GLORIA — GEOMAR Library Ocean Research Information Access

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Online-Ressource

Long-Term Limnological Research and Monitoring at Crater Lake, Oregon : A Benchmark Study of a Deep and Exceptionally Clear Montane Caldera Lake. (2007)

Larson, G. L.

Dordrecht :Springer Netherlands,

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Schlagwort(e): Freshwater biology -- Oregon -- Crater Lake. ; Electronic books.

Materialart: Online-Ressource

Seiten: 1 online resource (285 pages)

Ausgabe: 1st ed.

ISBN: 9781402058240

Serie: Developments in Hydrobiology Series ; v.191

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=301964

Sprache: Englisch

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2

Digitale Medien

Particulate and dissolved vanadium in the North Pacific Ocean (1984)

Collier, R. W.

[s.l.] : Nature Publishing Group

Nature 309 (1984), S. 441-444

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ISSN: 1476-4687

Quelle: Nature Archives 1869 - 2009

Thema: Biologie , Chemie und Pharmazie , Medizin , Allgemeine Naturwissenschaft , Physik

Notizen: [Auszug] Particulate matter was collected from the upper 1,500m of the Panama Basin by a large volume filtration system (LVFS)2. The samples were collected in July 1976 and again in March 1979 from the same location, 0°44′N, 86° 10′W. The chemistry, biology, and vertical flux of material ...

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1038/309441a0

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3

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Sea Floor Methane Hydrates at Hydrate Ridge, Cascadia Margin (2001)

Suess, Erwin ; Torres, M. E. ; Borhmann, Gerhard ; [weitere]

AGU (American Geophysical Union)

In: In: Natural gas hydrates: occurrence, distribution, and detection. , ed. by Paull, C. Geophysical Monograph Series, 124 . AGU (American Geophysical Union), Washington, DC, pp. 87-99.

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Publikationsdatum: 2017-06-27

Materialart: Book chapter , NonPeerReviewed

Format: text

DOI: 10.1029/GM124p0087

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4

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Methane sources feeding cold seeps on the shelf and upper continental slope off central Oregon, USA (2009)

Torres, M. E. R. ; Embley, W. ; Merle, S. G. ; [weitere]

AGU (American Geophysical Union)

In: Geochemistry, Geophysics, Geosystems, 10 (Q11003).

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Publikationsdatum: 2018-03-14

Beschreibung: We report on a bathymetric mapping and remotely operated vehicle surveys along the 100–600 m region offshore Oregon from 43°50′N to 44°18′N. We interpret our results in light of available geophysical data, published geotectonic models, and analogous observations of fluid venting and carbonate deposition from 44°30′N to 45°00′N. The methane seepage is defined by juxtaposition of a young prism, where methane is generated by bacterial activity and its release is modulated by gas hydrate dynamics, against older sequences that serve as a source of thermogenic hydrocarbons that vent in the shelf. We hypothesize that collision of a buried ridge with the Siletz Terrane results in uplift of gas hydrate bearing sediments in the oncoming plate and that the resulting decrease in pressure leads to gas hydrate dissociation and methane exolution, which, in turn, may facilitate slope failure. Oxidation of the released methane results in precipitation of carbonates that are imaged as high backscatter along a 550 ± 60 m benthic corridor.

Materialart: Article , PeerReviewed

Format: text

DOI: 10.1029/2009GC002518

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Enhanced marine CH4 emissions to atmosphere off Oregon caused by coastal upwelling (2002)

Rehder, Gregor ; Collier, R. W. ; Heeschen, K. ; [weitere]

AGU (American Geophysical Union)

In: Global Biogeochemical Cycles, 16 (3). p. 1081.

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Publikationsdatum: 2018-03-15

Beschreibung: Methane in surface waters and marine air off Oregon (44°24′N–44°54′N, 124°36′W–125°24′W) was continuously surveyed in July 1999. During a high-resolution survey after a period of steady winds from the north, CH4 concentrations were high in the northeastern region, near the shelf edge. The highest CH4 concentrations were 2.5 times higher than equilibrium with the atmospheric partial pressure. In contrast, concentrations were near equilibrium in the western part of the survey area, the Hydrate Ridge. The increase in CH4 from southwest to northeast correlates with a drop in sea surface temperature (SST), from 16.5°C to 〈13.5°C, toward the shelf edge. The observed SST pattern was caused by summer upwelling off Oregon. The results suggest that CH4 derived from bottom sources near the shelf/slope break and methane found in connection with shallow (100–300 m) turbidity layers is transported to the surface by coastal upwelling, which causes an enhanced net flux of CH4 to the atmosphere. Vertical profiles of the methane distribution on the shelf in October demonstrate the accumulation of methane introduced by shelf sources. Surface concentrations at these stations in October (during nonupwelling conditions) were lower than in July (during upwelling) and were only slightly oversaturated with respect to the atmosphere. An acoustic Doppler current profiler survey indicates that the observed trend cannot be attributed to a surface flow reversal in the area. The low-salinity waters in the core of the Columbia River plume (S 〈 31) showed no enhanced CH4 concentrations. The trend of higher CH4 concentrations at lower temperatures existed over the whole 17-day survey, but large spatial and temporal variations existed. The presence of methane sources in regions of coastal upwelling worldwide, such as shallow seeps, gas hydrates, and intermediate nepheloid layers, suggests that the enhancement of CH4 fluxes to the atmosphere by coastal upwelling occurs on a global scale.

Materialart: Article , PeerReviewed

Format: text

DOI: 10.1029/2000GB001391

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Distribution and height of methane bubble plumes on the Cascadia Margin characterized by acoustic imaging (2003)

Heeschen, Katja U. ; Tréhu, A. M. ; Collier, R. W. ; [weitere]

AGU (American Geophysical Union)

In: Geophysical Research Letters, 30 (12). p. 1643.

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Publikationsdatum: 2018-02-20

Beschreibung: Submersible investigations of the Cascadia accretionary complex have identified localized venting of methane gas bubbles in association with gas hydrate occurrence. Acoustic profiles of these bubble plumes in the water column in the vicinity of Hydrate Ridge offshore Oregon provide new constraints on the spatial distribution of these gas vents and the fate of the gas in the water column. The gas vent sites remained active over the span of two years, but varied dramatically on time scales of a few hours. All plumes emanated from local topographic highs near the summit of ridge structures. The acoustic images of the bubble plumes in the water column disappear at water depths between 500 to 460 m, independent of the seafloor depth. This coincides with the predicted depth of the gas hydrate stability boundary of 510 to 490 m, suggesting that the presence of a hydrate skin on the bubble surface prevents them from rapid dissolution. The upper limit of the acoustic bubble plumes at 460 m suggests that dissolution of the residual bubbles is relatively rapid above the hydrate stability zone.

Materialart: Article , PeerReviewed

Format: text

DOI: 10.1029/2003GL016974

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7

Unbekannt

Gas hydrate destabilization: enhanced dewatering, benthic material turnover and large methane plumes at the Cascadia convergent margin (1999)

Suess, Erwin ; Torres, M. ; Bohrmann, Gerhard ; [weitere]

Elsevier

In: Earth and Planetary Science Letters, 170 . pp. 1-15.

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Publikationsdatum: 2017-06-29

Beschreibung: Mixed methane–sulfide hydrates and carbonates are exposed as a pavement at the seafloor along the crest of one of the accretionary ridges of the Cascadia convergent margin. Vent fields from which methane-charged, low-salinity fluids containing sulfide, ammonia, 4He, and isotopically light CO2 escape are associated with these exposures. They characterize a newly recognized mechanism of dewatering at convergent margins, where freshening of pore waters from hydrate destabilization at depth and free gas drives fluids upward. This process augments the convergence-generated overpressure and leads to local dewatering rates that are much higher than at other margins in the absence of hydrate. Discharge of fluids stimulates benthic oxygen consumption which is orders of magnitude higher than is normally found at comparable ocean depths. The enhanced turnover results from the oxidation of methane, hydrogen sulfide, and ammonia by vent biota. The injection of hydrate methane from the ridge generates a plume hundreds of meters high and several kilometers wide. A large fraction of the methane is oxidized within the water column and generates δ13C anomalies of the dissolved inorganic carbon pool.

Materialart: Article , PeerReviewed

Format: text

DOI: 10.1016/S0012-821X(99)00092-8

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