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ODINECET Journals catalogue

This catalogue gives access to the Union List of serials available at the ODINECET-Group aquatic libraries. Full records of serials published in the ECET-region, and holdings per library at the following institutions are already included:

 

  • Russian Federal Research Institute of Fishery and Oceanography/VNIRO (Russia)
  • Polar Research Institute of Marine Fisheries and Oceanography (Russia)
  • Research Institute of the Azov Sea Fisheries Problems (Russia)
  • AtlantNIRO (Russia)
  • K.A. Timiryazev Moscow Agricultural Academy (Russia)
  • Limnological Institute RAN (Russia)
  • Institute of Biology of the Southern Seas (Ukraine)
  • Marine Hydrophysical Institute (Ukraine)
  • Estonian Marine Institute of the University of Tartu (Estonia)


A priority goal is to optimize Interlibrary Lending Service within the Association through improvement of the access to detailed information on serials available at the aquatic libraries of Central and Eastern Europe. Requests for articles from this catalogue can be sent through the EURASLIC mailinglist. For this service, you have to be a member of EURASLIC, please consult these pages to learn how to become a member.

All interested aquatic libraries in the ECET-region are invited to add information about their serial holdings to the List. Go to the ODINECET-website and contact the group responsible on how to join this initiative.

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Methane Fluxes from a High Intensity Seep Area west of Crimea, Black Sea
Greinert, J.; Artemov, Y.; McGinnis, D. F.; Naudts, L.; Linke, P. (2005). Methane Fluxes from a High Intensity Seep Area west of Crimea, Black Sea. Geophys. Res. Abstr. 7: 03035
In: Geophysical Research Abstracts. Copernicus: Katlenburg-Lindau. ISSN 1029-7006; e-ISSN 1607-7962
Peer reviewed article  

Available in  Authors 
    Vlaams Instituut voor de Zee: Open access 228105 [ download pdf ]
Document type: Summary

Keyword
    Marine/Coastal

Authors  Top 
  • Greinert, J.
  • Artemov, Y.
  • McGinnis, D. F.
  • Naudts, L.
  • Linke, P.

Abstract
    Methane seepage is a wide-spread phenomenon in the Black Sea with an increase in density and intensity west of the Crimea in the Paleo Dnepr area between 70 and 250m water depth. Within the EU funded project CRIMEA we studied the impact of high intensity seeps on the methane distribution in the water column and its possible transport into the atmosphere. Here we present data which allow flux calculations of free methane from an area of 1 by 1.23 miles between 80 and 95m water depth. Our calculations are based on direct and hydroacoustic flux measurements of single seeps or small-scaled seep areas (several m2); the spatial extrapolation of these fluxes use the very strong correlation between the bubble seep occurrence and a high backscattering seafloor; the temporal variability of bubble release was detected via the lander-based hydroacoustic system GasQuant.More than 1000 bubbling seep sites were identified during two cruises in 2003 and 2004 by hydroacoustic water column surveys. The hydroacoustic detection of bubbles uses the strong backscattering of the free gas phase caused by the great impedance difference of bubbles in water (equivalent to the detection of fish and their swim bladder). In echograms, bubble streams or even single bubbles can be detected, traced and used for special analyses such as bubble rising speed, bubble size and shrinking rates. Because of the flare-like appearance of bubble streams in echograms we call these features ’flares’.Parallel multi beam mapping allowed the detection of the seafloor morphology together with the spatial backscatter intensity of the seafloor. The combination of flare occurrences with high backscatter areas provided a very good correlation. Normalized, the backscatter ranged from -12.5 to 7.1 dB for an area of 4.23 km2. All seep positions plott in areas with more than -2.7 dB, which is almost the entire area of investigation (95.8 %). However, 75% of the flares occur within only 20.1% of the area, half of the flares occur in only 9.2% and 25% even occur in only 3.8% of the area with backscattering values above 2.4 dB. This correlation allows to predict and extrapolate active bubble seeps even without direct or hydroacoustic observations.One reason for the high backscattering seafloor are patches of carbonate cemented seafloor (formed via AOM) which typically occurs just below bright white Beggiatoa mats. In addition, high resolution seismic studies with a 5kHz sub-bottom profiler clearly show a shallow gas front in normally 3m sediment depth. In those areas where strong gas front reflectors dome up and reach the seafloor surface the backscatter values and flare density are the highest. This clearly shows that the bubbles released are fed from shallow gas which also might have an impact on the physical properties of the seafloor and its backscatter behaviour. Seeps in lower or even very low backscatter areas possibly indicate a rather young or weak activity which did not (so far) cause a remarkable carbonate cementation detectable during multi beam surveys.However, the backscatter data are the base for our spatial flux calculations which use direct bubble trapping to distinguish the flux rate from one single seep hole and hydroacoustic methods for small seep areas of several m2. Direct bubble flux measurements were performed with the submersible JAGO by trapping the bubbles with a funnel. Fluxes vary between 0.55 and 1.44 ml/s (or 1.98 to 5.18 l/h at in situ volume; or 0.24 to 0.64 mmol/s). Subsequent GC-based gas analyses onboard confirmed that the gas phase consists exclusively of methane. Visual observations by JAGO and towed camera systems showed bubble diameters between 1 and 15mm with typical sizes between 3 and 7mm. Together with bubble rising speeds of typically 25cm/s both attributes are in very good agreement with detailed hydroacoustic measurements using a dual frequency scientific echo sounder EK500 (120 and 38kHz). Flux estimate

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