East Sakhalin current on the development of phytoplankton and the distribution of mercury and methane concentrations in sea water – p. 68-69

Lüdmann T., Wong H.K. Gas hydrates in the Okhotsk Sea - a first quantification of associated methane – p. 69

Mardanian I., Kodina L. Peculiarities of organic carbon distribution in the Kara Sea sediments compared with the Laptev Sea – p. 69-70

Matul A., Abelmann A. The radiolarian Amphimelissa setosa – a potential indicator for a North Pacific / North Atlantic link during marine isotopic stage 5 – p. 70

Mazurenko L.L., Soloviev V.A. On the composition of gas hydrate-forming mud volcano fluids – p. 70-71

Melles M., Niessen F., Hubberten H.-W., Nowaczyk N. R., Minyuk P., Brigham-Grette J. El´gygytgyn lake, NE-Russia: a millennial-scale record of climate evolution in the Arctic over the past 3.6 million years – p. 71-72

Meyer H., Dereviagin A.Yu., Siegert C., Hubberten H.-W. Stable water isotopes of ice wedges as paleoclimate indicator for the Laptev Sea region, Northern Siberia – p. 72-73

Migowski C., Negendank J.F.W., Stein M. Holocene palaeoseismic and climatic record in laminated sediments from the Dead Sea, Israel – p. 73

Mingram J., Schettler G., Nowaczyk N., Luo X., Lu H., Yancheva G., Jiaqi L., Negendank J.F.W. A 78,000 year record of climatic changes from the South China coast - Huguang maar lake (Huguangyan) – p. 73-74

Müller-Lupp T., Bauch H., Erlenkeuser H. Modern and past records of shelf hydrography in the Laptev Sea – p. 74-75

Naidina O.D., Bauch H.A. Holocene pollen records from the Laptev Sea – p. 75-76

Narkevsky E. Nutrient flux in the East Siberian Sea – p. 76

Negendank J.F.W., Brauer A., ELDP Members Advances in correlation of European high resolution palaeoclimatic records – p. 76-77

Negendank J.F.W., Schwalb A., Schwab M., the KIHZ consortium KIHZ I. KIHZ - natural climate variations: overview and climate archives – p. 77

Niessen F., Stein R., Dittmers K. LGM glaciation and Siberian river runoff in the Kara Sea: results from the RV “Boris Petrov” expedition 2001 (SIRRO-project) – p. 78

Nikolayeva N.A., Derkachev A.N., Gorbarenko S.A. Sediment supply and distribution in the Sea of Okhotsk during Late Quaternary (based on the analysis of heavy mineral associations) – p. 79

Nitishinsky M.A. Balance model of hydrochemical regime of the Laptev Sea – p. 79

Novichkova T.S., Polyakova Ye.I., Bauch H.A. Detailed reconstructions of depositional environments and water salinity fluctuations on the eastern Laptev Sea shelf during the Early to Middle Holocene - p. 80-81

Novigatsky A.N., Lisitzin A.P., Serova V.V., Shevchenko V.P., Stein R. Sedimentary material transport by sea ice in the Laptev Sea and adjacent Arctic Ocean – p. 81

Nürnberg D., Kaiser A., Tiedemann R., Biebow N. Paleoceanographic studies in the Sea of Okhotsk - implications for the glaciation history of NE Siberia – p. 81-82

Nürnberg D., Tiedemann R. Long-term environmental evolution in the Sea of Okhotsk - evidence from a long images core – p. 82-83

Nürnberg D., Tiedemann R., Kaiser A., Kozdon R., Lembke L., Biebow N., Roehl U. Orbital to suborbital paleoceanographic and paleoclimatic changes in the Sea of Okhotsk – p. 83

Obzhirov A.I., Vereshchagina O.F., Shakirov R.B., Saluyk A.N., Suess E., Biebow N., Lobanov V.B. Methane distribution in the water column of the Okhotsk and Japan seas – p. 84

Pavlov M.V., Razina V.V., Bolshiyanov D.Yu. The last millenium climate changes and reconstruction of the little ice age time by the bottom sediments of the Arctic lakes – p. 84-85

Pavlova G.Yu., Tishchenko P.Ya., Semiletov I.P., Volkova T.I., Gukov A.Yu. Nonconservative behavior of calcium in the Lena Delta and Laptev Sea – p. 85

Peters J., Tuschling K. Dominance of opportunists? Feeding ecology of zooplankton as indicated by fatty acid composition – p. 85

Pfeiffer E.-M., Kobabe S., Wagner D. Methane fluxes in Siberia and their relevance for the permafrost-related gas hydrate research – p. 86

Piskarev A.L. Potential field anomalies interpretation in the Eurasian basin of the Arctic Ocean – p. 86-87

Pivovarov S., Nitishinsky M. Nutrients in the Laptev Sea system: distribution, variability, and budgets – p. 87

Polyakova Ye.I., Bauch H.A. Holocene changes of riverine discharge and surface water salinity in the Laptev Sea inferred from diatom assemblages – p. 87-88

Poort J., Kaulio V., Soloviev V. Thermal signals associated with seafloor hydrate accumulations and application for investigations in the Sea of Okhotsk – p.88-89

Portnyagin M., Hoernle K., Avdeiko G., Mironov N., Sachs P., Werner R. The role of deep fluids in magma generation in the Kurile-Kamchatka arc: an overview of goals, approaches and recent results of KOMEX subproject 2 – p. 89-90

Pryakhina G.V. New approach in the field of training specialists for the solution of problems of big cities and industrial zones – p. 90

Psheneva O.Yu., Gorbarenko S.A., Artyomova A.V., Leskov V.Yu., Matul A., Nuernberg D., Biebow N. Species and abundance changes of benthic foraminifera in core LV27-2-4 (far NW Okhotsk Sea) – p. 90-91

Rachold V., Are F.E., Grigoriev M.N., Hubberten H.-W., Rasumov S., Schneider W., Schwamborn G. Coastal processes and the sediment budget of the Laptev Sea – p. 91-92

Razina V.V., Pavlov M.V., Bolshiyanov D.Yu. Reconstruction of vegetation and climate situation in the Norilsk lakes region, Putorana Plateau, for the last millennium according to pollen data – p. 92

Rekant P.V. Pleistocene sedimentation and sediment transport on the Laptev Sea shelf and continental slope – p. 92-93

Romanovskii N.N., Gavrilov A.V., Kholodov A.L., Tumskoy V.E. Environmental changes and catastrophic cold events after the last glacial extreme, Laptev Sea region – p. 93-94

Roudoy A.S., Tverskaja L.A., Roschina D.V. On the importance of foraminifera of the genus Retroelphidium for paleogeographic and paleofacies reconstruction – p. 94-95

Rudenko O.V., Polyakova Ye.I., Bauch H.A. Postglacial environments on the eastern Laptev Sea shelf: evidence from diatom and aquatic palynomorphs assemblages – p. 95-96

Sahling H., Galkin S.V., Foerstel H., Greinert J., Salyuk A., Piepenburg D., Suess E. Interactions between cold-seep and deep-sea ecosystems on the Sakhalin continental shelf and slope and in the Derugin basin (Sea of Okhotsk) – p. 96

Salyuk A., Obzhirov A., Li B., Biebow N., Suess E. Hydroacoustic flare imaging and estimation of the methane flux from an active natural methane vent area on the Northern Sakhalin slope – p. 96-97

Schirrmeister L., Siegert C., Hubberten H.-W., Meyer H., Kienast F., Andreev A., Grosse G., Kunitsky V., Dereviagin S., Kuznetsova T., Kuzmina S., Bobrov A. Siberian permafrost as paleoenvironmental archive - new results and new perspectives – p. 97

Schlüter M., Sauter E., Boetius A., Klages M. Methane in surface sediments of the Haakon Mosby mud volcano – p. 98

Schmid M.K. The Laptev Sea ecosystem research: now and then! – p. 98

Schwab M., Negendank J.F.W., the KIHZ consortium KIHZ III. The high resolution multi-proxy-parameter network and synthetic timescale in KIHZ (natural climate variations in the Holocene) – p. 99

Shakirov R., Obzhirov A., Prisyazhnyuk A. Gasgeochemical research of mud volcanoes on Sakhalin Island – p. 99-100

Sher A., Gukov A., Sofronov Yu., Kuzmina S., Sulerzhitsky L. Moose and tall shrubs: new evidence on the Early Holocene climatic optimum in the Lena Delta – p. 100-101

Sher A., Kuzmina S., Kuznetsova T. Pleistocene climate drivers of the East Siberian shelf land – p. 101-102

Shevchenko V.P., Klyuvitkin A.A., Kriews M., Lisitzin A.P., Nöthig E.-M., Novigatsky A.N., Smirnov V.V., Stein R., Vinogradova A.A. Pathways and fluxes of natural and anthropogenic tracers in the Laptev Sea and adjacent Arctic Ocean – p. 103

Soloviev V.A. Study of gas hydrate accumulations associated with fluid discharge areas: some suggestions to the Russian-German collaboration – p. 103-104

Sosnin V., Tishchenko P., Biebow N. Diapycnal entrainment of shelf waters into intermediate depths across the Sakhalin continental slope (Sea of Okhotsk) – p. 104

Spieck E., Lebedeva E., Jozsa P.-G. Occurence of nitrifying bacteria in permafrost soils – p. 104-105

Spielhagen R.F., Nørgaard-Pedersen N., Erlenkeuser H., Vogt C., Weiel D. History of Eurasian ice sheets reflected in Arctic deep-sea sediments – p. 105

Stepanova A., Taldenkova E., Bauch H.A. Ostracoda of the Laptev Sea: Holocene to Recent – p. 106

Taldenkova E., Bauch H.A., Stepanova A., Dem'yankov S. Holocene environmental changes of the Eastern Laptev Sea: evidence from fossil assemblages – p. 106-107

Tarasov P.E., Bezusko L.A., Dorofeyuk N.I. Holocene climate and environmental changes in the Great Steppe of Eurasia – p. 107-108

Tekleva M.V., Kosenko Y.V., Naidina O.D. Pollen in shelf sediments as indicator of climate change in Arctic Siberia – p. 108

Terekhova V., Sosnin V., Shakirov R., Obzhirov A., Bouzoleva L., Somov G. Discovery of Listeria monocytogenes in the northwest of the Okhotsk sea – p. 109

Thiede J., Kassens H., Bauch H., Tuschling K., Biebow N., Spielhagen R.F., Hölemann J.A., Hubberten H.-W. Ten years of Russian-German cooperation in geosciences – p. 109-110

Tiedemann R., Nürnberg D., Kozdon R., Lembke L., Kaiser A., Kokfelt U. Holocene multidecadal to centennial climate variability in the Sea of Okhotsk – p. 110-111

Timokhov L., Ivanov V., Kochetov S., Koltishev A., Karklin V., Priamikov S., Yanes A. Climate scale variability of the Arctic atmosphere and ocean circulation and its link with the Arctic seas – p. 111-112

Troyan V., Thiede J., Dmitriev V., Kassens H., Tuschling K., Wefer G., Werbitzkaya L. Cooperative master program for applied Polar and Marine sciences at Saint Petersburg State University – p. 112

Tumskoy V.E., Romanovskii N.N., Gavrilov A.V. Thermokarst formation at the end of the Late Pleistocene and Holocene and its impact on the permafrost of the eastern part of the Russian Arctic – p. 112-113

Vaganov E.A. High resolution records of temperature change during the last millennia in high latitudes of Siberia – p. 113

Vanshtein B.G., Cherkashev G.A., Krinitzky P.I., Firsov Yu.G., Volkova Yu.V., Mirolubova E.S. Geological environment changes of western Russia coastal zone by climate warming – p. 113-114

Velichko A.A., Bleuten W., Borisova O.K., Kremenetsky K.V., Novenko E.Yu., Pisareva V.V., Zelikson E.M. Dynamics of vegetation and peat accumulation in the West Siberian plain during the Holocene – p. 114-115

Wagner D., Pfeiffer E.-M., Samarkin V. Microbial controls on methane emission from Siberian tundra environments: open questions and future perspectives – p. 115

Wegner C., Hölemann J.A., Dmitrenko I., Kirillov S., Klagge T., Moerz T., Kassens H. Acoustic doppler current profiler – a tool for the determination of sediment transport dynamics on Arctic shelves – p. 116

Wegner C., Hölemann J.A., Dmitrenko I., Kirillov S., Niessen F., Kassens H. Seasonal sediment dynamics on the Laptev Sea shelf - implications for sediment budget calculations – p. 116-117

Widmann M., Storch H., the KIHZ consortium II. KIHZ - numerical modeling in paleoclimatology – p. 117

Wong H.K., Lüdmann T., Baranov B.V., Karp B.Ya., Konerding P. Bottom current-controlled sedimentation and mass wasting in the northwestern Sea of Okhotsk – p. 117-118

Wong C.S., Tishchenko P.Ya., Johnson W.K. Thermodynamic consideration of equilibrium of CO₂-hydrate in sea water – p. 118

Wulf S., Brauer A., Frank U., Mingram J., Nowaczyk N., Zolitschka B., Negendank J.F.W. The Lago Grande di Monticchio (Italy) – a high resolution archive for palaeoenvironmental and tephrostratigraphical investigations of the last 101 ka – p. 118-119

Yakushev V.S., Chuvilin E.M., Perlova E.V. Natural gas and gas hydrate association in permafrost of West Siberia – p. 119

Zayonchek A.V., Chernyh A.A. Transition from the Gakkel Ridge to the Laptev Sea shelf – p. 120