Microbial activity in surficial sediments overlying acoustic wipeout zones at a Gulf of Mexico cold seep

Lapham, L.; Chanton, Jeffrey P.; Martens, Christopher S.; Sleeper, K.; Woolsey, J. Robert

doi:10.1029/2008gc001944

Cited by 65 publications

(89 citation statements)

References 77 publications

(83 reference statements)

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“…The seafloor at this site hosts a large deep-water coral population, and represents a "mineral-prone seep." A mineralprone seep is in the final stages of seep evolution, where the production of authigenic carbonates has blocked conduits and allowed corals to use these carbonate hard grounds for attachment surfaces (Roberts and Carney, 1997;Lapham et al, 2008aLapham et al, , 2008b. This categorization is consistent with the "self-sealing nature of marine seeps" (Hovland, 2002).…”

Section: Deployment Sites and Sample Collectionsupporting

confidence: 62%

Isotopic composition of sinking particles: Oil effects, recovery and baselines in the Gulf of Mexico, 2010–2015

Chanton

Giering

Bosman

et al. 2018

Elementa: Science of the Anthropocene

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The extensive release of oil during the 2010 Deepwater Horizon spill in the northern Gulf of Mexico perturbed the pelagic ecosystem and associated sinking material. To gauge the recovery and post-spill baseline sources, we measured D We interpret this depletion period, also observed in d 13C data, as caused by the incorporation of naturally seeped oil into sinking particles. Determination of post-spill baselines for these isotopic signatures allows for evaluation of anthropogenic inputs in future.

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Section: Deployment Sites and Sample Collectionsupporting

confidence: 62%

Isotopic composition of sinking particles: Oil effects, recovery and baselines in the Gulf of Mexico, 2010–2015

Chanton

Giering

Bosman

et al. 2018

Elementa: Science of the Anthropocene

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“…For example, in the Gulf of Mexico nearshore the Mississippi River outflow there is a strong terrestrial contribution to surface sediment carbon that shifts to a phytodetritus-dominated contribution over a short distance moving offshore [3,4]. Further offshore, however, on the Texas-Louisiana Shelf, there is significant contribution of CH 4 and petroleum to shallow sediment carbon cycling [9][10][11][12][13]17]. A very different coastal system is the Nankai Trough, off the coast of Tokyo Japan, where deep sediment CH 4 hydrate loading contributes significantly to the shallow sediment carbon cycling [18].…”

Section: Introductionmentioning

confidence: 99%

“…Terrestrial inputs of OM are primarily from rivers and surface runoff, but in some systems, inputs from groundwater can be significant [6,7]. There can also be additional inputs of OC to certain shelf environments from the upward migration of deep sediment petroleum and methane (CH 4 ) to shallow, surface sediments [8][9][10][11][12][13]. There is a general assumption that phytodetritus is a strong OC contribution to coastal sediment [3].…”

Section: Introductionmentioning

confidence: 99%

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Spatial Variation in Sediment Organic Carbon Distribution across the Alaskan Beaufort Sea Shelf

et al. 2017

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Abstract:In September 2009, a series of sediment cores were collected across the Alaskan Beaufort Sea shelf-slope. Sediment and porewater organic carbon (OC) concentrations and stable carbon isotope ratios (δ 13 C) were measured to investigate spatial variations in sediment organic matter (OM) sources and distribution of these materials across the shelf. Cores were collected along three main nearshore (shelf) to offshore (slope) sampling lines (transects) from east-to-west along the North Slope of Alaska: Hammerhead (near Camden Bay), Thetis Island (near Prudhoe Bay), and Cape Halkett (towards Point Barrow). Measured sediment organic carbon (TOC) and porewater dissolved organic carbon (DOC) concentrations and their respective δ 13 C values were used to investigate the relative contribution of different OM sources to sediment OC pool cycled at each location. Sources of OM considered included: water column-sourced phytodetritus, deep sediment methane (CH 4 ), and terrestrial, tundra/river-sourced OM. Results of these measurements, when coupled with results from previous research and additional analyses of sediment and porewater composition, show a pattern of spatial variation in sediment OC concentrations, OM source contributions, and OM cycled along the Alaskan Beaufort Sea shelf. In general, measured sediment total organic carbon (TOC) concentrations, δ 13 C TOC values, porewater DOC concentrations, and δ 13 C DOC values are consistent with an east-to-west transport of modern Holocene sediments with higher OC concentrations primarily sourced from relatively labile terrestrial, tundra OM sources and phytodetritus along the Alaskan Beaufort shelf. Sediment transport along the shelf results in the medium-to-long term accumulation and burial of sediment OM focused to the west which in turn results in higher biogenic CH 4 production rates and higher upward CH 4 diffusion through the sediments resulting in CH 4 − AMO-sourced contribution to sediment OC westward along the shelf. Understanding current OM sources and distributions along the Alaskan Beaufort shelf is important for enhancing models of carbon cycling in Arctic coastal shelf systems. This will help support the prediction of the climate response of the Arctic created in the face of future warming scenarios.

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“…Smaller pore-fluid samplers have been deployed using a variety of methods and expand the lateral coverage of pore-fluid geochemistry at the Observatory. Recovered water samples have since been processed yielding valuable data on the pore fluid chemistry representative of its location (Lapham et al, 2008b;. Laboratory experiments demonstrate the pure structure I and structure II hydrate dissolve until conditions reach saturation 2014).…”

Section: Geochemical Sensor Systemsmentioning

confidence: 99%

Hydrate research activities that both support and derive from the monitoring station/sea-floor Observatory, Mississippi Canyon 118, northern Gulf of Mexico

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2013

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Microbial activity in surficial sediments overlying acoustic wipeout zones at a Gulf of Mexico cold seep

Cited by 65 publications

References 77 publications

Isotopic composition of sinking particles: Oil effects, recovery and baselines in the Gulf of Mexico, 2010–2015

Isotopic composition of sinking particles: Oil effects, recovery and baselines in the Gulf of Mexico, 2010–2015

Spatial Variation in Sediment Organic Carbon Distribution across the Alaskan Beaufort Sea Shelf

Hydrate research activities that both support and derive from the monitoring station/sea-floor Observatory, Mississippi Canyon 118, northern Gulf of Mexico

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