How to find the Campus and the Geo Building of the University of Bremen Arriving in Bremen by train: Exit the main stati<strong>on</strong> in directi<strong>on</strong> Centrum. Take tram number 6 directi<strong>on</strong> Universität. Disembark from tram at stop Universität – Zentralbereich. After disembarking, cross the tracks and go up the stairs found by the bridge. In 50m (opp. Mensa) turn right. The grey building <strong>on</strong> your right with white banister and metal world map is the GEOscience building. Arriving by plane at the airport: Take tram number 6 directi<strong>on</strong> Universität. Disembark from tram at stop Universität – Zentralbereich. After disembarking, cross the tracks and go up the stairs found by the bridge. In 50m (opp. Mensa) turn right. The grey building <strong>on</strong> your right with white banister and metal world map is the GEOscience building. Overview map of the city of Bremen. Campus map of the University of Bremen showing the main locati<strong>on</strong>s of the <str<strong>on</strong>g>c<strong>on</strong>ference</str<strong>on</strong>g>.
9 th Internati<strong>on</strong>al C<strong>on</strong>ference <strong>on</strong> Gas in Marine Sediments Bremen University, September 15 – 19, 2008 M<strong>on</strong>day, Sept 15, 2008 09:00 – 19:00 Field trip to the Harz Mountains guided by Jörn Peckmann 19:00 – 21:00 Icebreaker, registrati<strong>on</strong> at the Max Planck Institute for marine Microbiology Tuesday, Sept 16, 2008 08:00 Registrati<strong>on</strong> starts in fr<strong>on</strong>t of the lecture room (Geo building) 09:00 – 09:15 Opening of the <str<strong>on</strong>g>c<strong>on</strong>ference</str<strong>on</strong>g> in the lecture hall (Geo building) 09:15 – 09:45 Leifer I, Kamerling M, Luyendyk B, Wils<strong>on</strong> D, Stubbs C, Lorensen T (invited talk): Large-scale spatial and temporal trends in seep emissi<strong>on</strong>s in the Coal Oil Point seep field – Using a seep resistance model to understand geologic and envir<strong>on</strong>mental c<strong>on</strong>trol 09:45 – 10:00 Bigalke N, Gust G, Rehder G: Hydrodynamically c<strong>on</strong>strained flux of in-situ generated methane hydrate dissolving into undersaturated seawater 10:00 – 10:15 Stöhr M, Schanze J, Khalili A: Gas-liquid mass transfer of rising bubbles: Visualizati<strong>on</strong> via PLIF 10:15 – 10:30 Nikolovska A, Sahling H, Bohrmann G: Underwater acoustics in marine seeps research 10:30 – 10:45 Géli L, Henry P, Zitter TAC, Dupré S, Try<strong>on</strong> M, Çağatay MN, Mercier de Lépinay B, Le Pich<strong>on</strong> X, Şengör AMC, Görür N, Natalin B, Uçarkuş G, Özeren S, Bourlange S, Volker D, Marnaut Scientific Party: Acoustic detecti<strong>on</strong> of gas emissi<strong>on</strong>s and active tect<strong>on</strong>ics within the submerged secti<strong>on</strong> of the North Anatolian Fault z<strong>on</strong>e in the Sea of Marmara 10:45 – 11:00 Greinert J, McGinnis D, Naudts L, Linke P, De Batist M: Spatial methane bubble flux quantificati<strong>on</strong> from seeps into the atmosphere <strong>on</strong> the Black Sea shelf 11:00 – 11:30 Coffee break 11:30 – 11:45 Sahling H, Bohrmann G, Artemov Y, Bahr A, Brüning M, Klapp SA, Klaucke I, Kozlova E, Nikolovska A, Pape T, Reitz A, Wallmann K: Gas bubble streams at Vodyanitskii mud volcano, Sorokin Trough, Black Sea 11:45 – 12:00 Pape T, Bahr A, Abegg F, Hohnberg HJ, Klapp SA, Bohrmann G: Shallow gas hydrates in an eastern Black Sea high intensity gas seepage area – Quantificati<strong>on</strong> by autoclave technology