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B_LANDER; BC; Bottom lander; Box corer; Documentation file; File content; focusing factor; GeoB22901-1, Site 1; GeoB22903-1, Site 5; GeoB22904-1, Site 4; GeoB22905-1, Site 3; GeoB22906-1, Site 7; GeoB22907-1, Site 2; GeoB22908-1, Site 10; GeoB22909-2, Site 9; Hadal trench; Kermadec Trench; KuramBio II; Mariana Trench; mass accumulation rate; mass-wasting event; MUC; MultiCorer; North Pacific Ocean; Office Open XML Workbook; organic carbon deposition rate; Radionuclides; Reference/source; Site 6; SO250; SO250_104-1; SO250_16-1; SO250_53-1; SO250_74-1; SO261; SO261_105-1; SO261_116-1; SO261_21-1; SO261_35-1; SO261_48-1; SO261_63-1; SO261_75-1; SO261_8-2; SO261_92-1; Sonne_2; TAN1711; TAN1711_K4; TAN1711_K6; TAN1711_K7; Tangaroa; YK10-11; YK10-11_M1; YK10-11_M2; Yokosuka (1)
Kermadec Trench (1)
ABNJ (1)
Abyssal zone. (1)
Benthic biomass (1)

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Radionuclide and total organic carbon contents, sedimentation, mass accumulation and organic carbon deposition rates in Atacama, Kuril-Kamchatka, Kermadec and Mariana Trench systems (2022)

Oguri, Kazumasa ; Masqué, Pere ; Zabel, Matthias ; [et al.]

PANGAEA

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Publication Date: 2024-06-26

Description: To investigate sedimentation processes in hadal trenches, sediment cores were collected from Atacama, Kuril-Kamchatka, Kermadec and Mariana Trench regions. We collected 9 sediment cores from Atacama Trench (R/V Sonne SO261; from 2/Mar to 2/Apr/2018), 4 sediment cores from Kuril-Kamchatka Trench (R/V Sonne SO250; from 16/Aug to 26/Sep/2016), 3 sediment cores from Kermadec Trench (R/V Tangaroa; TAN1711 from 24/Nov to 14/Dec/2017), and 2 sediment cores from Mariana Trench (R/V Yokosuka; YK10-11 from 20/Nov to 4/Dec/2010), respectively. Using with these cores, we measured radionuclides (210Pb, 214Pb and 137Cs) and total organic carbon (TOC) profiles to calculate sedimentation, mass accumulation and TOC deposition rates. This dataset contains sapling site locations, 210Pb (and excess 210Pb), 214Pb and 137Cs concentrations and TOC contents of these cores. 14C ages of organic carbon are also measured for Mariana Trench sediment cores. Sedimentation, mass accumulation and organic carbon deposition rates calculated with excess 210Pb profiles and the surface TOC contents are also provided. Datasets about mass accumulation rates from continental shelf to the hadal environments and burial efficiency of organic carbon are compiled from our data and the previously published papers (references are shown in each file). These data are used for preparing figures, tables and the discussions in Oguri et al. (2022).

Keywords: B_LANDER; BC; Bottom lander; Box corer; Documentation file; File content; focusing factor; GeoB22901-1, Site 1; GeoB22903-1, Site 5; GeoB22904-1, Site 4; GeoB22905-1, Site 3; GeoB22906-1, Site 7; GeoB22907-1, Site 2; GeoB22908-1, Site 10; GeoB22909-2, Site 9; Hadal trench; Kermadec Trench; KuramBio II; Mariana Trench; mass accumulation rate; mass-wasting event; MUC; MultiCorer; North Pacific Ocean; Office Open XML Workbook; organic carbon deposition rate; Radionuclides; Reference/source; Site 6; SO250; SO250_104-1; SO250_16-1; SO250_53-1; SO250_74-1; SO261; SO261_105-1; SO261_116-1; SO261_21-1; SO261_35-1; SO261_48-1; SO261_63-1; SO261_75-1; SO261_8-2; SO261_92-1; Sonne_2; TAN1711; TAN1711_K4; TAN1711_K6; TAN1711_K7; Tangaroa; YK10-11; YK10-11_M1; YK10-11_M2; Yokosuka

Type: Dataset

Format: text/tab-separated-values, 29 data points

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The distribution of benthic biomass in hadal trenches : a modelling approach to investigate the effect of vertical and lateral organic matter transport to the seafloor (2015)

Ichino, Matteo C. ; Clark, Malcolm R. ; Drazen, Jeffrey C. ; [et al.]

Elsevier

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Publication Date: 2022-05-25

Description: © The Author(s), 2015. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Deep Sea Research Part I: Oceanographic Research Papers 100 (2015): 21-33, doi:10.1016/j.dsr.2015.01.010.

Description: Most of our knowledge about deep-sea habitats is limited to bathyal (200–3000 m) and abyssal depths (3000–6000 m), while relatively little is known about the hadal zone (6000–11,000 m). The basic paradigm for the distribution of deep seafloor biomass suggests that the reduction in biomass and average body size of benthic animals along depth gradients is mainly related to surface productivity and remineralisation of sinking particulate organic carbon with depth. However, there is evidence that this pattern is somewhat reversed in hadal trenches by the funnelling of organic sediments, which would result in increased food availability along the axis of the trenches and towards their deeper regions. Therefore, despite the extreme hydrostatic pressure and remoteness from the pelagic food supply, it is hypothesized that biomass can increase with depth in hadal trenches. We developed a numerical model of gravitational lateral sediment transport along the seafloor as a function of slope, using the Kermadec Trench, near New Zealand, as a test environment. We propose that local topography (at a scale of tens of kilometres) and trench shape can be used to provide useful estimates of local accumulation of food and, therefore, patterns of benthic biomass. Orientation and steepness of local slopes are the drivers of organic sediment accumulation in the model, which result in higher biomass along the axis of the trench, especially in the deepest spots, and lower biomass on the slopes, from which most sediment is removed. The model outputs for the Kermadec Trench are in agreement with observations suggesting the occurrence of a funnelling effect and substantial spatial variability in biomass inside a trench. Further trench surveys will be needed to determine the degree to which seafloor currents are important compared with the gravity-driven transport modelled here. These outputs can also benefit future hadal investigations by highlighting areas of potential biological interest, on which to focus sampling effort. Comprehensive exploration of hadal trenches will, in turn, provide datasets for improving the model parameters and increasing predictive power.

Description: MCI would also like to thank the University of Southampton, the Natural Environment Research Council (NERC, grant number NEW332003) and the Institute of Marine Engineering, Science & Technology (IMarEST), for supporting his research towards a PhD. We are grateful for the support provided by the National Science Foundation (OCE-1131620 to TMS, JCD, and PHY) to the Hadal Ecosystem Studies (HADES) project to which this paper forms a contribution. Support also came from the Natural Environment Research Council (NERC) and its Marine Environmental Mapping Programme (MAREMAP).

Keywords: Hadal ecology ; Sediment ; Gravitational transport ; Topography ; Benthic biomass ; Kermadec Trench

Repository Name: Woods Hole Open Access Server

Type: Article

Format: application/pdf

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