GLORIA — GEOMAR Library Ocean Research Information Access

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RV Kronprins Håkon (cruise no. 2019708) Longyearbyen – Longyearbyen 19.09. – 16.10.2019 (2020)

Bünz, Stefan ; Ramirez-Llodra, Eva ; German, Chris ; [et al.]

UIT - The Arctic University of Norway

In: EPIC3UIT - The Arctic University of Norway, 100 p.

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Publication Date: 2020-01-21

Description: The HACON cruise is a major component of the FRINATEK HACON project, which aims at investigating the role of the Gakkel Ridge and Arctic Ocean in biological connectivity amongst ocean basins and global biogeography of chemosynthetic ecosystems. The HACON study area is centered in the Aurora seamount and Aurora vent field.

Repository Name: EPIC Alfred Wegener Institut

Type: Miscellaneous , notRev

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Water column methanotrophy controlled by a rapid oceanographic switch (2015)

Steinle, Lea ; Graves, Carolyn A. ; Treude, Tina ; [et al.]

NATURE PUBLISHING GROUP

In: EPIC3Nature Geoscience, NATURE PUBLISHING GROUP

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Publication Date: 2015-12-15

Description: Large amounts of the greenhouse gas methane are released from the seabed but liberation of methane to the atmosphere is mitigated by aerobic methanotrophs in the water column. The size and activity of methanotrophic communities are thought to be mainly determined by nutrient and redox dynamics, but little is known about the effects of water mass transport. Here, we show that cold bottom waters at methane seeps west off Svalbard, which contained a large number of aerobic methanotrophs, were rapidly displaced by warmer waters with a considerably smaller methanotrophic community. This water mass exchange, caused by short-term variations of the West Spitsbergen Current strongly reduced methanotrophic activity. Currents are common at many methane seeps and could thus be a globally important control on methane oxidation in the water column.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Cohesive and mixed sediment in the Regional Ocean Modeling System (ROMS v3.6) implemented in the Coupled Ocean–Atmosphere–Wave–Sediment Transport Modeling System (COAWST r1234) (2018)

Sherwood, Christopher R. ; Aretxabaleta, Alfredo L. ; Harris, Courtney K. ; [et al.]

Copernicus Publications on behalf of the European Geosciences Union

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Publication Date: 2022-05-25

Description: © The Author(s), 2018. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Geoscientific Model Development 11 (2018): 1849-1871, doi:10.5194/gmd-11-1849-2018.

Description: We describe and demonstrate algorithms for treating cohesive and mixed sediment that have been added to the Regional Ocean Modeling System (ROMS version 3.6), as implemented in the Coupled Ocean–Atmosphere–Wave–Sediment Transport Modeling System (COAWST Subversion repository revision 1234). These include the following: floc dynamics (aggregation and disaggregation in the water column); changes in floc characteristics in the seabed; erosion and deposition of cohesive and mixed (combination of cohesive and non-cohesive) sediment; and biodiffusive mixing of bed sediment. These routines supplement existing non-cohesive sediment modules, thereby increasing our ability to model fine-grained and mixed-sediment environments. Additionally, we describe changes to the sediment bed layering scheme that improve the fidelity of the modeled stratigraphic record. Finally, we provide examples of these modules implemented in idealized test cases and a realistic application.

Description: This work was supported by the US Geological Survey, Coastal and Marine Geology Program and the National Ocean Partnership Program. Courtney K. Harris was supported by the NSF (OCE-1459708, OCE-1061781, and OCE-0536572).

Repository Name: Woods Hole Open Access Server

Type: Article

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Sediment transport on the Palos Verdes shelf, California (2010)

Ferré, Bénédicte ; Sherwood, Christopher R. ; Wiberg, Patricia L.

Elsevier B.V.

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Publication Date: 2022-05-25

Description: This paper is not subject to U.S. copyright. The definitive version was published in Continental Shelf Research 30 (2010): 761-780, doi:10.1016/j.csr.2010.01.011.

Description: Sediment transport and the potential for erosion or deposition have been investigated on the Palos Verdes (PV) and San Pedro shelves in southern California to help assess the fate of an effluent-affected deposit contaminated with DDT and PCBs. Bottom boundary layer measurements at two 60-m sites in spring 2004 were used to set model parameters and evaluate a one-dimensional (vertical) model of local, steady-state resuspension, and suspended-sediment transport. The model demonstrated skill (Brier scores up to 0.75) reproducing the magnitudes of bottom shear stress, current speeds, and suspended-sediment concentrations measured during an April transport event, but the model tended to underpredict observed rotation in the bottom-boundary layer, possibly because the model did not account for the effects of temperature–salinity stratification. The model was run with wave input estimated from a nearby buoy and current input from four to six years of measurements at thirteen sites on the 35- and 65-m isobaths on the PV and San Pedro shelves. Sediment characteristics and erodibility were based on gentle wet-sieve analysis and erosion-chamber measurements. Modeled flow and sediment transport were mostly alongshelf toward the northwest on the PV shelf with a significant offshore component. The 95th percentile of bottom shear stresses ranged from 0.09 to 0.16 Pa at the 65-m sites, and the lowest values were in the middle of the PV shelf, near the Whites Point sewage outfalls where the effluent-affected layer is thickest. Long-term mean transport rates varied from 0.9 to 4.8 metric tons m−1 yr−1 along the 65-m isobaths on the PV shelf, and were much higher at the 35-m sites. Gradients in modeled alongshore transport rates suggest that, in the absence of a supply of sediment from the outfalls or PV coast, erosion at rates of not, vert, similar0.2 mm yr−1 might occur in the region southeast of the outfalls. These rates are small compared to some estimates of background natural sedimentation rates (not, vert, similar5 mm yr−1), but do not preclude higher localized rates near abrupt transitions in sediment characteristics. However, low particle settling velocities and strong currents result in transport length-scales that are long relative to the narrow width of the PV shelf, which combined with the significant offshore component in transport, means that transport of resuspended sediment towards deep water is as likely as transport along the axis of the effluent-affected deposit.

Description: These studies were funded by the US Environmental Protection Agency Palos Verdes Super fund remediation project

Keywords: Sediment transport ; Erodibility ; DDT ; PCBs ; Numerical model ; USA ; California ; Palos Verdes

Repository Name: Woods Hole Open Access Server

Type: Article

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