GLORIA — GEOMAR Library Ocean Research Information Access

1

Online Resource

Geological imprint of methane seepage on the seabed and biota of the convergent Hikurangi Margin, New Zealand : box core and grab carbonate results (2010)

Campbell, Kathleen A. ; Nelson, Campbell S. ; Alfaro, Andrea C. ; [et al.]

Associated volumes

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In: Marine geology, Amsterdam [u.a.] : Elsevier Science, 1964, 272(2010), Seite 285-306, 1872-6151

In: volume:272

In: year:2010

In: pages:285-306

Type of Medium: Online Resource

Pages: Ill., graph. Darst

ISSN: 1872-6151

DOI: 10.1016/j.margeo.2010.01.002

Language: English

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2

Online Resource

Atmospheric methane flux from bubbling seeps : spatially extrapolated quantification from a Black Sea shelf area (2010)

Greinert, Jens

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In: Journal of geophysical research. C, Oceans, Hoboken, NJ : Wiley, 1978, 115(2010), 2169-9291

In: volume:115

In: year:2010

In: extent:18

Description / Table of Contents: Bubble transport of methane from shallow seep sites in the Black Sea west of the Crimea Peninsula between 70 and 112 m water depth has been studied by extrapolation of results gained through different hydroacoustic methods and direct sampling. Ship-based hydroacoustic echo sounders can locate bubble releasing seep sites very precisely and facilitate their correlation with geological or other features at the seafloor. Here, the backscatter strength of a multibeam system was integrated with single-beam data to estimate the amount of seeps/m2 for different backscatter intensities, resulting in 2709 vents in total. Direct flux measurements by submersible revealed methane fluxes from individual vents of 0.32-0.85 l/min or 14.5-37.8 mmol/min at ambient pressure and temperature conditions. A conservative estimate of 30 mmol/min per site was used to estimate the flux into the water to be 1219-1355 mmol/s. The flux to the atmosphere was calculated by applying a bubble dissolution model taking release depth, temperature, gas composition, and bubble size spectra into account. The flux into the atmosphere (3930-4533 mol/d) or into the mixed layer (6186-6899 mol/d) from the 21.8 km2 large study area is three times higher than independently measured fluxes of dissolved methane for the same area using geochemical methods (1030-2495 mol/d). The amount of methane dissolving in the mixed layer is 2256-2366 mol/d. This close match shows that the hydroacoustic approach for extrapolating the number of seeps/m2 and the applied bubble dissolution model are suitable to extrapolate methane fluxes over larger areas.

Type of Medium: Online Resource

Pages: 18 , Ill., graph. Darst

ISSN: 2169-9291

URL: http://europa.agu.org/?view=article&uri=/journals/jc/jc1001/2009JC005381/2009JC005381.xml&t=2009JC005381

DOI: 10.1029/2009JC005381

Language: English

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3

Online Resource

Methane seepage along the Hikurangi Margin of New Zealand : geochemical and physical data from the water column, sea surface and atmosphere (2010)

Faure, Kevin

Associated volumes

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In: Marine geology, Amsterdam [u.a.] : Elsevier Science, 1964, 272(2010), Seite 170-188, 1872-6151

In: volume:272

In: year:2010

In: pages:170-188

Type of Medium: Online Resource

Pages: graph. Darst

ISSN: 1872-6151

DOI: 10.1016/j.margeo.2010.01.001

Language: English

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4

Book

Special Issue Methane seeps at the Hikurangi Margin, New Zealand (2010)

Greinert, Jens ; Bialas, Jörg ; Lewis, Keith ; [et al.]

Amsterdam [u.a.] : Elsevier

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Type of Medium: Book

Pages: V, 140 S. , Ill., graph. Darst.

Series Statement: Marine geology 272.2010,1/4

Language: English

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5

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Cold-water coral habitats in the Penmarc'h and Guilvinec Canyons (Bay of Biscay): Deep-water versus shallow-water settings (2011)

De Mol, Lies ; Van Rooij, David ; Pirlet, Hans ; [et al.]

Elsevier

In: Marine Geology, 282 (1-2). pp. 40-52.

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Publication Date: 2013-06-10

Description: In 1948, Le Danois reported for the first time the occurrence of living cold-water coral reefs, the so-called “massifs coralliens”, along the European Atlantic continental margin. In 2008, a cruise with R/V Belgica was set out to re-investigate these cold-water corals in the Penmarc'h and Guilvinec Canyons along the Gascogne margin of the Bay of Biscay. During this cruise, an area of 560 km2 was studied using multibeam swath bathymetry, CTD casts, ROV observations and USBL-guided boxcoring. Based on the multibeam data and the ROV video imagery, two different cold-water coral reef settings were distinguished. In water depths ranging from 260 to 350 m, mini mounds up to 5 m high, covered by dead cold-water coral rubble, were observed. In between these mounds, soft sediment with a patchy distribution of gravel was recognised. The second setting (350–950 m) features hard substrates with cracks, spurs, cliffs and overhangs. In water depths of 700 to 950 m, both living and dead cold-water corals occur. Occasionally, they form dense coral patches with a diameter of about 10–60 m, characterised by mostly stacked dead coral rubble and a few living specimens. U/Th datings indicate a shift in cold-water coral growth after the Late Glacial Maximum (about 11.5 ka BP) from shallow to deep-water settings. The living cold-water corals from the deeper area occur in a water density (sigma–theta) of 27.35–27.55 kg m− 3, suggested to be a prerequisite for the growth and distribution of cold-water coral reefs along the northern Atlantic margin. In contrast, the dead cold-water coral fragments in the shallow area occur in a density range of 27.15–27.20 kg m− 3 which is slightly outside the density range where living cold-water corals normally occur. The presented data suggest that this prerequisite is also valid for coral growth in the deeper canyons (〉 350 m) in the Bay of Biscay.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.margeo.2010.04.011

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Testing proposed mechanisms for seafloor weakening at the top of gas hydrate stability on an uplifted submarine ridge (Rock Garden), New Zealand (2010)

Ellis, S. ; Pecher, I. ; Kukowski, N. ; [et al.]

Elsevier

In: Marine Geology, 272 (1-4). pp. 127-140.

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Publication Date: 2013-06-10

Description: We evaluate different hypotheses concerning the formation of a peculiar, flat-topped ridge at Rock Garden, offshore of the North Island of New Zealand. The coincidence of the ridge bathymetry with the depth at which gas hydrate stability intersects the seafloor has been previously used to propose that processes at the top of gas hydrate stability may cause seafloor erosion, giving rise to the flat ridge morphology. Two mechanisms that lead to increased fluid pressure (and sediment weakening) have previously been proposed: (1) periodic formation (association) and dissociation of gas hydrates during seafloor temperature fluctuations; and (2) dissociation of gas hydrates at the base of gas hydrate stability during ridge uplift. We use numerical models to test these hypotheses, as well as to evaluate whether the ridge morphology can develop by tectonic deformation during subduction of a seamount, without any involvement from gas hydrates. We apply a commonly-used 1D approach to model gas hydrate formation and dissociation, and develop a 2D mechanical model to evaluate tectonic deformation. Our results indicate that: (1) Tectonics (subduction of a seamount) may cause a temporary flat ridge morphology to develop, but this evolves over time and is unlikely to provide the main explanation for the ridge morphology; (2) Where high methane flux overwhelms the anaerobic oxidation of methane via sulphate reduction near the seafloor, short-period temperature fluctuations (but on timescales of years, not months as proposed originally) in the bottom water can lead to periodic association and dissociation of a small percentage of gas hydrate in the top of the sediment column. However, the effect of this on sediment strength is likely to be small, as evidenced by the negligible change in computed effective pressure; (3) The most likely mechanism to cause sediment weakening, leading to seafloor erosion, results from the interaction of gas hydrate stability with tectonic uplift of the ridge, provided bulk permeability strongly decreases with increasing hydrate content. Rather than overpressure developing from dissociation of hydrates at the base of gas hydrate stability (as previously thought), we found that the weakening is caused by focusing of gas hydrate formation at shallow sediment levels. This creates large fluid pressures and can lead to negative effective pressures near the seafloor, reducing the sediment strength.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.margeo.2009.10.008

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Morphology and recent history of the Rhone River Delta in Lake Geneva (Switzerland) (2010)

Sastre, Vincent ; Loizeau, Jean-Luc ; Greinert, Jens ; [et al.]

Springer

In: Swiss Journal of Geosciences, 103 (1). pp. 33-42.

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Publication Date: 2020-05-14

Description: The current topographic maps of the Rhone Delta—and of Lake Geneva in general—are mainly based on hydrographic data that were acquired during the time of F.-A. Forel at the end of the nineteenth century. In this paper we present results of a new bathymetric survey, based on single- and multi-beam echosounder data. The new data, presented as a digital terrain model, show a well-structured lake bottom morphology, reflecting depositional and erosional processes that shape the lake floor. As a major geomorphologic element, the sub-aquatic Rhone Delta extends from the coastal platform to the depositional fans of the central plain of the lake at 310 m depth. 9 canyons cut the platform edge of the delta. These are sinuous (“meandering”) channels formed by erosional and depositional processes, as indicated by the steep erosional canyon walls and the depositional levees on the canyon shoulders. Ripples or dune-like morphologies wrinkle the canyon bottoms and some slope areas. Subaquatic mass movements are apparently missing on the delta and are of minor importance on the lateral lake slopes. Morphologies of the underlying bedrock and small local river deltas are located along the lateral slopes of Lake Geneva. Based on historical maps, the recent history of the Rhone River connection to the sub-aquatic delta and the canyons is reconstructed. The transition from three to two river branches dates to 1830–1840, when the river branch to the Le Bouveret lake bay was cut. The transition from two to one river branch corresponds to the achievement of the correction and dam construction work on the modern Rhone River channel between 1870 and 1880.

Type: Article , PeerReviewed

Format: text

DOI: 10.1007/s00015-010-0006-4

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Gas seepage in the Dnepr paleo-delta area (NW-Black Sea) and its regional impact on the water column methane cycle (2010)

Schmale, O. ; Beaubien, S.E. ; Rehder, G. ; [et al.]

Elsevier

In: Journal of Marine Systems, 80 (1-2). pp. 90-100.

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Publication Date: 2020-07-23

Description: Methane concentrations and carbon stable isotopic ratios (δ13CCH4), oxygen concentrations and hydrographic parameters (CTD) were investigated in the water column of the north-western Black Sea during the summers of 2003 and 2004. Water samples were collected along a transect which crosses three methane seep areas in 90, 220, and 600 m water depth. These active seeps strongly influence methane distribution in the overlying anoxic and oxic water column. Methane concentration and stable isotope (δ13CCH4) patterns indicate that water column stratification and microbial methane oxidation efficiently hamper the transfer of methane to the sea surface. Only the shelf seep site in 90 m water depth acts as a direct source of atmospheric methane. Microbial methane oxidation and/or gas stripping seem to cause oxygen depletion above the two shallower seep areas. The methane flux from the 90 m site into the water column is estimated to have been 0.599 × 106 mol yr− 1 (9.6 t yr− 1) in 2003 and 0.347 × 106 mol yr− 1 (5.6 t yr− 1) in 2004. Comparison of results from the two years shows different water column methane inventories in the deep part of the transect, implying a variable methane source strength at the 600 m deep site. The flux from this area is estimated to have been 11.35 × 106 mol yr− 1 in 2003.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.jmarsys.2009.10.003

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Arctic methane sources: Isotopic evidence for atmospheric inputs (2011)

Fisher, R. E. ; Sriskantharajah, S. ; Lowry, D. ; [et al.]

AGU (American Geophysical Union)

In: Geophysical Research Letters, 38 (21). L21803.

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Publication Date: 2013-06-10

Description: By comparison of the methane mixing ratio and the carbon isotope ratio (δ13CCH4) in Arctic air with regional background, the incremental input of CH4 in an air parcel and the source δ13CCH4 signature can be determined. Using this technique the bulk Arctic CH4 source signature of air arriving at Spitsbergen in late summer 2008 and 2009 was found to be −68‰, indicative of the dominance of a biogenic CH4 source. This is close to the source signature of CH4 emissions from boreal wetlands. In spring, when wetland was frozen, the CH4 source signature was more enriched in 13C at −53 ± 6‰ with air mass back trajectories indicating a large influence from gas field emissions in the Ob River region. Emissions of CH4 to the water column from the seabed on the Spitsbergen continental slope are occurring but none has yet been detected reaching the atmosphere. The measurements illustrate the significance of wetland emissions. Potentially, these may respond quickly and powerfully to meteorological variations and to sustained climate warming.

Type: Article , PeerReviewed

Format: text

DOI: 10.1029/2011GL049319

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Ocean currents shape the microbiome of Arctic marine sediments (2013)

Hamdan, Leila J. ; Coffin, Richard B. ; Sikaroodi, Masoumeh ; [et al.]

Nature Publishing Group

In: The ISME Journal, 7 (4). pp. 685-696.

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Publication Date: 2019-09-23

Description: Prokaryote communities were investigated on the seasonally stratified Alaska Beaufort Shelf (ABS). Water and sediment directly underlying water with origin in the Arctic, Pacific or Atlantic oceans were analyzed by pyrosequencing and length heterogeneity-PCR in conjunction with physicochemical and geographic distance data to determine what features structure ABS microbiomes. Distinct bacterial communities were evident in all water masses. Alphaproteobacteria explained similarity in Arctic surface water and Pacific derived water. Deltaproteobacteria were abundant in Atlantic origin water and drove similarity among samples. Most archaeal sequences in water were related to unclassified marine Euryarchaeota. Sediment communities influenced by Pacific and Atlantic water were distinct from each other and pelagic communities. Firmicutes and Chloroflexi were abundant in sediment, although their distribution varied in Atlantic and Pacific influenced sites. Thermoprotei dominated archaea in Pacific influenced sediments and Methanomicrobia dominated in methane-containing Atlantic influenced sediments. Length heterogeneity-PCR data from this study were analyzed with data from methane-containing sediments in other regions. Pacific influenced ABS sediments clustered with Pacific sites from New Zealand and Chilean coastal margins. Atlantic influenced ABS sediments formed another distinct cluster. Density and salinity were significant structuring features on pelagic communities. Porosity co-varied with benthic community structure across sites and methane did not. This study indicates that the origin of water overlying sediments shapes benthic communities locally and globally and that hydrography exerts greater influence on microbial community structure than the availability of methane.

Type: Article , PeerReviewed

Format: text

DOI: 10.1038/ismej.2012.143

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